HS: scoreboard — 1475/1496 (98.6%) after step-limit fix

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
HS: raise default step limit 200k → 1M
2026-05-06 12:35:36 +00:00 · 2026-05-06 12:35:12 +00:00 · 2026-05-06 12:08:44 +00:00 · 2026-05-06 12:08:18 +00:00 · 2026-05-06 11:44:31 +00:00 · 2026-05-06 11:44:13 +00:00
185 changed files with 13532 additions and 44970 deletions
--- a/hosts/javascript/platform.py
+++ b/hosts/javascript/platform.py
--- a/hosts/javascript/run_tests.js
+++ b/hosts/javascript/run_tests.js
@@ -293,8 +293,6 @@ env["pop-suite"] = function() {
  return null;
 };

-env["test-allowed?"] = function(name) { return true; };
-
 // Load test framework
 const projectDir = path.join(__dirname, "..", "..");
 const specTests = path.join(projectDir, "spec", "tests");
@@ -343,20 +341,6 @@ if (fs.existsSync(swapPath)) {
  }
 }

-// Load spec library files (define-library modules imported by tests)
-for (const libFile of ["stdlib.sx", "signals.sx", "coroutines.sx"]) {
-  const libPath = path.join(projectDir, "spec", libFile);
-  if (fs.existsSync(libPath)) {
-    const libSrc = fs.readFileSync(libPath, "utf8");
-    const libExprs = Sx.parse(libSrc);
-    for (const expr of libExprs) {
-      try { Sx.eval(expr, env); } catch (e) {
-        console.error(`Error loading spec/${libFile}: ${e.message}`);
-      }
-    }
-  }
-}
-
 // Load tw system (needed by spec/tests/test-tw.sx)
 const twDir = path.join(projectDir, "shared", "sx", "templates");
 for (const twFile of ["tw-type.sx", "tw-layout.sx", "tw.sx"]) {
--- a/hosts/javascript/transpiler.sx
+++ b/hosts/javascript/transpiler.sx
--- a/hosts/ocaml/bin/mcp_tree.ml
+++ b/hosts/ocaml/bin/mcp_tree.ml
@@ -1892,8 +1892,34 @@ let handle_sx_harness_eval args =
    let file = args |> member "file" |> to_string_option in
    let setup_str = args |> member "setup" |> to_string_option in
    let files_json = try args |> member "files" with _ -> `Null in
+    let host_stubs = match args |> member "host_stubs" with `Bool b -> b | _ -> false in
    let e = !env in
    let warnings = ref [] in
+    (* Inject stub host primitives so files using host-get/host-new/etc. can load *)
+    if host_stubs then begin
+      let stubs = {|
+        (define host-global (fn (&rest _) nil))
+        (define host-get (fn (&rest _) nil))
+        (define host-set! (fn (obj k v) v))
+        (define host-call (fn (&rest _) nil))
+        (define host-new (fn (&rest _) (dict)))
+        (define host-callback (fn (f) f))
+        (define host-typeof (fn (&rest _) "string"))
+        (define hs-ref-eq (fn (a b) (identical? a b)))
+        (define host-call-fn (fn (&rest _) nil))
+        (define host-iter? (fn (&rest _) false))
+        (define host-to-list (fn (&rest _) (list)))
+        (define host-await (fn (&rest _) nil))
+        (define host-new-function (fn (&rest _) nil))
+        (define load-library! (fn (&rest _) false))
+      |} in
+      let stub_exprs = Sx_parser.parse_all stubs in
+      List.iter (fun expr ->
+        try ignore (Sx_ref.eval_expr expr (Env e))
+        with exn ->
+          warnings := Printf.sprintf "Stub warning: %s" (Printexc.to_string exn) :: !warnings
+      ) stub_exprs
+    end;
    (* Collect all files to load *)
    let all_files = match files_json with
      | `List items ->
@@ -3018,7 +3044,8 @@ let tool_definitions = `List [
     ("mock", `Assoc [("type", `String "string"); ("description", `String "Optional mock platform overrides as SX dict, e.g. {:fetch (fn (url) {:status 200})}")]);
     ("file", `Assoc [("type", `String "string"); ("description", `String "Optional .sx file to load for definitions")]);
     ("files", `Assoc [("type", `String "array"); ("items", `Assoc [("type", `String "string")]); ("description", `String "Multiple .sx files to load in order")]);
-     ("setup", `Assoc [("type", `String "string"); ("description", `String "SX setup expression to run before main evaluation")])]
+     ("setup", `Assoc [("type", `String "string"); ("description", `String "SX setup expression to run before main evaluation")]);
+     ("host_stubs", `Assoc [("type", `String "boolean"); ("description", `String "If true, inject nil-returning stubs for host-get/host-set!/host-call/host-new/etc. so files that use host primitives can load in the harness")])]
    ["expr"];
  tool "sx_nav" "Manage sx-docs navigation and articles. Modes: list (all nav items with status), check (validate consistency), add (create article + nav entry), delete (remove nav entry + page fn), move (move entry between sections, rewriting hrefs)."
    [("mode", `Assoc [("type", `String "string"); ("description", `String "Mode: list, check, add, delete, or move")]);
--- a/hosts/ocaml/bin/run_tests.ml
+++ b/hosts/ocaml/bin/run_tests.ml
@@ -37,10 +37,7 @@ let rec deep_equal a b =
  match a, b with
  | Nil, Nil -> true
  | Bool a, Bool b -> a = b
-  | Integer a, Integer b -> a = b
  | Number a, Number b -> a = b
-  | Integer a, Number b -> float_of_int a = b
-  | Number a, Integer b -> a = float_of_int b
  | String a, String b -> a = b
  | Symbol a, Symbol b -> a = b
  | Keyword a, Keyword b -> a = b
@@ -229,7 +226,7 @@ let make_test_env () =
    | [String s] ->
      let parsed = Sx_parser.parse_all s in
      (match parsed with
-       | [List (Symbol "sxbc" :: (Number _ | Integer _) :: payload :: _)] -> payload
+       | [List (Symbol "sxbc" :: Number _ :: payload :: _)] -> payload
       | _ -> raise (Eval_error "bytecode-deserialize: invalid sxbc format"))
    | _ -> raise (Eval_error "bytecode-deserialize: expected string"));

@@ -243,7 +240,7 @@ let make_test_env () =
    | [String s] ->
      let parsed = Sx_parser.parse_all s in
      (match parsed with
-       | [List (Symbol "cek-state" :: (Number _ | Integer _) :: payload :: _)] -> payload
+       | [List (Symbol "cek-state" :: Number _ :: payload :: _)] -> payload
       | _ -> raise (Eval_error "cek-deserialize: invalid cek-state format"))
    | _ -> raise (Eval_error "cek-deserialize: expected string"));

@@ -323,10 +320,7 @@ let make_test_env () =
  bind "identical?" (fun args ->
    match args with
    | [a; b] -> Bool (match a, b with
-      | Integer x, Integer y -> x = y
      | Number x, Number y -> x = y
-      | Integer x, Number y -> float_of_int x = y
-      | Number x, Integer y -> x = float_of_int y
      | String x, String y -> x = y
      | Bool x, Bool y -> x = y
      | Nil, Nil -> true
@@ -372,15 +366,11 @@ let make_test_env () =

  bind "append!" (fun args ->
    match args with
-    | [ListRef r; v; (Number n)] when int_of_float n = 0 ->
+    | [ListRef r; v; Number n] when int_of_float n = 0 ->
      r := v :: !r; ListRef r  (* prepend *)
-    | [ListRef r; v; (Integer 0)] ->
-      r := v :: !r; ListRef r  (* prepend Integer index *)
    | [ListRef r; v] -> r := !r @ [v]; ListRef r  (* append in place *)
-    | [List items; v; (Number n)] when int_of_float n = 0 ->
+    | [List items; v; Number n] when int_of_float n = 0 ->
      List (v :: items)  (* immutable prepend *)
-    | [List items; v; (Integer 0)] ->
-      List (v :: items)  (* immutable prepend Integer index *)
    | [List items; v] -> List (items @ [v])  (* immutable fallback *)
    | _ -> raise (Eval_error "append!: expected list and value"));

@@ -556,10 +546,7 @@ let make_test_env () =
  bind "batch-begin!" (fun _args -> Sx_ref.batch_begin_b ());
  bind "batch-end!" (fun _args -> Sx_ref.batch_end_b ());
  bind "now-ms" (fun _args -> Number 1000.0);
-  bind "random-int" (fun args -> match args with
-    | [Number lo; _] -> Number lo
-    | [Integer lo; _] -> Integer lo
-    | _ -> Integer 0);
+  bind "random-int" (fun args -> match args with [Number lo; _] -> Number lo | _ -> Number 0.0);
  bind "try-rerender-page" (fun _args -> Nil);
  bind "collect!" (fun args ->
    match args with
@@ -1120,47 +1107,6 @@ let make_test_env () =
    | _ :: _ -> String "confirmed"
    | _ -> Nil);

-  bind "values" (fun args ->
-    match args with
-    | [v] -> v
-    | vs ->
-      let d = Hashtbl.create 2 in
-      Hashtbl.replace d "_values" (Bool true);
-      Hashtbl.replace d "_list" (List vs);
-      Dict d);
-
-  bind "call-with-values" (fun args ->
-    match args with
-    | [producer; consumer] ->
-      let result = Sx_ref.cek_call producer (List []) in
-      let spread = (match result with
-        | Dict d when (match Hashtbl.find_opt d "_values" with Some (Bool true) -> true | _ -> false) ->
-          (match Hashtbl.find_opt d "_list" with Some (List l) -> l | _ -> [result])
-        | _ -> [result])
-      in
-      Sx_ref.cek_call consumer (List spread)
-    | _ -> raise (Eval_error "call-with-values: expected 2 args"));
-
-  bind "promise?" (fun args ->
-    match args with
-    | [v] -> Bool (Sx_ref.is_promise v)
-    | _ -> Bool false);
-
-  bind "make-promise" (fun args ->
-    match args with
-    | [v] ->
-      let d = Hashtbl.create 4 in
-      Hashtbl.replace d "_promise" (Bool true);
-      Hashtbl.replace d "forced" (Bool true);
-      Hashtbl.replace d "value" v;
-      Dict d
-    | _ -> Nil);
-
-  bind "force" (fun args ->
-    match args with
-    | [p] -> Sx_ref.force_promise p
-    | _ -> Nil);
-
  env

 (* ====================================================================== *)
@@ -1196,20 +1142,18 @@ let run_foundation_tests () =
  in

  Printf.printf "Suite: parser\n";
-  assert_eq "number" (Integer 42) (List.hd (parse_all "42"));
+  assert_eq "number" (Number 42.0) (List.hd (parse_all "42"));
  assert_eq "string" (String "hello") (List.hd (parse_all "\"hello\""));
  assert_eq "bool true" (Bool true) (List.hd (parse_all "true"));
  assert_eq "nil" Nil (List.hd (parse_all "nil"));
  assert_eq "keyword" (Keyword "class") (List.hd (parse_all ":class"));
  assert_eq "symbol" (Symbol "foo") (List.hd (parse_all "foo"));
-  assert_eq "list" (List [Symbol "+"; Integer 1; Integer 2]) (List.hd (parse_all "(+ 1 2)"));
+  assert_eq "list" (List [Symbol "+"; Number 1.0; Number 2.0]) (List.hd (parse_all "(+ 1 2)"));
  (match List.hd (parse_all "(div :class \"card\" (p \"hi\"))") with
   | List [Symbol "div"; Keyword "class"; String "card"; List [Symbol "p"; String "hi"]] ->
     incr pass_count; Printf.printf "  PASS: nested list\n"
   | v -> incr fail_count; Printf.printf "  FAIL: nested list — got %s\n" (Sx_types.inspect v));
  (match List.hd (parse_all "'(1 2 3)") with
-   | List [Symbol "quote"; List [Integer 1; Integer 2; Integer 3]] ->
-     incr pass_count; Printf.printf "  PASS: quote sugar\n"
   | List [Symbol "quote"; List [Number 1.0; Number 2.0; Number 3.0]] ->
     incr pass_count; Printf.printf "  PASS: quote sugar\n"
   | v -> incr fail_count; Printf.printf "  FAIL: quote sugar — got %s\n" (Sx_types.inspect v));
@@ -1217,7 +1161,7 @@ let run_foundation_tests () =
   | Dict d when dict_has d "a" && dict_has d "b" ->
     incr pass_count; Printf.printf "  PASS: dict literal\n"
   | v -> incr fail_count; Printf.printf "  FAIL: dict literal — got %s\n" (Sx_types.inspect v));
-  assert_eq "comment" (Integer 42) (List.hd (parse_all ";; comment\n42"));
+  assert_eq "comment" (Number 42.0) (List.hd (parse_all ";; comment\n42"));
  assert_eq "string escape" (String "hello\nworld") (List.hd (parse_all "\"hello\\nworld\""));
  assert_eq "multiple exprs" (Number 2.0) (Number (float_of_int (List.length (parse_all "(1 2 3) (4 5)"))));

@@ -2034,10 +1978,6 @@ let run_spec_tests env test_files =
      (match Hashtbl.find_opt d "children" with
       | Some (List l) when i >= 0 && i < List.length l -> List.nth l i
       | _ -> (match Hashtbl.find_opt d (string_of_int i) with Some v -> v | None -> Nil))
-    | [Dict d; Integer n] ->
-      (match Hashtbl.find_opt d "children" with
-       | Some (List l) when n >= 0 && n < List.length l -> List.nth l n
-       | _ -> (match Hashtbl.find_opt d (string_of_int n) with Some v -> v | None -> Nil))
    | _ -> Nil);

  (* Stringify a value for DOM string properties *)
@@ -2112,8 +2052,8 @@ let run_spec_tests env test_files =
         Hashtbl.replace d "childNodes" (List [])
       | _ -> ());
      stored
-    | [ListRef r; idx_v; value] when (match idx_v with Number _ | Integer _ -> true | _ -> false) ->
-      let idx = match idx_v with Number n -> int_of_float n | Integer n -> n | _ -> 0 in
+    | [ListRef r; Number n; value] ->
+      let idx = int_of_float n in
      let lst = !r in
      if idx >= 0 && idx < List.length lst then
        r := List.mapi (fun i v -> if i = idx then value else v) lst
@@ -2250,7 +2190,7 @@ let run_spec_tests env test_files =
            | [String name; value] ->
              let attrs = match Hashtbl.find_opt d "attributes" with Some (Dict a) -> a | _ ->
                let a = Hashtbl.create 4 in Hashtbl.replace d "attributes" (Dict a); a in
-              let sv = match value with String s -> s | Integer n -> string_of_int n | Number n ->
+              let sv = match value with String s -> s | Number n ->
                let i = int_of_float n in if float_of_int i = n then string_of_int i
                else string_of_float n | _ -> Sx_types.inspect value in
              Hashtbl.replace attrs name (String sv);
@@ -2692,7 +2632,6 @@ let run_spec_tests env test_files =
  let rec json_of_value = function
    | Nil -> `Null
    | Bool b -> `Bool b
-    | Integer n -> `Int n
    | Number n ->
      if Float.is_integer n && Float.abs n < 1e16
      then `Int (int_of_float n) else `Float n
@@ -2708,8 +2647,8 @@ let run_spec_tests env test_files =
  let rec value_of_json = function
    | `Null -> Nil
    | `Bool b -> Bool b
-    | `Int i -> Integer i
-    | `Intlit s -> (try Integer (int_of_string s) with _ -> try Number (float_of_string s) with _ -> String s)
+    | `Int i -> Number (float_of_int i)
+    | `Intlit s -> (try Number (float_of_string s) with _ -> String s)
    | `Float f -> Number f
    | `String s -> String s
    | `List xs -> List (List.map value_of_json xs)
@@ -2872,7 +2811,6 @@ let run_spec_tests env test_files =
      match sx_vm_execute with
      | Some fn -> Sx_ref.cek_call fn (List args)
      | None -> Nil)));
-  load_module "stdlib.sx" spec_dir;   (* pure SX stdlib: format etc. *)
  load_module "signals.sx" spec_dir;  (* core reactive primitives *)
  load_module "signals.sx" web_dir;   (* web extensions *)
  load_module "freeze.sx" lib_dir;
--- a/hosts/ocaml/bin/sx_server.ml
+++ b/hosts/ocaml/bin/sx_server.ml
@@ -296,10 +296,6 @@ let read_blob () =
      (* consume trailing newline *)
      (try ignore (input_line stdin) with End_of_file -> ());
      data
-    | [List [Symbol "blob"; Integer n]] ->
-      let data = read_exact_bytes n in
-      (try ignore (input_line stdin) with End_of_file -> ());
-      data
    | _ -> raise (Eval_error ("read_blob: expected (blob N), got: " ^ line))

 (** Batch IO mode — collect requests during aser-slot, resolve after. *)
@@ -361,11 +357,6 @@ let rec read_io_response () =
    | [List (Symbol "io-response" :: Number n :: values)]
      when int_of_float n = !current_epoch ->
      (match values with [v] -> v | _ -> List values)
-    | [List [Symbol "io-response"; Integer n; value]]
-      when n = !current_epoch -> value
-    | [List (Symbol "io-response" :: Integer n :: values)]
-      when n = !current_epoch ->
-      (match values with [v] -> v | _ -> List values)
    (* Legacy untagged: (io-response value) — accept for backwards compat *)
    | [List [Symbol "io-response"; value]] -> value
    | [List (Symbol "io-response" :: values)] ->
@@ -405,12 +396,6 @@ let read_batched_io_response () =
        when int_of_float n = !current_epoch -> s
      | [List [Symbol "io-response"; Number n; v]]
        when int_of_float n = !current_epoch -> serialize_value v
-      | [List [Symbol "io-response"; Integer n; String s]]
-        when n = !current_epoch -> s
-      | [List [Symbol "io-response"; Integer n; SxExpr s]]
-        when n = !current_epoch -> s
-      | [List [Symbol "io-response"; Integer n; v]]
-        when n = !current_epoch -> serialize_value v
      (* Legacy untagged *)
      | [List [Symbol "io-response"; String s]]
      | [List [Symbol "io-response"; SxExpr s]] -> s
@@ -974,7 +959,6 @@ let setup_io_bridges env =
  bind "sleep" (fun args -> io_request "sleep" args);
  bind "set-response-status" (fun args -> match args with
    | [Number n] -> _pending_response_status := int_of_float n; Nil
-    | [Integer n] -> _pending_response_status := n; Nil
    | _ -> Nil);
  bind "set-response-header" (fun args -> io_request "set-response-header" args)

@@ -1377,7 +1361,6 @@ let rec dispatch env cmd =
        | Bool true -> "true"
        | Bool false -> "false"
        | Number n -> Sx_types.format_number n
-        | Integer n -> string_of_int n
        | String s -> "\"" ^ escape_sx_string s ^ "\""
        | Symbol s -> s
        | Keyword k -> ":" ^ k
@@ -1391,10 +1374,6 @@ let rec dispatch env cmd =
        | Island i -> "~" ^ i.i_name
        | SxExpr s -> s
        | RawHTML s -> "\"" ^ escape_sx_string s ^ "\""
-        | Char n -> Sx_types.inspect (Char n)
-        | Eof -> Sx_types.inspect Eof
-        | Port _ -> Sx_types.inspect result
-        | Rational (n, d) -> Printf.sprintf "%d/%d" n d
        | _ -> "nil"
      in
      send_ok_raw (raw_serialize result)
@@ -4471,8 +4450,6 @@ let site_mode () =
          match exprs with
          | [List [Symbol "epoch"; Number n]] ->
            current_epoch := int_of_float n
-          | [List [Symbol "epoch"; Integer n]] ->
-            current_epoch := n
          (* render-page: full SSR pipeline — URL → complete HTML *)
          | [List [Symbol "render-page"; String path]] ->
            (try match http_render_page env path [] with
@@ -4530,8 +4507,6 @@ let () =
            (* Epoch marker: (epoch N) — set current epoch, read next command *)
            | [List [Symbol "epoch"; Number n]] ->
              current_epoch := int_of_float n
-            | [List [Symbol "epoch"; Integer n]] ->
-              current_epoch := n
            | [cmd] -> dispatch env cmd
            | _ -> send_error ("Expected single command, got " ^ string_of_int (List.length exprs))
          end
--- a/hosts/ocaml/bootstrap.py
+++ b/hosts/ocaml/bootstrap.py
@@ -47,9 +47,7 @@ open Sx_runtime
 let trampoline_fn : (value -> value) ref = ref (fun v -> v)
 let trampoline v = !trampoline_fn v

-(* Step limit for timeout detection — set to 0 to disable *)
-let step_limit : int ref = ref 0
-let step_count : int ref = ref 0
+

 (* === Mutable globals — backing refs for transpiler's !_ref / _ref := === *)
 let _strict_ref = ref (Bool false)
@@ -128,90 +126,6 @@ let enhance_error_with_trace msg =
  _last_error_kont_ref := Nil;
  msg ^ (format_comp_trace trace)

-(* Hand-written sf_define_type — skipped from transpile because the spec uses
-   &rest params and empty-dict literals that the transpiler can't emit cleanly.
-   Implements: (define-type Name (Ctor1 f1 f2) (Ctor2 f3) ...)
-   Creates constructor fns, Name?/Ctor? predicates, Ctor-field accessors,
-   and records ctors in *adt-registry*. *)
-let sf_define_type args env_val =
-  let items = (match args with List l -> l | _ -> []) in
-  let type_sym = List.nth items 0 in
-  let type_name = value_to_string type_sym in
-  let ctor_specs = List.tl items in
-  let env_has_v k = sx_truthy (env_has env_val (String k)) in
-  let env_bind_v k v = ignore (env_bind env_val (String k) v) in
-  let env_get_v k = env_get env_val (String k) in
-  if not (env_has_v "*adt-registry*") then
-    env_bind_v "*adt-registry*" (Dict (Hashtbl.create 8));
-  let registry = env_get_v "*adt-registry*" in
-  let ctor_names = List.map (fun spec ->
-    (match spec with List (sym :: _) -> String (value_to_string sym) | _ -> Nil)
-  ) ctor_specs in
-  (match registry with Dict d -> Hashtbl.replace d type_name (List ctor_names) | _ -> ());
-  env_bind_v (type_name ^ "?")
-    (NativeFn (type_name ^ "?", fun pargs ->
-      (match pargs with
-      | [v] ->
-        (match v with
-        | Dict d -> Bool (Hashtbl.mem d "_adt" &&
-          (match Hashtbl.find_opt d "_type" with Some (String t) -> t = type_name | _ -> false))
-        | _ -> Bool false)
-      | _ -> Bool false)));
-  List.iter (fun spec ->
-    (match spec with
-    | List (sym :: fields) ->
-      let cn = value_to_string sym in
-      let field_names = List.map value_to_string fields in
-      let arity = List.length fields in
-      env_bind_v cn
-        (NativeFn (cn, fun ctor_args ->
-          if List.length ctor_args <> arity then
-            raise (Eval_error (Printf.sprintf "%s: expected %d args, got %d"
-              cn arity (List.length ctor_args)))
-          else begin
-            let d = Hashtbl.create 4 in
-            Hashtbl.replace d "_adt"    (Bool true);
-            Hashtbl.replace d "_type"   (String type_name);
-            Hashtbl.replace d "_ctor"   (String cn);
-            Hashtbl.replace d "_fields" (List ctor_args);
-            Dict d
-          end));
-      env_bind_v (cn ^ "?")
-        (NativeFn (cn ^ "?", fun pargs ->
-          (match pargs with
-          | [v] ->
-            (match v with
-            | Dict d -> Bool (Hashtbl.mem d "_adt" &&
-              (match Hashtbl.find_opt d "_ctor" with Some (String c) -> c = cn | _ -> false))
-            | _ -> Bool false)
-          | _ -> Bool false)));
-      List.iteri (fun idx fname ->
-        env_bind_v (cn ^ "-" ^ fname)
-          (NativeFn (cn ^ "-" ^ fname, fun pargs ->
-            (match pargs with
-            | [v] ->
-              (match v with
-              | Dict d ->
-                (match Hashtbl.find_opt d "_fields" with
-                | Some (List fs) ->
-                  if idx < List.length fs then List.nth fs idx
-                  else raise (Eval_error (cn ^ "-" ^ fname ^ ": index out of bounds"))
-                | _ -> raise (Eval_error (cn ^ "-" ^ fname ^ ": not an ADT")))
-              | _ -> raise (Eval_error (cn ^ "-" ^ fname ^ ": not a dict")))
-            | _ -> raise (Eval_error (cn ^ "-" ^ fname ^ ": expected 1 arg")))))
-      ) field_names
-    | _ -> ())
-  ) ctor_specs;
-  Nil
-
-(* Register define-type via custom_special_forms so the CEK dispatch finds it.
-   The top-level (register-special-form! ...) in spec/evaluator.sx is not a
-   define and therefore is not transpiled; we wire it up here instead. *)
-let () = ignore (register_special_form (String "define-type")
-  (NativeFn ("define-type", fun call_args ->
-    match call_args with
-    | [args; env] -> sf_define_type args env
-    | _ -> Nil)))


 """
@@ -257,10 +171,7 @@ def compile_spec_to_ml(spec_dir: str | None = None) -> str:
                "debug-log", "debug_log", "range", "chunk-every", "zip-pairs",
                "string-contains?", "starts-with?", "ends-with?",
                "string-replace", "trim", "split", "index-of",
-                "pad-left", "pad-right", "char-at", "substring",
-                # sf-define-type uses &rest + empty-dict literals that the transpiler
-                # can't emit as valid OCaml; hand-written implementation in FIXUPS.
-                "sf-define-type"}
+                "pad-left", "pad-right", "char-at", "substring"}
        defines = [(n, e) for n, e in defines if n not in skip]

        # Deduplicate — keep last definition for each name (CEK overrides tree-walk)
--- a/hosts/ocaml/lib/sx_parser.ml
+++ b/hosts/ocaml/lib/sx_parser.ml
@@ -89,38 +89,10 @@ let read_symbol s =
  while s.pos < s.len && is_symbol_char s.src.[s.pos] do advance s done;
  String.sub s.src start (s.pos - start)

-let gcd a b =
-  let rec g a b = if b = 0 then a else g b (a mod b) in g (abs a) (abs b)
-
-let make_rat n d =
-  if d = 0 then raise (Parse_error "rational: division by zero");
-  let sign = if d < 0 then -1 else 1 in
-  let g = gcd (abs n) (abs d) in
-  let rn = sign * n / g and rd = sign * d / g in
-  if rd = 1 then Integer rn else Rational (rn, rd)
-
 let try_number str =
-  (* Integers (no '.' or 'e'/'E') → exact Integer; rationals N/D; floats → inexact Number *)
-  let has_dec = String.contains str '.' in
-  let has_exp = String.contains str 'e' || String.contains str 'E' in
-  if has_dec || has_exp then
-    match float_of_string_opt str with
-    | Some n -> Some (Number n)
-    | None -> None
-  else
-    match String.split_on_char '/' str with
-    | [num_s; den_s] when num_s <> "" && den_s <> "" ->
-      (match int_of_string_opt num_s, int_of_string_opt den_s with
-       | Some n, Some d -> (try Some (make_rat n d) with _ -> None)
-       | _ -> None)
-    | _ ->
-      match int_of_string_opt str with
-      | Some n -> Some (Integer n)
-      | None ->
-        (* handles "nan", "inf", "-inf" *)
-        match float_of_string_opt str with
-        | Some n -> Some (Number n)
-        | None -> None
+  match float_of_string_opt str with
+  | Some n -> Some (Number n)
+  | None -> None

 let rec read_value s : value =
  skip_whitespace_and_comments s;
@@ -136,34 +108,6 @@ let rec read_value s : value =
  | '"' -> String (read_string s)
  | '\'' -> advance s; List [Symbol "quote"; read_value s]
  | '`' -> advance s; List [Symbol "quasiquote"; read_value s]
-  | '#' when s.pos + 1 < s.len && s.src.[s.pos + 1] = '\\' ->
-    (* Character literal: #\a, #\space, #\newline, etc. *)
-    advance s; advance s;
-    if at_end s then raise (Parse_error "Unexpected end of input after #\\");
-    let char_start = s.pos in
-    (* Read a name if starts with ident char, else single char *)
-    if is_ident_start s.src.[s.pos] then begin
-      while s.pos < s.len && is_ident_char s.src.[s.pos] do advance s done;
-      let name = String.sub s.src char_start (s.pos - char_start) in
-      let cp = match name with
-        | "space" -> 32 | "newline" -> 10 | "tab" -> 9
-        | "return" -> 13 | "nul" -> 0 | "null" -> 0
-        | "escape" -> 27 | "delete" -> 127 | "backspace" -> 8
-        | "altmode" -> 27 | "rubout" -> 127
-        | _ -> Char.code name.[0]  (* single letter like #\a *)
-      in Char cp
-    end else begin
-      let c = s.src.[s.pos] in
-      advance s;
-      Char (Char.code c)
-    end
-  | '#' when s.pos + 1 < s.len &&
-             (s.src.[s.pos + 1] = 't' || s.src.[s.pos + 1] = 'f') &&
-             (s.pos + 2 >= s.len || not (is_ident_char s.src.[s.pos + 2])) ->
-    (* #t / #f — boolean literals (R7RS shorthand) *)
-    let b = s.src.[s.pos + 1] = 't' in
-    advance s; advance s;
-    Bool b
  | '#' when s.pos + 1 < s.len && s.src.[s.pos + 1] = ';' ->
    (* Datum comment: #; discards next expression *)
    advance s; advance s;
--- a/hosts/ocaml/lib/sx_primitives.ml
+++ b/hosts/ocaml/lib/sx_primitives.ml
--- a/hosts/ocaml/lib/sx_ref.ml
+++ b/hosts/ocaml/lib/sx_ref.ml
--- a/hosts/ocaml/lib/sx_runtime.ml
+++ b/hosts/ocaml/lib/sx_runtime.ml
@@ -46,7 +46,7 @@ let sx_call f args =
    !Sx_types._cek_eval_lambda_ref f args
  | Continuation (k, _) ->
    k (match args with x :: _ -> x | [] -> Nil)
-  | CallccContinuation (_, _) ->
+  | CallccContinuation _ ->
    raise (Eval_error "callcc continuations must be invoked through the CEK machine")
  | _ ->
    let nargs = List.length args in
@@ -156,9 +156,6 @@ let get_val container key =
     | "extra" -> f.cf_extra | "extra2" -> f.cf_extra2
     | "subscribers" -> f.cf_results
     | "prev-tracking" -> f.cf_extra
-     | "after-thunk" -> f.cf_f        (* wind-after frame *)
-     | "winders-len" -> f.cf_extra    (* wind-after frame *)
-     | "body-result" -> f.cf_name     (* wind-return frame *)
     | _ -> Nil)
  | VmFrame f, String k ->
    (match k with
@@ -211,8 +208,6 @@ let get_val container key =
  | Dict d, Keyword k -> dict_get d k
  | (List l | ListRef { contents = l }), Number n ->
    (try List.nth l (int_of_float n) with _ -> Nil)
-  | (List l | ListRef { contents = l }), Integer n ->
-    (try List.nth l n with _ -> Nil)
  | Nil, _ -> Nil  (* nil.anything → nil *)
  | _, _ -> Nil    (* type mismatch → nil (matches JS/Python behavior) *)

@@ -386,20 +381,15 @@ let continuation_data v = match v with
  | _ -> raise (Eval_error "not a continuation")

 (* Callcc (undelimited) continuation support *)
-let callcc_continuation_p v = match v with CallccContinuation (_, _) -> Bool true | _ -> Bool false
+let callcc_continuation_p v = match v with CallccContinuation _ -> Bool true | _ -> Bool false

-let make_callcc_continuation captured winders_len =
-  let n = match winders_len with Number f -> int_of_float f | Integer n -> n | _ -> 0 in
-  CallccContinuation (sx_to_list captured, n)
+let make_callcc_continuation captured =
+  CallccContinuation (sx_to_list captured)

 let callcc_continuation_data v = match v with
-  | CallccContinuation (frames, _) -> List frames
+  | CallccContinuation frames -> List frames
  | _ -> raise (Eval_error "not a callcc continuation")

-let callcc_continuation_winders_len v = match v with
-  | CallccContinuation (_, n) -> Number (float_of_int n)
-  | _ -> Number 0.0
-
 (* Dynamic wind — simplified for OCaml (no async) *)
 let host_error msg =
  raise (Eval_error (value_to_str msg))
--- a/hosts/ocaml/lib/sx_types.ml
+++ b/hosts/ocaml/lib/sx_types.ml
@@ -43,10 +43,9 @@ type env = {

 and value =
  | Nil
-  | Bool    of bool
-  | Integer of int    (** Exact integer — distinct from inexact float. *)
-  | Number  of float  (** Inexact float. *)
-  | String  of string
+  | Bool   of bool
+  | Number of float
+  | String of string
  | Symbol of string
  | Keyword of string
  | List   of value list
@@ -57,7 +56,7 @@ and value =
  | Macro  of macro
  | Thunk  of value * env
  | Continuation of (value -> value) * dict option
-  | CallccContinuation of value list * int  (** Undelimited continuation — captured kont frames + winders depth at capture *)
+  | CallccContinuation of value list  (** Undelimited continuation — captured kont frames *)
  | NativeFn of string * (value list -> value)
  | Signal of signal
  | RawHTML of string
@@ -73,25 +72,6 @@ and value =
  | Record of record  (** R7RS record — opaque, generative, field-indexed. *)
  | Parameter of parameter  (** R7RS parameter — dynamic binding via kont-stack provide frames. *)
  | Vector of value array  (** R7RS vector — mutable fixed-size array. *)
-  | StringBuffer of Buffer.t  (** Mutable string buffer — O(1) amortized append. *)
-  | HashTable of (value, value) Hashtbl.t  (** Mutable hash table with arbitrary keys. *)
-  | Char of int  (** Unicode codepoint — R7RS char type. *)
-  | Eof            (** EOF sentinel — returned by read-char etc. at end of input. *)
-  | Port of sx_port  (** String port — input (string cursor) or output (buffer). *)
-  | Rational of int * int  (** Exact rational: numerator, denominator (reduced, denom>0). *)
-  | SxSet of (string, value) Hashtbl.t  (** Mutable set keyed by inspect(value). *)
-  | SxRegexp of string * string * Re.re  (** Regexp: source, flags, compiled. *)
-  | SxBytevector of bytes  (** Mutable bytevector — R7RS bytevector type. *)
-
-(** String input port: source string + mutable cursor position. *)
-and sx_port_kind =
-  | PortInput of string * int ref
-  | PortOutput of Buffer.t
-
-and sx_port = {
-  mutable sp_closed : bool;
-  sp_kind : sx_port_kind;
-}

 (** CEK machine state — record instead of Dict for performance.
    5 fields × 55K steps/sec = 275K Hashtbl allocations/sec eliminated. *)
@@ -412,7 +392,6 @@ let format_number n =

 let value_to_string = function
  | String s -> s | Symbol s -> s | Keyword k -> k
-  | Integer n -> string_of_int n
  | Number n -> format_number n
  | Bool true -> "true" | Bool false -> "false"
  | Nil -> "" | _ -> "<value>"
@@ -482,7 +461,6 @@ let make_keyword name = Keyword (value_to_string name)
 let type_of = function
  | Nil            -> "nil"
  | Bool _         -> "boolean"
-  | Integer _      -> "number"
  | Number _       -> "number"
  | String _       -> "string"
  | Symbol _       -> "symbol"
@@ -495,7 +473,7 @@ let type_of = function
  | Macro _        -> "macro"
  | Thunk _        -> "thunk"
  | Continuation (_, _) -> "continuation"
-  | CallccContinuation (_, _) -> "continuation"
+  | CallccContinuation _ -> "continuation"
  | NativeFn _     -> "function"
  | Signal _       -> "signal"
  | RawHTML _      -> "raw-html"
@@ -510,16 +488,6 @@ let type_of = function
  | Record r       -> r.r_type.rt_name
  | Parameter _    -> "parameter"
  | Vector _       -> "vector"
-  | StringBuffer _ -> "string-buffer"
-  | HashTable _    -> "hash-table"
-  | Char _         -> "char"
-  | Eof            -> "eof-object"
-  | Port { sp_kind = PortInput _; _ }  -> "input-port"
-  | Port { sp_kind = PortOutput _; _ } -> "output-port"
-  | Rational _  -> "rational"
-  | SxSet _          -> "set"
-  | SxRegexp _       -> "regexp"
-  | SxBytevector _   -> "bytevector"

 let is_nil = function Nil -> true | _ -> false
 let is_lambda = function Lambda _ -> true | _ -> false
@@ -535,7 +503,7 @@ let is_signal = function
 let is_record = function Record _ -> true | _ -> false

 let is_callable = function
-  | Lambda _ | NativeFn _ | Continuation (_, _) | CallccContinuation (_, _) | VmClosure _ -> true
+  | Lambda _ | NativeFn _ | Continuation (_, _) | CallccContinuation _ | VmClosure _ -> true
  | _ -> false


@@ -648,7 +616,6 @@ let thunk_env = function
 (** {1 Record operations} *)

 let val_to_int = function
-  | Integer n -> n
  | Number n -> int_of_float n
  | v -> raise (Eval_error ("Expected number, got " ^ type_of v))

@@ -810,7 +777,6 @@ let rec inspect = function
  | Nil -> "nil"
  | Bool true -> "true"
  | Bool false -> "false"
-  | Integer n -> string_of_int n
  | Number n -> format_number n
  | String s ->
    let buf = Buffer.create (String.length s + 2) in
@@ -844,7 +810,7 @@ let rec inspect = function
    Printf.sprintf "<%s(%s)>" tag (String.concat ", " m.m_params)
  | Thunk _ -> "<thunk>"
  | Continuation (_, _) -> "<continuation>"
-  | CallccContinuation (_, _) -> "<callcc-continuation>"
+  | CallccContinuation _ -> "<callcc-continuation>"
  | NativeFn (name, _) -> Printf.sprintf "<native:%s>" name
  | Signal _ -> "<signal>"
  | RawHTML s -> Printf.sprintf "\"<raw-html:%d>\"" (String.length s)
@@ -865,23 +831,3 @@ let rec inspect = function
    Printf.sprintf "#(%s)" (String.concat " " elts)
  | VmFrame f -> Printf.sprintf "<vm-frame:ip=%d base=%d>" f.vf_ip f.vf_base
  | VmMachine m -> Printf.sprintf "<vm-machine:sp=%d frames=%d>" m.vm_sp (List.length m.vm_frames)
-  | StringBuffer buf -> Printf.sprintf "<string-buffer:%d>" (Buffer.length buf)
-  | HashTable ht -> Printf.sprintf "<hash-table:%d>" (Hashtbl.length ht)
-  | Char n ->
-    let name = match n with
-      | 32 -> "space" | 10 -> "newline" | 9 -> "tab"
-      | 13 -> "return" | 0 -> "nul" | 27 -> "escape"
-      | 127 -> "delete" | 8 -> "backspace"
-      | _ -> let buf = Buffer.create 1 in
-             Buffer.add_utf_8_uchar buf (Uchar.of_int n);
-             Buffer.contents buf
-    in "#\\" ^ name
-  | Eof -> "#!eof"
-  | Port { sp_kind = PortInput (_, pos); sp_closed } ->
-    Printf.sprintf "<input-port:pos=%d%s>" !pos (if sp_closed then ":closed" else "")
-  | Port { sp_kind = PortOutput buf; sp_closed } ->
-    Printf.sprintf "<output-port:len=%d%s>" (Buffer.length buf) (if sp_closed then ":closed" else "")
-  | Rational (n, d) -> Printf.sprintf "%d/%d" n d
-  | SxSet ht -> Printf.sprintf "<set:%d>" (Hashtbl.length ht)
-  | SxRegexp (src, flags, _) -> Printf.sprintf "#/%s/%s" src flags
-  | SxBytevector b -> Printf.sprintf "#u8(%s)" (String.concat " " (List.init (Bytes.length b) (fun i -> string_of_int (Char.code (Bytes.get b i)))))
--- a/hosts/ocaml/lib/sx_vm.ml
+++ b/hosts/ocaml/lib/sx_vm.ml
@@ -185,8 +185,7 @@ let code_from_value v =
      | Some _ as r -> r | None -> Hashtbl.find_opt d k2 in
    let bc_list = match find2 "bytecode" "vc-bytecode" with
      | Some (List l | ListRef { contents = l }) ->
-        Array.of_list (List.map (fun x -> match x with
-          | Integer n -> n | Number n -> int_of_float n | _ -> 0) l)
+        Array.of_list (List.map (fun x -> match x with Number n -> int_of_float n | _ -> 0) l)
      | _ -> [||]
    in
    let entries = match find2 "constants" "vc-constants" with
@@ -199,10 +198,10 @@ let code_from_value v =
      | _ -> entry
    ) entries in
    let arity = match find2 "arity" "vc-arity" with
-      | Some (Integer n) -> n | Some (Number n) -> int_of_float n | _ -> 0
+      | Some (Number n) -> int_of_float n | _ -> 0
    in
    let rest_arity = match find2 "rest-arity" "vc-rest-arity" with
-      | Some (Integer n) -> n | Some (Number n) -> int_of_float n | _ -> -1
+      | Some (Number n) -> int_of_float n | _ -> -1
    in
    (* Compute locals from bytecode: scan for highest LOCAL_GET/LOCAL_SET slot.
       The compiler's arity may undercount when nested lets add many locals. *)
@@ -750,7 +749,10 @@ and run vm =
            | _ -> (Hashtbl.find Sx_primitives.primitives "/") [a; b])
        | 164 (* OP_EQ *) ->
          let b = pop vm and a = pop vm in
-          push vm ((Hashtbl.find Sx_primitives.primitives "=") [a; b])
+          let rec norm = function
+            | ListRef { contents = l } -> List (List.map norm l)
+            | List l -> List (List.map norm l) | v -> v in
+          push vm (Bool (norm a = norm b))
        | 165 (* OP_LT *) ->
          let b = pop vm and a = pop vm in
          push vm (match a, b with
@@ -769,10 +771,10 @@ and run vm =
        | 168 (* OP_LEN *) ->
          let v = pop vm in
          push vm (match v with
-            | List l | ListRef { contents = l } -> Integer (List.length l)
-            | String s -> Integer (String.length s)
-            | Dict d -> Integer (Hashtbl.length d)
-            | Nil -> Integer 0
+            | List l | ListRef { contents = l } -> Number (float_of_int (List.length l))
+            | String s -> Number (float_of_int (String.length s))
+            | Dict d -> Number (float_of_int (Hashtbl.length d))
+            | Nil -> Number 0.0
            | _ -> (Hashtbl.find Sx_primitives.primitives "len") [v])
        | 169 (* OP_FIRST *) ->
          let v = pop vm in
--- a/hosts/ocaml/transpiler.sx
+++ b/hosts/ocaml/transpiler.sx
@@ -256,7 +256,6 @@
    "callcc-continuation?"
    "callcc-continuation-data"
    "make-callcc-continuation"
-    "callcc-continuation-winders-len"
    "dynamic-wind-call"
    "strip-prefix"
    "component-set-param-types!"
@@ -296,8 +295,7 @@
    "*bind-tracking*"
    "*provide-batch-depth*"
    "*provide-batch-queue*"
-    "*provide-subscribers*"
-    "*winders*"))
+    "*provide-subscribers*"))

 (define
  ml-is-mutable-global?
@@ -535,13 +533,13 @@
              "; cf_env = "
              (ef "env")
              "; cf_name = "
-              (if (= frame-type "if") (ef "else") (cond (some (fn (k) (= k "body-result")) items) (ef "body-result") :else (ef "name")))
+              (if (= frame-type "if") (ef "else") (ef "name"))
              "; cf_body = "
              (if (= frame-type "if") (ef "then") (ef "body"))
              "; cf_remaining = "
              (ef "remaining")
              "; cf_f = "
-              (cond (some (fn (k) (= k "after-thunk")) items) (ef "after-thunk") (some (fn (k) (= k "f")) items) (ef "f") :else "Nil")
+              (ef "f")
              "; cf_args = "
              (cond
                (some (fn (k) (= k "evaled")) items)
@@ -584,8 +582,6 @@
                (ef "prev-tracking")
                (some (fn (k) (= k "extra")) items)
                (ef "extra")
-                (some (fn (k) (= k "winders-len")) items)
-                (ef "winders-len")
                :else "Nil")
              "; cf_extra2 = "
              (cond
--- a/lib/apl/runtime.sx
+++ b/lib/apl/runtime.sx
@@ -1,289 +0,0 @@
-;; lib/apl/runtime.sx — APL primitives on SX
-;;
-;; APL vectors are represented as SX lists (functional, immutable results).
-;; Operations are rank-polymorphic: scalar/vector arguments both accepted.
-;; Index origin: 1 (traditional APL).
-;;
-;; Primitives used:
-;;   map (multi-arg, Phase 1)
-;;   bitwise-and/or/xor/not/arithmetic-shift (Phase 7)
-;;   make-set/set-member?/set-add!/set->list (Phase 18)
-
-;; ---------------------------------------------------------------------------
-;; 1. Core vector constructors
-;; ---------------------------------------------------------------------------
-
-;; ⍳N — iota: generate integer vector 1, 2, ..., N
-(define
-  (apl-iota n)
-  (letrec
-    ((go (fn (i acc) (if (< i 1) acc (go (- i 1) (cons i acc))))))
-    (go n (list))))
-
-;; ⍴A — shape (length of a vector)
-(define (apl-rho v) (if (list? v) (len v) 1))
-
-;; A[I] — 1-indexed access
-(define (apl-at v i) (nth v (- i 1)))
-
-;; Scalar predicate
-(define (apl-scalar? v) (not (list? v)))
-
-;; ---------------------------------------------------------------------------
-;; 2. Rank-polymorphic helpers
-;;    dyadic: scalar/vector × scalar/vector → scalar/vector
-;;    monadic: scalar/vector → scalar/vector
-;; ---------------------------------------------------------------------------
-
-(define
-  (apl-dyadic op a b)
-  (cond
-    ((and (list? a) (list? b)) (map op a b))
-    ((list? a) (map (fn (x) (op x b)) a))
-    ((list? b) (map (fn (y) (op a y)) b))
-    (else (op a b))))
-
-(define (apl-monadic op a) (if (list? a) (map op a) (op a)))
-
-;; ---------------------------------------------------------------------------
-;; 3. Arithmetic (element-wise, rank-polymorphic)
-;; ---------------------------------------------------------------------------
-
-(define (apl-add a b) (apl-dyadic + a b))
-(define (apl-sub a b) (apl-dyadic - a b))
-(define (apl-mul a b) (apl-dyadic * a b))
-(define (apl-div a b) (apl-dyadic / a b))
-(define (apl-mod a b) (apl-dyadic modulo a b))
-(define (apl-pow a b) (apl-dyadic pow a b))
-(define (apl-max a b) (apl-dyadic (fn (x y) (if (> x y) x y)) a b))
-(define (apl-min a b) (apl-dyadic (fn (x y) (if (< x y) x y)) a b))
-
-(define (apl-neg a) (apl-monadic (fn (x) (- 0 x)) a))
-(define (apl-abs a) (apl-monadic abs a))
-(define (apl-floor a) (apl-monadic floor a))
-(define (apl-ceil a) (apl-monadic ceil a))
-(define (apl-sqrt a) (apl-monadic sqrt a))
-(define (apl-exp a) (apl-monadic exp a))
-(define (apl-log a) (apl-monadic log a))
-
-;; ---------------------------------------------------------------------------
-;; 4. Comparison (element-wise, returns 0/1 booleans)
-;; ---------------------------------------------------------------------------
-
-(define (apl-bool v) (if v 1 0))
-
-(define (apl-eq a b) (apl-dyadic (fn (x y) (apl-bool (= x y))) a b))
-(define
-  (apl-neq a b)
-  (apl-dyadic (fn (x y) (apl-bool (not (= x y)))) a b))
-(define (apl-lt a b) (apl-dyadic (fn (x y) (apl-bool (< x y))) a b))
-(define (apl-le a b) (apl-dyadic (fn (x y) (apl-bool (<= x y))) a b))
-(define (apl-gt a b) (apl-dyadic (fn (x y) (apl-bool (> x y))) a b))
-(define (apl-ge a b) (apl-dyadic (fn (x y) (apl-bool (>= x y))) a b))
-
-;; Boolean logic (0/1 vectors)
-(define
-  (apl-and a b)
-  (apl-dyadic
-    (fn
-      (x y)
-      (if
-        (and (not (= x 0)) (not (= y 0)))
-        1
-        0))
-    a
-    b))
-(define
-  (apl-or a b)
-  (apl-dyadic
-    (fn
-      (x y)
-      (if
-        (or (not (= x 0)) (not (= y 0)))
-        1
-        0))
-    a
-    b))
-(define
-  (apl-not a)
-  (apl-monadic (fn (x) (if (= x 0) 1 0)) a))
-
-;; ---------------------------------------------------------------------------
-;; 5. Bitwise operations (element-wise)
-;; ---------------------------------------------------------------------------
-
-(define (apl-bitand a b) (apl-dyadic bitwise-and a b))
-(define (apl-bitor a b) (apl-dyadic bitwise-or a b))
-(define (apl-bitxor a b) (apl-dyadic bitwise-xor a b))
-(define (apl-bitnot a) (apl-monadic bitwise-not a))
-(define
-  (apl-lshift a b)
-  (apl-dyadic (fn (x n) (arithmetic-shift x n)) a b))
-(define
-  (apl-rshift a b)
-  (apl-dyadic (fn (x n) (arithmetic-shift x (- 0 n))) a b))
-
-;; ---------------------------------------------------------------------------
-;; 6. Reduction (fold) and scan
-;; ---------------------------------------------------------------------------
-
-(define (apl-reduce-add v) (reduce + 0 v))
-(define (apl-reduce-mul v) (reduce * 1 v))
-(define
-  (apl-reduce-max v)
-  (reduce (fn (acc x) (if (> acc x) acc x)) (first v) (rest v)))
-(define
-  (apl-reduce-min v)
-  (reduce (fn (acc x) (if (< acc x) acc x)) (first v) (rest v)))
-(define
-  (apl-reduce-and v)
-  (reduce
-    (fn
-      (acc x)
-      (if
-        (and (not (= acc 0)) (not (= x 0)))
-        1
-        0))
-    1
-    v))
-(define
-  (apl-reduce-or v)
-  (reduce
-    (fn
-      (acc x)
-      (if
-        (or (not (= acc 0)) (not (= x 0)))
-        1
-        0))
-    0
-    v))
-
-;; Scan: prefix reduction (yields a vector of running totals)
-(define
-  (apl-scan op v)
-  (if
-    (= (len v) 0)
-    (list)
-    (letrec
-      ((go (fn (xs acc result) (if (= (len xs) 0) (reverse result) (let ((next (op acc (first xs)))) (go (rest xs) next (cons next result)))))))
-      (go (rest v) (first v) (list (first v))))))
-
-(define (apl-scan-add v) (apl-scan + v))
-(define (apl-scan-mul v) (apl-scan * v))
-
-;; ---------------------------------------------------------------------------
-;; 7. Vector manipulation
-;; ---------------------------------------------------------------------------
-
-;; ⌽A — reverse
-(define (apl-reverse v) (reverse v))
-
-;; A,B — catenate
-(define
-  (apl-cat a b)
-  (cond
-    ((and (list? a) (list? b)) (append a b))
-    ((list? a) (append a (list b)))
-    ((list? b) (cons a b))
-    (else (list a b))))
-
-;; ↑N A — take first N elements (negative: take last N)
-(define
-  (apl-take n v)
-  (if
-    (>= n 0)
-    (letrec
-      ((go (fn (xs i) (if (or (= i 0) (= (len xs) 0)) (list) (cons (first xs) (go (rest xs) (- i 1)))))))
-      (go v n))
-    (apl-reverse (apl-take (- 0 n) (apl-reverse v)))))
-
-;; ↓N A — drop first N elements
-(define
-  (apl-drop n v)
-  (if
-    (>= n 0)
-    (letrec
-      ((go (fn (xs i) (if (or (= i 0) (= (len xs) 0)) xs (go (rest xs) (- i 1))))))
-      (go v n))
-    (apl-reverse (apl-drop (- 0 n) (apl-reverse v)))))
-
-;; Rotate left by n positions
-(define
-  (apl-rotate n v)
-  (let ((m (modulo n (len v)))) (append (apl-drop m v) (apl-take m v))))
-
-;; Compression: A/B — select elements of B where A is 1
-(define
-  (apl-compress mask v)
-  (if
-    (= (len mask) 0)
-    (list)
-    (let
-      ((rest-result (apl-compress (rest mask) (rest v))))
-      (if
-        (not (= (first mask) 0))
-        (cons (first v) rest-result)
-        rest-result))))
-
-;; Indexing: A[B] — select elements at indices B (1-indexed)
-(define (apl-index v indices) (map (fn (i) (apl-at v i)) indices))
-
-;; Grade up: indices that would sort the vector ascending
-(define
-  (apl-grade-up v)
-  (let
-    ((indexed (map (fn (x i) (list x i)) v (apl-iota (len v)))))
-    (map (fn (p) (nth p 1)) (sort indexed))))
-
-;; ---------------------------------------------------------------------------
-;; 8. Set operations (∊ ∪ ∩ ~)
-;; ---------------------------------------------------------------------------
-
-;; Membership ∊: for each element in A, is it in B? → 0/1 vector
-(define
-  (apl-member a b)
-  (let
-    ((bset (let ((s (make-set))) (for-each (fn (x) (set-add! s x)) b) s)))
-    (if
-      (list? a)
-      (map (fn (x) (apl-bool (set-member? bset x))) a)
-      (apl-bool (set-member? bset a)))))
-
-;; Nub ∪A — unique elements, preserving order
-(define
-  (apl-nub v)
-  (let
-    ((seen (make-set)))
-    (letrec
-      ((go (fn (xs acc) (if (= (len xs) 0) (reverse acc) (if (set-member? seen (first xs)) (go (rest xs) acc) (begin (set-add! seen (first xs)) (go (rest xs) (cons (first xs) acc))))))))
-      (go v (list)))))
-
-;; Union A∪B — nub of concatenation
-(define (apl-union a b) (apl-nub (apl-cat a b)))
-
-;; Intersection A∩B
-(define
-  (apl-intersect a b)
-  (let
-    ((bset (let ((s (make-set))) (for-each (fn (x) (set-add! s x)) b) s)))
-    (filter (fn (x) (set-member? bset x)) a)))
-
-;; Without A~B
-(define
-  (apl-without a b)
-  (let
-    ((bset (let ((s (make-set))) (for-each (fn (x) (set-add! s x)) b) s)))
-    (filter (fn (x) (not (set-member? bset x))) a)))
-
-;; ---------------------------------------------------------------------------
-;; 9. Format (⍕) — APL-style display
-;; ---------------------------------------------------------------------------
-
-(define
-  (apl-format v)
-  (if
-    (list? v)
-    (letrec
-      ((go (fn (xs acc) (if (= (len xs) 0) acc (go (rest xs) (str acc (if (= acc "") "" " ") (str (first xs))))))))
-      (go v ""))
-    (str v)))
--- a/lib/apl/test.sh
+++ b/lib/apl/test.sh
@@ -1,51 +0,0 @@
-#!/usr/bin/env bash
-# lib/apl/test.sh — smoke-test the APL runtime layer.
-
-set -uo pipefail
-cd "$(git rev-parse --show-toplevel)"
-
-SX_SERVER="${SX_SERVER:-hosts/ocaml/_build/default/bin/sx_server.exe}"
-if [ ! -x "$SX_SERVER" ]; then
-  SX_SERVER="/root/rose-ash/hosts/ocaml/_build/default/bin/sx_server.exe"
-fi
-if [ ! -x "$SX_SERVER" ]; then
-  echo "ERROR: sx_server.exe not found."
-  exit 1
-fi
-
-TMPFILE=$(mktemp); trap "rm -f $TMPFILE" EXIT
-
-cat > "$TMPFILE" << 'EPOCHS'
-(epoch 1)
-(load "spec/stdlib.sx")
-(load "lib/apl/runtime.sx")
-(epoch 2)
-(load "lib/apl/tests/runtime.sx")
-(epoch 3)
-(eval "(list apl-test-pass apl-test-fail)")
-EPOCHS
-
-OUTPUT=$(timeout 60 "$SX_SERVER" < "$TMPFILE" 2>/dev/null)
-
-LINE=$(echo "$OUTPUT" | awk '/^\(ok-len 3 / {getline; print; exit}')
-if [ -z "$LINE" ]; then
-  LINE=$(echo "$OUTPUT" | grep -E '^\(ok 3 \([0-9]+ [0-9]+\)\)' | tail -1 \
-          | sed -E 's/^\(ok 3 //; s/\)$//')
-fi
-if [ -z "$LINE" ]; then
-  echo "ERROR: could not extract summary"
-  echo "$OUTPUT" | tail -10
-  exit 1
-fi
-
-P=$(echo "$LINE" | sed -E 's/^\(([0-9]+) ([0-9]+)\).*/\1/')
-F=$(echo "$LINE" | sed -E 's/^\(([0-9]+) ([0-9]+)\).*/\2/')
-TOTAL=$((P + F))
-
-if [ "$F" -eq 0 ]; then
-  echo "ok $P/$TOTAL lib/apl tests passed"
-else
-  echo "FAIL $P/$TOTAL passed, $F failed"
-fi
-
-[ "$F" -eq 0 ]
--- a/lib/apl/tests/runtime.sx
+++ b/lib/apl/tests/runtime.sx
@@ -1,327 +0,0 @@
-;; lib/apl/tests/runtime.sx — Tests for lib/apl/runtime.sx
-
-;; --- Test framework ---
-(define apl-test-pass 0)
-(define apl-test-fail 0)
-(define apl-test-fails (list))
-
-(define
-  (apl-test name got expected)
-  (if
-    (= got expected)
-    (set! apl-test-pass (+ apl-test-pass 1))
-    (begin
-      (set! apl-test-fail (+ apl-test-fail 1))
-      (set! apl-test-fails (append apl-test-fails (list {:got got :expected expected :name name}))))))
-
-;; ---------------------------------------------------------------------------
-;; 1. Core vector constructors
-;; ---------------------------------------------------------------------------
-
-(apl-test
-  "iota 5"
-  (apl-iota 5)
-  (list 1 2 3 4 5))
-(apl-test "iota 1" (apl-iota 1) (list 1))
-(apl-test "iota 0" (apl-iota 0) (list))
-(apl-test
-  "rho list"
-  (apl-rho (list 1 2 3))
-  3)
-(apl-test "rho scalar" (apl-rho 42) 1)
-(apl-test
-  "at 1"
-  (apl-at (list 10 20 30) 1)
-  10)
-(apl-test
-  "at 3"
-  (apl-at (list 10 20 30) 3)
-  30)
-
-;; ---------------------------------------------------------------------------
-;; 2. Arithmetic — element-wise and rank-polymorphic
-;; ---------------------------------------------------------------------------
-
-(apl-test
-  "add v+v"
-  (apl-add
-    (list 1 2 3)
-    (list 10 20 30))
-  (list 11 22 33))
-(apl-test
-  "add s+v"
-  (apl-add 10 (list 1 2 3))
-  (list 11 12 13))
-(apl-test
-  "add v+s"
-  (apl-add (list 1 2 3) 100)
-  (list 101 102 103))
-(apl-test "add s+s" (apl-add 3 4) 7)
-(apl-test
-  "sub v-v"
-  (apl-sub
-    (list 5 4 3)
-    (list 1 2 3))
-  (list 4 2 0))
-(apl-test
-  "mul v*s"
-  (apl-mul (list 1 2 3) 3)
-  (list 3 6 9))
-(apl-test
-  "neg -v"
-  (apl-neg (list 1 -2 3))
-  (list -1 2 -3))
-(apl-test
-  "abs v"
-  (apl-abs (list -1 2 -3))
-  (list 1 2 3))
-(apl-test
-  "floor v"
-  (apl-floor (list 1.7 2.2 3.9))
-  (list 1 2 3))
-(apl-test
-  "ceil v"
-  (apl-ceil (list 1.1 2.5 3))
-  (list 2 3 3))
-(apl-test
-  "max v v"
-  (apl-max
-    (list 1 5 3)
-    (list 4 2 6))
-  (list 4 5 6))
-(apl-test
-  "min v v"
-  (apl-min
-    (list 1 5 3)
-    (list 4 2 6))
-  (list 1 2 3))
-
-;; ---------------------------------------------------------------------------
-;; 3. Comparison (returns 0/1)
-;; ---------------------------------------------------------------------------
-
-(apl-test "eq 3 3" (apl-eq 3 3) 1)
-(apl-test "eq 3 4" (apl-eq 3 4) 0)
-(apl-test
-  "gt v>s"
-  (apl-gt (list 1 5 3 7) 4)
-  (list 0 1 0 1))
-(apl-test
-  "lt v<v"
-  (apl-lt
-    (list 1 2 3)
-    (list 3 2 1))
-  (list 1 0 0))
-(apl-test
-  "le v<=s"
-  (apl-le (list 3 4 5) 4)
-  (list 1 1 0))
-(apl-test
-  "ge v>=s"
-  (apl-ge (list 3 4 5) 4)
-  (list 0 1 1))
-(apl-test
-  "neq v!=s"
-  (apl-neq (list 1 2 3) 2)
-  (list 1 0 1))
-
-;; ---------------------------------------------------------------------------
-;; 4. Boolean logic (0/1 values)
-;; ---------------------------------------------------------------------------
-
-(apl-test "and 1 1" (apl-and 1 1) 1)
-(apl-test "and 1 0" (apl-and 1 0) 0)
-(apl-test "or 0 1" (apl-or 0 1) 1)
-(apl-test "or 0 0" (apl-or 0 0) 0)
-(apl-test "not 0" (apl-not 0) 1)
-(apl-test "not 1" (apl-not 1) 0)
-(apl-test
-  "not vec"
-  (apl-not (list 1 0 1 0))
-  (list 0 1 0 1))
-
-;; ---------------------------------------------------------------------------
-;; 5. Bitwise operations
-;; ---------------------------------------------------------------------------
-
-(apl-test "bitand s" (apl-bitand 5 3) 1)
-(apl-test "bitor s" (apl-bitor 5 3) 7)
-(apl-test "bitxor s" (apl-bitxor 5 3) 6)
-(apl-test "bitnot 0" (apl-bitnot 0) -1)
-(apl-test "lshift 1 4" (apl-lshift 1 4) 16)
-(apl-test "rshift 16 2" (apl-rshift 16 2) 4)
-(apl-test
-  "bitand vec"
-  (apl-bitand (list 5 6) (list 3 7))
-  (list 1 6))
-(apl-test
-  "bitor vec"
-  (apl-bitor (list 5 6) (list 3 7))
-  (list 7 7))
-
-;; ---------------------------------------------------------------------------
-;; 6. Reduction and scan
-;; ---------------------------------------------------------------------------
-
-(apl-test
-  "reduce-add"
-  (apl-reduce-add
-    (list 1 2 3 4 5))
-  15)
-(apl-test
-  "reduce-mul"
-  (apl-reduce-mul (list 1 2 3 4))
-  24)
-(apl-test
-  "reduce-max"
-  (apl-reduce-max
-    (list 3 1 4 1 5))
-  5)
-(apl-test
-  "reduce-min"
-  (apl-reduce-min
-    (list 3 1 4 1 5))
-  1)
-(apl-test
-  "reduce-and"
-  (apl-reduce-and (list 1 1 1))
-  1)
-(apl-test
-  "reduce-and0"
-  (apl-reduce-and (list 1 0 1))
-  0)
-(apl-test
-  "reduce-or"
-  (apl-reduce-or (list 0 1 0))
-  1)
-(apl-test
-  "scan-add"
-  (apl-scan-add (list 1 2 3 4))
-  (list 1 3 6 10))
-(apl-test
-  "scan-mul"
-  (apl-scan-mul (list 1 2 3 4))
-  (list 1 2 6 24))
-
-;; ---------------------------------------------------------------------------
-;; 7. Vector manipulation
-;; ---------------------------------------------------------------------------
-
-(apl-test
-  "reverse"
-  (apl-reverse (list 1 2 3 4))
-  (list 4 3 2 1))
-(apl-test
-  "cat v v"
-  (apl-cat (list 1 2) (list 3 4))
-  (list 1 2 3 4))
-(apl-test
-  "cat v s"
-  (apl-cat (list 1 2) 3)
-  (list 1 2 3))
-(apl-test
-  "cat s v"
-  (apl-cat 1 (list 2 3))
-  (list 1 2 3))
-(apl-test
-  "cat s s"
-  (apl-cat 1 2)
-  (list 1 2))
-(apl-test
-  "take 3"
-  (apl-take
-    3
-    (list 10 20 30 40 50))
-  (list 10 20 30))
-(apl-test
-  "take 0"
-  (apl-take 0 (list 1 2 3))
-  (list))
-(apl-test
-  "take neg"
-  (apl-take -2 (list 10 20 30))
-  (list 20 30))
-(apl-test
-  "drop 2"
-  (apl-drop 2 (list 10 20 30 40))
-  (list 30 40))
-(apl-test
-  "drop neg"
-  (apl-drop -1 (list 10 20 30))
-  (list 10 20))
-(apl-test
-  "rotate 2"
-  (apl-rotate
-    2
-    (list 1 2 3 4 5))
-  (list 3 4 5 1 2))
-(apl-test
-  "compress"
-  (apl-compress
-    (list 1 0 1 0)
-    (list 10 20 30 40))
-  (list 10 30))
-(apl-test
-  "index"
-  (apl-index
-    (list 10 20 30 40)
-    (list 2 4))
-  (list 20 40))
-
-;; ---------------------------------------------------------------------------
-;; 8. Set operations
-;; ---------------------------------------------------------------------------
-
-(apl-test
-  "member yes"
-  (apl-member
-    (list 1 2 5)
-    (list 2 4 6))
-  (list 0 1 0))
-(apl-test
-  "member s"
-  (apl-member 2 (list 1 2 3))
-  1)
-(apl-test
-  "member no"
-  (apl-member 9 (list 1 2 3))
-  0)
-(apl-test
-  "nub"
-  (apl-nub (list 1 2 1 3 2))
-  (list 1 2 3))
-(apl-test
-  "union"
-  (apl-union
-    (list 1 2 3)
-    (list 2 3 4))
-  (list 1 2 3 4))
-(apl-test
-  "intersect"
-  (apl-intersect
-    (list 1 2 3 4)
-    (list 2 4 6))
-  (list 2 4))
-(apl-test
-  "without"
-  (apl-without
-    (list 1 2 3 4)
-    (list 2 4))
-  (list 1 3))
-
-;; ---------------------------------------------------------------------------
-;; 9. Format
-;; ---------------------------------------------------------------------------
-
-(apl-test
-  "format vec"
-  (apl-format (list 1 2 3))
-  "1 2 3")
-(apl-test "format scalar" (apl-format 42) "42")
-(apl-test "format empty" (apl-format (list)) "")
-
-;; ---------------------------------------------------------------------------
-;; Summary
-;; ---------------------------------------------------------------------------
-
-(list apl-test-pass apl-test-fail)
--- a/lib/common-lisp/clos.sx
+++ b/lib/common-lisp/clos.sx
@@ -1,500 +0,0 @@
-;; lib/common-lisp/clos.sx — CLOS: classes, instances, generic functions
-;;
-;; Class records: {:clos-type "class" :name "NAME" :slots {...} :parents [...] :methods [...]}
-;; Instance:      {:clos-type "instance" :class "NAME" :slots {slot: val ...}}
-;; Method:        {:qualifiers [...] :specializers [...] :fn (fn (args next-fn) ...)}
-;;
-;; SX primitive notes:
-;;   dict->list: use (map (fn (k) (list k (get d k))) (keys d))
-;;   dict-set (pure): use assoc
-;;   fn?/callable?: use callable?
-
-;; ── dict helpers ───────────────────────────────────────────────────────────
-
-(define
-  clos-dict->list
-  (fn (d) (map (fn (k) (list k (get d k))) (keys d))))
-
-;; ── class registry ─────────────────────────────────────────────────────────
-
-(define
-  clos-class-registry
-  (dict
-    "t"
-    {:parents (list) :clos-type "class" :slots (dict) :methods (list) :name "t"}
-    "null"
-    {:parents (list "t") :clos-type "class" :slots (dict) :methods (list) :name "null"}
-    "integer"
-    {:parents (list "t") :clos-type "class" :slots (dict) :methods (list) :name "integer"}
-    "float"
-    {:parents (list "t") :clos-type "class" :slots (dict) :methods (list) :name "float"}
-    "string"
-    {:parents (list "t") :clos-type "class" :slots (dict) :methods (list) :name "string"}
-    "symbol"
-    {:parents (list "t") :clos-type "class" :slots (dict) :methods (list) :name "symbol"}
-    "cons"
-    {:parents (list "t") :clos-type "class" :slots (dict) :methods (list) :name "cons"}
-    "list"
-    {:parents (list "t") :clos-type "class" :slots (dict) :methods (list) :name "list"}))
-
-;; ── clos-generic-registry ─────────────────────────────────────────────────
-
-(define clos-generic-registry (dict))
-
-;; ── class-of ──────────────────────────────────────────────────────────────
-
-(define
-  clos-class-of
-  (fn
-    (x)
-    (cond
-      ((nil? x) "null")
-      ((integer? x) "integer")
-      ((float? x) "float")
-      ((string? x) "string")
-      ((symbol? x) "symbol")
-      ((and (list? x) (> (len x) 0)) "cons")
-      ((and (list? x) (= (len x) 0)) "null")
-      ((and (dict? x) (= (get x "clos-type") "instance")) (get x "class"))
-      (:else "t"))))
-
-;; ── subclass-of? ──────────────────────────────────────────────────────────
-;;
-;; Captures clos-class-registry at define time to avoid free-variable issues.
-
-(define
-  clos-subclass-of?
-  (let
-    ((registry clos-class-registry))
-    (fn
-      (class-name super-name)
-      (if
-        (= class-name super-name)
-        true
-        (let
-          ((rec (get registry class-name)))
-          (if
-            (nil? rec)
-            false
-            (some
-              (fn (p) (clos-subclass-of? p super-name))
-              (get rec "parents"))))))))
-
-;; ── instance-of? ──────────────────────────────────────────────────────────
-
-(define
-  clos-instance-of?
-  (fn (obj class-name) (clos-subclass-of? (clos-class-of obj) class-name)))
-
-;; ── defclass ──────────────────────────────────────────────────────────────
-;;
-;; slot-specs: list of dicts with keys: name initarg initform accessor reader writer
-;; Each missing key defaults to nil.
-
-(define clos-slot-spec (fn (spec) (if (string? spec) {:initform nil :initarg nil :reader nil :writer nil :accessor nil :name spec} spec)))
-
-(define
-  clos-defclass
-  (fn
-    (name parents slot-specs)
-    (let
-      ((slots (dict)))
-      (for-each
-        (fn
-          (pname)
-          (let
-            ((prec (get clos-class-registry pname)))
-            (when
-              (not (nil? prec))
-              (for-each
-                (fn
-                  (k)
-                  (when
-                    (nil? (get slots k))
-                    (dict-set! slots k (get (get prec "slots") k))))
-                (keys (get prec "slots"))))))
-        parents)
-      (for-each
-        (fn
-          (s)
-          (let
-            ((spec (clos-slot-spec s)))
-            (dict-set! slots (get spec "name") spec)))
-        slot-specs)
-      (let
-        ((class-rec {:parents parents :clos-type "class" :slots slots :methods (list) :name name}))
-        (dict-set! clos-class-registry name class-rec)
-        (clos-install-accessors-for name slots)
-        name))))
-
-;; ── accessor installation (forward-declared, defined after defmethod) ──────
-
-(define
-  clos-install-accessors-for
-  (fn
-    (class-name slots)
-    (for-each
-      (fn
-        (k)
-        (let
-          ((spec (get slots k)))
-          (let
-            ((reader (get spec "reader")))
-            (when
-              (not (nil? reader))
-              (clos-add-reader-method reader class-name k)))
-          (let
-            ((accessor (get spec "accessor")))
-            (when
-              (not (nil? accessor))
-              (clos-add-reader-method accessor class-name k)))))
-      (keys slots))))
-
-;; placeholder — real impl filled in after defmethod is defined
-(define clos-add-reader-method (fn (method-name class-name slot-name) nil))
-
-;; ── make-instance ─────────────────────────────────────────────────────────
-
-(define
-  clos-make-instance
-  (fn
-    (class-name &rest initargs)
-    (let
-      ((class-rec (get clos-class-registry class-name)))
-      (if
-        (nil? class-rec)
-        (error (str "No class named: " class-name))
-        (let
-          ((slots (dict)))
-          (for-each
-            (fn
-              (k)
-              (let
-                ((spec (get (get class-rec "slots") k)))
-                (let
-                  ((initform (get spec "initform")))
-                  (when
-                    (not (nil? initform))
-                    (dict-set!
-                      slots
-                      k
-                      (if (callable? initform) (initform) initform))))))
-            (keys (get class-rec "slots")))
-          (define
-            apply-args
-            (fn
-              (args)
-              (when
-                (>= (len args) 2)
-                (let
-                  ((key (str (first args))) (val (first (rest args))))
-                  (let
-                    ((skey (if (= (slice key 0 1) ":") (slice key 1 (len key)) key)))
-                    (let
-                      ((matched false))
-                      (for-each
-                        (fn
-                          (sk)
-                          (let
-                            ((spec (get (get class-rec "slots") sk)))
-                            (let
-                              ((ia (get spec "initarg")))
-                              (when
-                                (or
-                                  (= ia key)
-                                  (= ia (str ":" skey))
-                                  (= sk skey))
-                                (dict-set! slots sk val)
-                                (set! matched true)))))
-                        (keys (get class-rec "slots")))))
-                  (apply-args (rest (rest args)))))))
-          (apply-args initargs)
-          {:clos-type "instance" :slots slots :class class-name})))))
-
-;; ── slot-value ────────────────────────────────────────────────────────────
-
-(define
-  clos-slot-value
-  (fn
-    (instance slot-name)
-    (if
-      (and (dict? instance) (= (get instance "clos-type") "instance"))
-      (get (get instance "slots") slot-name)
-      (error (str "Not a CLOS instance: " (inspect instance))))))
-
-(define
-  clos-set-slot-value!
-  (fn
-    (instance slot-name value)
-    (if
-      (and (dict? instance) (= (get instance "clos-type") "instance"))
-      (dict-set! (get instance "slots") slot-name value)
-      (error (str "Not a CLOS instance: " (inspect instance))))))
-
-(define
-  clos-slot-boundp
-  (fn
-    (instance slot-name)
-    (and
-      (dict? instance)
-      (= (get instance "clos-type") "instance")
-      (not (nil? (get (get instance "slots") slot-name))))))
-
-;; ── find-class / change-class ─────────────────────────────────────────────
-
-(define clos-find-class (fn (name) (get clos-class-registry name)))
-
-(define
-  clos-change-class!
-  (fn
-    (instance new-class-name)
-    (if
-      (and (dict? instance) (= (get instance "clos-type") "instance"))
-      (dict-set! instance "class" new-class-name)
-      (error (str "Not a CLOS instance: " (inspect instance))))))
-
-;; ── defgeneric ────────────────────────────────────────────────────────────
-
-(define
-  clos-defgeneric
-  (fn
-    (name options)
-    (let
-      ((combination (or (get options "method-combination") "standard")))
-      (when
-        (nil? (get clos-generic-registry name))
-        (dict-set! clos-generic-registry name {:methods (list) :combination combination :name name}))
-      name)))
-
-;; ── defmethod ─────────────────────────────────────────────────────────────
-;;
-;; method-fn: (fn (args next-fn) body)
-;;   args = list of all call arguments
-;;   next-fn = (fn () next-method-result) or nil
-
-(define
-  clos-defmethod
-  (fn
-    (generic-name qualifiers specializers method-fn)
-    (when
-      (nil? (get clos-generic-registry generic-name))
-      (clos-defgeneric generic-name {}))
-    (let
-      ((grec (get clos-generic-registry generic-name))
-        (new-method {:fn method-fn :qualifiers qualifiers :specializers specializers}))
-      (let
-        ((kept (filter (fn (m) (not (and (= (get m "qualifiers") qualifiers) (= (get m "specializers") specializers)))) (get grec "methods"))))
-        (dict-set!
-          clos-generic-registry
-          generic-name
-          (assoc grec "methods" (append kept (list new-method))))
-        generic-name))))
-
-;; Now install the real accessor-method installer
-(set!
-  clos-add-reader-method
-  (fn
-    (method-name class-name slot-name)
-    (clos-defmethod
-      method-name
-      (list)
-      (list class-name)
-      (fn (args next-fn) (clos-slot-value (first args) slot-name)))))
-
-;; ── method specificity ─────────────────────────────────────────────────────
-
-(define
-  clos-method-matches?
-  (fn
-    (method args)
-    (let
-      ((specs (get method "specializers")))
-      (if
-        (> (len specs) (len args))
-        false
-        (define
-          check-all
-          (fn
-            (i)
-            (if
-              (>= i (len specs))
-              true
-              (let
-                ((spec (nth specs i)) (arg (nth args i)))
-                (if
-                  (= spec "t")
-                  (check-all (+ i 1))
-                  (if
-                    (clos-instance-of? arg spec)
-                    (check-all (+ i 1))
-                    false))))))
-        (check-all 0)))))
-
-;; Precedence distance: how far class-name is from spec-name up the hierarchy.
-(define
-  clos-specificity
-  (let
-    ((registry clos-class-registry))
-    (fn
-      (class-name spec-name)
-      (define
-        walk
-        (fn
-          (cn depth)
-          (if
-            (= cn spec-name)
-            depth
-            (let
-              ((rec (get registry cn)))
-              (if
-                (nil? rec)
-                nil
-                (let
-                  ((results (map (fn (p) (walk p (+ depth 1))) (get rec "parents"))))
-                  (let
-                    ((non-nil (filter (fn (x) (not (nil? x))) results)))
-                    (if
-                      (empty? non-nil)
-                      nil
-                      (reduce
-                        (fn (a b) (if (< a b) a b))
-                        (first non-nil)
-                        (rest non-nil))))))))))
-      (walk class-name 0))))
-
-(define
-  clos-method-more-specific?
-  (fn
-    (m1 m2 args)
-    (let
-      ((s1 (get m1 "specializers")) (s2 (get m2 "specializers")))
-      (define
-        cmp
-        (fn
-          (i)
-          (if
-            (>= i (len s1))
-            false
-            (let
-              ((c1 (clos-specificity (clos-class-of (nth args i)) (nth s1 i)))
-                (c2
-                  (clos-specificity (clos-class-of (nth args i)) (nth s2 i))))
-              (cond
-                ((and (nil? c1) (nil? c2)) (cmp (+ i 1)))
-                ((nil? c1) false)
-                ((nil? c2) true)
-                ((< c1 c2) true)
-                ((> c1 c2) false)
-                (:else (cmp (+ i 1))))))))
-      (cmp 0))))
-
-(define
-  clos-sort-methods
-  (fn
-    (methods args)
-    (define
-      insert
-      (fn
-        (m sorted)
-        (if
-          (empty? sorted)
-          (list m)
-          (if
-            (clos-method-more-specific? m (first sorted) args)
-            (cons m sorted)
-            (cons (first sorted) (insert m (rest sorted)))))))
-    (reduce (fn (acc m) (insert m acc)) (list) methods)))
-
-;; ── call-generic (standard method combination) ─────────────────────────────
-
-(define
-  clos-call-generic
-  (fn
-    (generic-name args)
-    (let
-      ((grec (get clos-generic-registry generic-name)))
-      (if
-        (nil? grec)
-        (error (str "No generic function: " generic-name))
-        (let
-          ((applicable (filter (fn (m) (clos-method-matches? m args)) (get grec "methods"))))
-          (if
-            (empty? applicable)
-            (error
-              (str
-                "No applicable method for "
-                generic-name
-                " with classes "
-                (inspect (map clos-class-of args))))
-            (let
-              ((primary (filter (fn (m) (empty? (get m "qualifiers"))) applicable))
-                (before
-                  (filter
-                    (fn (m) (= (get m "qualifiers") (list "before")))
-                    applicable))
-                (after
-                  (filter
-                    (fn (m) (= (get m "qualifiers") (list "after")))
-                    applicable))
-                (around
-                  (filter
-                    (fn (m) (= (get m "qualifiers") (list "around")))
-                    applicable)))
-              (let
-                ((sp (clos-sort-methods primary args))
-                  (sb (clos-sort-methods before args))
-                  (sa (clos-sort-methods after args))
-                  (sw (clos-sort-methods around args)))
-                (define
-                  make-primary-chain
-                  (fn
-                    (methods)
-                    (if
-                      (empty? methods)
-                      (fn
-                        ()
-                        (error (str "No next primary method: " generic-name)))
-                      (fn
-                        ()
-                        ((get (first methods) "fn")
-                          args
-                          (make-primary-chain (rest methods)))))))
-                (define
-                  make-around-chain
-                  (fn
-                    (around-methods inner-thunk)
-                    (if
-                      (empty? around-methods)
-                      inner-thunk
-                      (fn
-                        ()
-                        ((get (first around-methods) "fn")
-                          args
-                          (make-around-chain
-                            (rest around-methods)
-                            inner-thunk))))))
-                (for-each (fn (m) ((get m "fn") args (fn () nil))) sb)
-                (let
-                  ((primary-thunk (make-primary-chain sp)))
-                  (let
-                    ((result (if (empty? sw) (primary-thunk) ((make-around-chain sw primary-thunk)))))
-                    (for-each
-                      (fn (m) ((get m "fn") args (fn () nil)))
-                      (reverse sa))
-                    result))))))))))
-
-;; ── call-next-method / next-method-p ──────────────────────────────────────
-
-(define clos-call-next-method (fn (next-fn) (next-fn)))
-
-(define clos-next-method-p (fn (next-fn) (not (nil? next-fn))))
-
-;; ── with-slots ────────────────────────────────────────────────────────────
-
-(define
-  clos-with-slots
-  (fn
-    (instance slot-names body-fn)
-    (let
-      ((vals (map (fn (s) (clos-slot-value instance s)) slot-names)))
-      (apply body-fn vals))))
--- a/lib/common-lisp/conformance.sh
+++ b/lib/common-lisp/conformance.sh
@@ -1,161 +0,0 @@
-#!/usr/bin/env bash
-# lib/common-lisp/conformance.sh — CL-on-SX conformance test runner
-#
-# Runs all Common Lisp test suites and writes scoreboard.json + scoreboard.md.
-#
-# Usage:
-#   bash lib/common-lisp/conformance.sh
-#   bash lib/common-lisp/conformance.sh -v
-
-set -uo pipefail
-cd "$(git rev-parse --show-toplevel)"
-
-SX_SERVER="${SX_SERVER:-hosts/ocaml/_build/default/bin/sx_server.exe}"
-if [ ! -x "$SX_SERVER" ]; then
-  SX_SERVER="/root/rose-ash/hosts/ocaml/_build/default/bin/sx_server.exe"
-fi
-if [ ! -x "$SX_SERVER" ]; then
-  echo "ERROR: sx_server.exe not found."
-  exit 1
-fi
-
-VERBOSE="${1:-}"
-TOTAL_PASS=0; TOTAL_FAIL=0
-SUITE_NAMES=()
-SUITE_PASS=()
-SUITE_FAIL=()
-
-# run_suite NAME "file1 file2 ..." PASS_VAR FAIL_VAR FAILURES_VAR
-run_suite() {
-  local name="$1" load_files="$2" pass_var="$3" fail_var="$4" failures_var="$5"
-  local TMP; TMP=$(mktemp)
-  {
-    printf '(epoch 1)\n(load "spec/stdlib.sx")\n'
-    local i=2
-    for f in $load_files; do
-      printf '(epoch %d)\n(load "%s")\n' "$i" "$f"
-      i=$((i+1))
-    done
-    printf '(epoch 100)\n(eval "%s")\n' "$pass_var"
-    printf '(epoch 101)\n(eval "%s")\n' "$fail_var"
-  } > "$TMP"
-  local OUT; OUT=$(timeout 30 "$SX_SERVER" < "$TMP" 2>/dev/null)
-  rm -f "$TMP"
-  local P F
-  P=$(echo "$OUT" | grep -A1 "^(ok-len 100 " | tail -1 | tr -d ' ()' || true)
-  F=$(echo "$OUT" | grep -A1 "^(ok-len 101 " | tail -1 | tr -d ' ()' || true)
-  # Also try plain (ok 100 N) format
-  [ -z "$P" ] && P=$(echo "$OUT" | grep "^(ok 100 " | awk '{print $3}' | tr -d ')' || true)
-  [ -z "$F" ] && F=$(echo "$OUT" | grep "^(ok 101 " | awk '{print $3}' | tr -d ')' || true)
-  [ -z "$P" ] && P=0; [ -z "$F" ] && F=0
-  SUITE_NAMES+=("$name")
-  SUITE_PASS+=("$P")
-  SUITE_FAIL+=("$F")
-  TOTAL_PASS=$((TOTAL_PASS + P))
-  TOTAL_FAIL=$((TOTAL_FAIL + F))
-  if [ "$F" = "0" ] && [ "${P:-0}" -gt 0 ] 2>/dev/null; then
-    echo "  PASS  $name ($P tests)"
-  else
-    echo "  FAIL  $name ($P passed, $F failed)"
-  fi
-}
-
-echo "=== Common Lisp on SX — Conformance Run ==="
-echo ""
-
-run_suite "Phase 1: tokenizer/reader" \
-  "lib/common-lisp/reader.sx lib/common-lisp/tests/read.sx" \
-  "cl-test-pass" "cl-test-fail" "cl-test-fails"
-
-run_suite "Phase 1: parser/lambda-lists" \
-  "lib/common-lisp/reader.sx lib/common-lisp/parser.sx lib/common-lisp/tests/lambda.sx" \
-  "cl-test-pass" "cl-test-fail" "cl-test-fails"
-
-run_suite "Phase 2: evaluator" \
-  "lib/common-lisp/reader.sx lib/common-lisp/parser.sx lib/common-lisp/eval.sx lib/common-lisp/tests/eval.sx" \
-  "cl-test-pass" "cl-test-fail" "cl-test-fails"
-
-run_suite "Phase 3: condition system" \
-  "lib/common-lisp/runtime.sx lib/common-lisp/tests/conditions.sx" \
-  "passed" "failed" "failures"
-
-run_suite "Phase 3: restart-demo" \
-  "lib/common-lisp/runtime.sx lib/common-lisp/tests/programs/restart-demo.sx" \
-  "demo-passed" "demo-failed" "demo-failures"
-
-run_suite "Phase 3: parse-recover" \
-  "lib/common-lisp/runtime.sx lib/common-lisp/tests/programs/parse-recover.sx" \
-  "parse-passed" "parse-failed" "parse-failures"
-
-run_suite "Phase 3: interactive-debugger" \
-  "lib/common-lisp/runtime.sx lib/common-lisp/tests/programs/interactive-debugger.sx" \
-  "debugger-passed" "debugger-failed" "debugger-failures"
-
-run_suite "Phase 4: CLOS" \
-  "lib/common-lisp/runtime.sx lib/common-lisp/clos.sx lib/common-lisp/tests/clos.sx" \
-  "passed" "failed" "failures"
-
-run_suite "Phase 4: geometry" \
-  "lib/common-lisp/runtime.sx lib/common-lisp/clos.sx lib/common-lisp/tests/programs/geometry.sx" \
-  "geo-passed" "geo-failed" "geo-failures"
-
-run_suite "Phase 4: mop-trace" \
-  "lib/common-lisp/runtime.sx lib/common-lisp/clos.sx lib/common-lisp/tests/programs/mop-trace.sx" \
-  "mop-passed" "mop-failed" "mop-failures"
-
-run_suite "Phase 5: macros+LOOP" \
-  "lib/common-lisp/reader.sx lib/common-lisp/parser.sx lib/common-lisp/eval.sx lib/common-lisp/loop.sx lib/common-lisp/tests/macros.sx" \
-  "macro-passed" "macro-failed" "macro-failures"
-
-run_suite "Phase 6: stdlib" \
-  "lib/common-lisp/reader.sx lib/common-lisp/parser.sx lib/common-lisp/eval.sx lib/common-lisp/tests/stdlib.sx" \
-  "stdlib-passed" "stdlib-failed" "stdlib-failures"
-
-echo ""
-echo "=== Total: $TOTAL_PASS passed, $TOTAL_FAIL failed ==="
-
-# ── write scoreboard.json ─────────────────────────────────────────────────
-
-SCORE_DIR="lib/common-lisp"
-JSON="$SCORE_DIR/scoreboard.json"
-{
-  printf '{\n'
-  printf '  "generated": "%s",\n' "$(date -u +%Y-%m-%dT%H:%M:%SZ)"
-  printf '  "total_pass": %d,\n' "$TOTAL_PASS"
-  printf '  "total_fail": %d,\n' "$TOTAL_FAIL"
-  printf '  "suites": [\n'
-  first=true
-  for i in "${!SUITE_NAMES[@]}"; do
-    if [ "$first" = "true" ]; then first=false; else printf ',\n'; fi
-    printf '    {"name": "%s", "pass": %d, "fail": %d}' \
-      "${SUITE_NAMES[$i]}" "${SUITE_PASS[$i]}" "${SUITE_FAIL[$i]}"
-  done
-  printf '\n  ]\n'
-  printf '}\n'
-} > "$JSON"
-
-# ── write scoreboard.md ───────────────────────────────────────────────────
-
-MD="$SCORE_DIR/scoreboard.md"
-{
-  printf '# Common Lisp on SX — Scoreboard\n\n'
-  printf '_Generated: %s_\n\n' "$(date -u '+%Y-%m-%d %H:%M UTC')"
-  printf '| Suite | Pass | Fail | Status |\n'
-  printf '|-------|------|------|--------|\n'
-  for i in "${!SUITE_NAMES[@]}"; do
-    p="${SUITE_PASS[$i]}" f="${SUITE_FAIL[$i]}"
-    status=""
-    if [ "$f" = "0" ] && [ "${p:-0}" -gt 0 ] 2>/dev/null; then
-      status="pass"
-    else
-      status="FAIL"
-    fi
-    printf '| %s | %s | %s | %s |\n' "${SUITE_NAMES[$i]}" "$p" "$f" "$status"
-  done
-  printf '\n**Total: %d passed, %d failed**\n' "$TOTAL_PASS" "$TOTAL_FAIL"
-} > "$MD"
-
-echo ""
-echo "Scoreboard written to $JSON and $MD"
-
-[ "$TOTAL_FAIL" -eq 0 ]
--- a/lib/common-lisp/eval.sx
+++ b/lib/common-lisp/eval.sx
--- a/lib/common-lisp/loop.sx
+++ b/lib/common-lisp/loop.sx
@@ -1,623 +0,0 @@
-;; lib/common-lisp/loop.sx — The LOOP macro for CL-on-SX
-;;
-;; Supported clauses:
-;;   for VAR in LIST             — iterate over list
-;;   for VAR across VECTOR       — alias for 'in'
-;;   for VAR from N              — numeric iteration (to/upto/below/downto/above/by)
-;;   for VAR = EXPR [then EXPR]  — general iteration
-;;   while COND                  — stop when false
-;;   until COND                  — stop when true
-;;   repeat N                    — repeat N times
-;;   collect EXPR [into VAR]
-;;   append EXPR [into VAR]
-;;   nconc EXPR [into VAR]
-;;   sum EXPR [into VAR]
-;;   count EXPR [into VAR]
-;;   maximize EXPR [into VAR]
-;;   minimize EXPR [into VAR]
-;;   do FORM...
-;;   when/if COND clause...
-;;   unless COND clause...
-;;   finally FORM...
-;;   always COND
-;;   never COND
-;;   thereis COND
-;;   named BLOCK-NAME
-;;
-;; Depends on: lib/common-lisp/runtime.sx, lib/common-lisp/eval.sx already loaded.
-;; Uses defmacro in the CL evaluator.
-
-;; ── LOOP expansion driver ─────────────────────────────────────────────────
-
-;; cl-loop-parse: analyse the flat LOOP clause list and build a Lisp form.
-;; Returns a (block NAME (let (...) (tagbody ...))) form.
-(define
-  cl-loop-parse
-  (fn
-    (clauses)
-    (define block-name nil)
-    (define with-bindings (list))
-    (define for-bindings (list))
-    (define test-forms (list))
-    (define repeat-var nil)
-    (define repeat-count nil)
-    (define body-forms (list))
-    (define accum-vars (dict))
-    (define accum-clauses (dict))
-    (define result-var nil)
-    (define finally-forms (list))
-    (define return-expr nil)
-    (define termination nil)
-    (define idx 0)
-    (define (lp-peek) (if (< idx (len clauses)) (nth clauses idx) nil))
-    (define
-      (next!)
-      (let ((v (lp-peek))) (do (set! idx (+ idx 1)) v)))
-    (define
-      (skip-if pred)
-      (if (and (not (nil? (lp-peek))) (pred (lp-peek))) (next!) nil))
-    (define (upcase-str s) (if (string? s) (upcase s) s))
-    (define (kw? s k) (= (upcase-str s) k))
-    (define
-      (make-accum-var!)
-      (if
-        (nil? result-var)
-        (do (set! result-var "#LOOP-RESULT") result-var)
-        result-var))
-    (define
-      (add-accum! type expr into-var)
-      (let
-        ((v (if (nil? into-var) (make-accum-var!) into-var)))
-        (if
-          (not (has-key? accum-vars v))
-          (do
-            (set!
-              accum-vars
-              (assoc
-                accum-vars
-                v
-                (cond
-                  ((= type ":sum") 0)
-                  ((= type ":count") 0)
-                  ((= type ":maximize") nil)
-                  ((= type ":minimize") nil)
-                  (:else (list)))))
-            (set! accum-clauses (assoc accum-clauses v type))))
-        (let
-          ((update (cond ((= type ":collect") (list "SETQ" v (list "APPEND" v (list "LIST" expr)))) ((= type ":append") (list "SETQ" v (list "APPEND" v expr))) ((= type ":nconc") (list "SETQ" v (list "NCONC" v expr))) ((= type ":sum") (list "SETQ" v (list "+" v expr))) ((= type ":count") (list "SETQ" v (list "+" v (list "IF" expr 1 0)))) ((= type ":maximize") (list "SETQ" v (list "IF" (list "OR" (list "NULL" v) (list ">" expr v)) expr v))) ((= type ":minimize") (list "SETQ" v (list "IF" (list "OR" (list "NULL" v) (list "<" expr v)) expr v))) (:else (list "SETQ" v (list "APPEND" v (list "LIST" expr)))))))
-          (set! body-forms (append body-forms (list update))))))
-    (define
-      (parse-clause!)
-      (let
-        ((tok (lp-peek)))
-        (if
-          (nil? tok)
-          nil
-          (do
-            (let
-              ((u (upcase-str tok)))
-              (cond
-                ((= u "NAMED")
-                  (do (next!) (set! block-name (next!)) (parse-clause!)))
-                ((= u "WITH")
-                  (do
-                    (next!)
-                    (let
-                      ((var (next!)))
-                      (skip-if (fn (s) (kw? s "=")))
-                      (let
-                        ((init (next!)))
-                        (set!
-                          with-bindings
-                          (append with-bindings (list (list var init))))
-                        (parse-clause!)))))
-                ((= u "FOR")
-                  (do
-                    (next!)
-                    (let
-                      ((var (next!)))
-                      (let
-                        ((kw2 (upcase-str (lp-peek))))
-                        (cond
-                          ((or (= kw2 "IN") (= kw2 "ACROSS"))
-                            (do
-                              (next!)
-                              (let
-                                ((lst-expr (next!))
-                                  (tail-var (str "#TAIL-" var)))
-                                (set!
-                                  for-bindings
-                                  (append for-bindings (list {:list lst-expr :tail tail-var :type ":list" :var var})))
-                                (parse-clause!))))
-                          ((= kw2 "=")
-                            (do
-                              (next!)
-                              (let
-                                ((init-expr (next!)))
-                                (let
-                                  ((then-expr (if (kw? (lp-peek) "THEN") (do (next!) (next!)) init-expr)))
-                                  (set!
-                                    for-bindings
-                                    (append for-bindings (list {:type ":general" :then then-expr :init init-expr :var var})))
-                                  (parse-clause!)))))
-                          ((or (= kw2 "FROM") (= kw2 "DOWNFROM") (= kw2 "UPFROM"))
-                            (do
-                              (next!)
-                              (let
-                                ((from-expr (next!))
-                                  (dir (if (= kw2 "DOWNFROM") ":down" ":up"))
-                                  (limit-expr nil)
-                                  (limit-type nil)
-                                  (step-expr 1))
-                                (let
-                                  ((lkw (upcase-str (lp-peek))))
-                                  (when
-                                    (or
-                                      (= lkw "TO")
-                                      (= lkw "UPTO")
-                                      (= lkw "BELOW")
-                                      (= lkw "DOWNTO")
-                                      (= lkw "ABOVE"))
-                                    (do
-                                      (next!)
-                                      (set! limit-type lkw)
-                                      (set! limit-expr (next!)))))
-                                (when
-                                  (kw? (lp-peek) "BY")
-                                  (do (next!) (set! step-expr (next!))))
-                                (set!
-                                  for-bindings
-                                  (append for-bindings (list {:dir dir :step step-expr :from from-expr :type ":numeric" :limit-type limit-type :var var :limit limit-expr})))
-                                (parse-clause!))))
-                          ((or (= kw2 "TO") (= kw2 "UPTO") (= kw2 "BELOW"))
-                            (do
-                              (next!)
-                              (let
-                                ((limit-expr (next!))
-                                  (step-expr 1))
-                                (when
-                                  (kw? (lp-peek) "BY")
-                                  (do (next!) (set! step-expr (next!))))
-                                (set!
-                                  for-bindings
-                                  (append for-bindings (list {:dir ":up" :step step-expr :from 0 :type ":numeric" :limit-type kw2 :var var :limit limit-expr})))
-                                (parse-clause!))))
-                          (:else (do (parse-clause!))))))))
-                ((= u "WHILE")
-                  (do
-                    (next!)
-                    (set! test-forms (append test-forms (list {:expr (next!) :type ":while"})))
-                    (parse-clause!)))
-                ((= u "UNTIL")
-                  (do
-                    (next!)
-                    (set! test-forms (append test-forms (list {:expr (next!) :type ":until"})))
-                    (parse-clause!)))
-                ((= u "REPEAT")
-                  (do
-                    (next!)
-                    (set! repeat-count (next!))
-                    (set! repeat-var "#REPEAT-COUNT")
-                    (parse-clause!)))
-                ((or (= u "COLLECT") (= u "COLLECTING"))
-                  (do
-                    (next!)
-                    (let
-                      ((expr (next!)) (into-var nil))
-                      (when
-                        (kw? (lp-peek) "INTO")
-                        (do (next!) (set! into-var (next!))))
-                      (add-accum! ":collect" expr into-var)
-                      (parse-clause!))))
-                ((or (= u "APPEND") (= u "APPENDING"))
-                  (do
-                    (next!)
-                    (let
-                      ((expr (next!)) (into-var nil))
-                      (when
-                        (kw? (lp-peek) "INTO")
-                        (do (next!) (set! into-var (next!))))
-                      (add-accum! ":append" expr into-var)
-                      (parse-clause!))))
-                ((or (= u "NCONC") (= u "NCONCING"))
-                  (do
-                    (next!)
-                    (let
-                      ((expr (next!)) (into-var nil))
-                      (when
-                        (kw? (lp-peek) "INTO")
-                        (do (next!) (set! into-var (next!))))
-                      (add-accum! ":nconc" expr into-var)
-                      (parse-clause!))))
-                ((or (= u "SUM") (= u "SUMMING"))
-                  (do
-                    (next!)
-                    (let
-                      ((expr (next!)) (into-var nil))
-                      (when
-                        (kw? (lp-peek) "INTO")
-                        (do (next!) (set! into-var (next!))))
-                      (add-accum! ":sum" expr into-var)
-                      (parse-clause!))))
-                ((or (= u "COUNT") (= u "COUNTING"))
-                  (do
-                    (next!)
-                    (let
-                      ((expr (next!)) (into-var nil))
-                      (when
-                        (kw? (lp-peek) "INTO")
-                        (do (next!) (set! into-var (next!))))
-                      (add-accum! ":count" expr into-var)
-                      (parse-clause!))))
-                ((or (= u "MAXIMIZE") (= u "MAXIMIZING"))
-                  (do
-                    (next!)
-                    (let
-                      ((expr (next!)) (into-var nil))
-                      (when
-                        (kw? (lp-peek) "INTO")
-                        (do (next!) (set! into-var (next!))))
-                      (add-accum! ":maximize" expr into-var)
-                      (parse-clause!))))
-                ((or (= u "MINIMIZE") (= u "MINIMIZING"))
-                  (do
-                    (next!)
-                    (let
-                      ((expr (next!)) (into-var nil))
-                      (when
-                        (kw? (lp-peek) "INTO")
-                        (do (next!) (set! into-var (next!))))
-                      (add-accum! ":minimize" expr into-var)
-                      (parse-clause!))))
-                ((= u "DO")
-                  (do
-                    (next!)
-                    (define
-                      (loop-kw? s)
-                      (let
-                        ((us (upcase-str s)))
-                        (some
-                          (fn (k) (= us k))
-                          (list
-                            "FOR"
-                            "WITH"
-                            "WHILE"
-                            "UNTIL"
-                            "REPEAT"
-                            "COLLECT"
-                            "COLLECTING"
-                            "APPEND"
-                            "APPENDING"
-                            "NCONC"
-                            "NCONCING"
-                            "SUM"
-                            "SUMMING"
-                            "COUNT"
-                            "COUNTING"
-                            "MAXIMIZE"
-                            "MAXIMIZING"
-                            "MINIMIZE"
-                            "MINIMIZING"
-                            "DO"
-                            "WHEN"
-                            "IF"
-                            "UNLESS"
-                            "FINALLY"
-                            "ALWAYS"
-                            "NEVER"
-                            "THEREIS"
-                            "RETURN"
-                            "NAMED"))))
-                    (define
-                      (collect-do-forms!)
-                      (if
-                        (or (nil? (lp-peek)) (loop-kw? (lp-peek)))
-                        nil
-                        (do
-                          (set!
-                            body-forms
-                            (append body-forms (list (next!))))
-                          (collect-do-forms!))))
-                    (collect-do-forms!)
-                    (parse-clause!)))
-                ((or (= u "WHEN") (= u "IF"))
-                  (do
-                    (next!)
-                    (let
-                      ((cond-expr (next!))
-                       (body-start (len body-forms)))
-                      (parse-clause!)
-                      ;; wrap forms added since body-start in (WHEN cond ...)
-                      (when (> (len body-forms) body-start)
-                        (let ((added (list (nth body-forms body-start))))
-                          (set! body-forms
-                            (append
-                              (if (> body-start 0)
-                                (list (nth body-forms (- body-start 1)))
-                                (list))
-                              (list (list "WHEN" cond-expr (first added)))))
-                          nil)))))
-                ((= u "UNLESS")
-                  (do
-                    (next!)
-                    (let
-                      ((cond-expr (next!))
-                       (body-start (len body-forms)))
-                      (parse-clause!)
-                      (when (> (len body-forms) body-start)
-                        (let ((added (list (nth body-forms body-start))))
-                          (set! body-forms
-                            (append
-                              (if (> body-start 0)
-                                (list (nth body-forms (- body-start 1)))
-                                (list))
-                              (list (list "UNLESS" cond-expr (first added)))))
-                          nil)))))
-                ((= u "ALWAYS")
-                  (do (next!) (set! termination {:expr (next!) :type ":always"}) (parse-clause!)))
-                ((= u "NEVER")
-                  (do (next!) (set! termination {:expr (next!) :type ":never"}) (parse-clause!)))
-                ((= u "THEREIS")
-                  (do (next!) (set! termination {:expr (next!) :type ":thereis"}) (parse-clause!)))
-                ((= u "RETURN")
-                  (do (next!) (set! return-expr (next!)) (parse-clause!)))
-                ((= u "FINALLY")
-                  (do
-                    (next!)
-                    (define
-                      (collect-finally!)
-                      (if
-                        (nil? (lp-peek))
-                        nil
-                        (do
-                          (set!
-                            finally-forms
-                            (append finally-forms (list (next!))))
-                          (collect-finally!))))
-                    (collect-finally!)
-                    (parse-clause!)))
-                (:else
-                  (do
-                    (set! body-forms (append body-forms (list (next!))))
-                    (parse-clause!)))))))))
-    (parse-clause!)
-    (define let-bindings (list))
-    (for-each
-      (fn (wb) (set! let-bindings (append let-bindings (list wb))))
-      with-bindings)
-    (for-each
-      (fn
-        (v)
-        (set!
-          let-bindings
-          (append let-bindings (list (list v (get accum-vars v))))))
-      (keys accum-vars))
-    (when
-      (not (nil? repeat-var))
-      (set!
-        let-bindings
-        (append let-bindings (list (list repeat-var repeat-count)))))
-    (for-each
-      (fn
-        (fb)
-        (let
-          ((type (get fb "type")))
-          (cond
-            ((= type ":list")
-              (do
-                (set!
-                  let-bindings
-                  (append
-                    let-bindings
-                    (list (list (get fb "tail") (get fb "list")))
-                    (list
-                      (list
-                        (get fb "var")
-                        (list
-                          "IF"
-                          (list "CONSP" (get fb "tail"))
-                          (list "CAR" (get fb "tail"))
-                          nil)))))
-                nil))
-            ((= type ":numeric")
-              (set!
-                let-bindings
-                (append
-                  let-bindings
-                  (list (list (get fb "var") (get fb "from"))))))
-            ((= type ":general")
-              (set!
-                let-bindings
-                (append
-                  let-bindings
-                  (list (list (get fb "var") (get fb "init"))))))
-            (:else nil))))
-      for-bindings)
-    (define all-tests (list))
-    (when
-      (not (nil? repeat-var))
-      (set!
-        all-tests
-        (append
-          all-tests
-          (list
-            (list
-              "WHEN"
-              (list "<=" repeat-var 0)
-              (list "RETURN-FROM" block-name (if (nil? result-var) nil result-var))))))
-      (set!
-        body-forms
-        (append
-          (list (list "SETQ" repeat-var (list "-" repeat-var 1)))
-          body-forms)))
-    (for-each
-      (fn
-        (fb)
-        (when
-          (= (get fb "type") ":list")
-          (let
-            ((tvar (get fb "tail")) (var (get fb "var")))
-            (set!
-              all-tests
-              (append
-                all-tests
-                (list
-                  (list
-                    "WHEN"
-                    (list "NULL" tvar)
-                    (list
-                      "RETURN-FROM"
-                      block-name
-                      (if (nil? result-var) nil result-var))))))
-            (set!
-              body-forms
-              (append
-                body-forms
-                (list
-                  (list "SETQ" tvar (list "CDR" tvar))
-                  (list
-                    "SETQ"
-                    var
-                    (list "IF" (list "CONSP" tvar) (list "CAR" tvar) nil))))))))
-      for-bindings)
-    (for-each
-      (fn
-        (fb)
-        (when
-          (= (get fb "type") ":numeric")
-          (let
-            ((var (get fb "var"))
-              (dir (get fb "dir"))
-              (lim (get fb "limit"))
-              (ltype (get fb "limit-type"))
-              (step (get fb "step")))
-            (when
-              (not (nil? lim))
-              (let
-                ((test-op (cond ((or (= ltype "BELOW") (= ltype "ABOVE")) (if (= dir ":up") ">=" "<=")) ((or (= ltype "TO") (= ltype "UPTO")) ">") ((= ltype "DOWNTO") "<") (:else (if (= dir ":up") ">" "<")))))
-                (set!
-                  all-tests
-                  (append
-                    all-tests
-                    (list
-                      (list
-                        "WHEN"
-                        (list test-op var lim)
-                        (list
-                          "RETURN-FROM"
-                          block-name
-                          (if (nil? result-var) nil result-var))))))))
-            (let
-              ((step-op (if (or (= dir ":down") (= ltype "DOWNTO") (= ltype "ABOVE")) "-" "+")))
-              (set!
-                body-forms
-                (append
-                  body-forms
-                  (list (list "SETQ" var (list step-op var step)))))))))
-      for-bindings)
-    (for-each
-      (fn
-        (fb)
-        (when
-          (= (get fb "type") ":general")
-          (set!
-            body-forms
-            (append
-              body-forms
-              (list (list "SETQ" (get fb "var") (get fb "then")))))))
-      for-bindings)
-    (for-each
-      (fn
-        (t)
-        (let
-          ((type (get t "type")) (expr (get t "expr")))
-          (if
-            (= type ":while")
-            (set!
-              all-tests
-              (append
-                all-tests
-                (list
-                  (list
-                    "WHEN"
-                    (list "NOT" expr)
-                    (list
-                      "RETURN-FROM"
-                      block-name
-                      (if (nil? result-var) nil result-var))))))
-            (set!
-              all-tests
-              (append
-                all-tests
-                (list
-                  (list
-                    "WHEN"
-                    expr
-                    (list
-                      "RETURN-FROM"
-                      block-name
-                      (if (nil? result-var) nil result-var)))))))))
-      test-forms)
-    (when
-      (not (nil? termination))
-      (let
-        ((type (get termination "type")) (expr (get termination "expr")))
-        (cond
-          ((= type ":always")
-            (set!
-              body-forms
-              (append
-                body-forms
-                (list
-                  (list "UNLESS" expr (list "RETURN-FROM" block-name false)))))
-            (set! return-expr true))
-          ((= type ":never")
-            (set!
-              body-forms
-              (append
-                body-forms
-                (list
-                  (list "WHEN" expr (list "RETURN-FROM" block-name false)))))
-            (set! return-expr true))
-          ((= type ":thereis")
-            (set!
-              body-forms
-              (append
-                body-forms
-                (list
-                  (list "WHEN" expr (list "RETURN-FROM" block-name expr)))))))))
-    (define tag "#LOOP-START")
-    (define
-      inner-body
-      (append (list tag) all-tests body-forms (list (list "GO" tag))))
-    (define
-      result-form
-      (cond
-        ((not (nil? return-expr)) return-expr)
-        ((not (nil? result-var)) result-var)
-        (:else nil)))
-    (define
-      full-body
-      (if
-        (= (len let-bindings) 0)
-        (append
-          (list "PROGN")
-          (list (append (list "TAGBODY") inner-body))
-          finally-forms
-          (list result-form))
-        (list
-          "LET*"
-          let-bindings
-          (append (list "TAGBODY") inner-body)
-          (append (list "PROGN") finally-forms (list result-form)))))
-    (list "BLOCK" block-name full-body)))
-
-;; ── Install LOOP as a CL macro ────────────────────────────────────────────
-;;
-;; (loop ...) — the form arrives with head "LOOP" and rest = clauses.
-;; The macro fn receives the full form.
-
-(dict-set!
-  cl-macro-registry
-  "LOOP"
-  (fn (form env) (cl-loop-parse (rest form))))
--- a/lib/common-lisp/parser.sx
+++ b/lib/common-lisp/parser.sx
@@ -1,377 +0,0 @@
-;; Common Lisp reader — converts token stream to CL AST forms.
-;;
-;; Depends on: lib/common-lisp/reader.sx  (cl-tokenize)
-;;
-;; AST representation:
-;;   integer/float         → SX number (or {:cl-type "float"/:ratio ...})
-;;   string "hello"        → {:cl-type "string" :value "hello"}
-;;   symbol FOO            → SX string "FOO"  (upcase)
-;;   symbol NIL            → nil
-;;   symbol T              → true
-;;   :keyword              → {:cl-type "keyword" :name "FOO"}
-;;   #\char                → {:cl-type "char"    :value "a"}
-;;   #:uninterned          → {:cl-type "uninterned" :name "FOO"}
-;;   ratio 1/3             → {:cl-type "ratio"   :value "1/3"}
-;;   float 3.14            → {:cl-type "float"   :value "3.14"}
-;;   proper list (a b c)   → SX list (a b c)
-;;   dotted pair (a . b)   → {:cl-type "cons" :car a :cdr b}
-;;   vector #(a b)         → {:cl-type "vector" :elements (list a b)}
-;;   'x                    → ("QUOTE" x)
-;;   `x                    → ("QUASIQUOTE" x)
-;;   ,x                    → ("UNQUOTE" x)
-;;   ,@x                   → ("UNQUOTE-SPLICING" x)
-;;   #'x                   → ("FUNCTION" x)
-;;
-;; Public API:
-;;   (cl-read src)         — parse first form from string, return form
-;;   (cl-read-all src)     — parse all top-level forms, return list
-
-;; ── number conversion ─────────────────────────────────────────────
-
-(define
-  cl-hex-val
-  (fn
-    (c)
-    (let
-      ((o (cl-ord c)))
-      (cond
-        ((and (>= o 48) (<= o 57)) (- o 48))
-        ((and (>= o 65) (<= o 70)) (+ 10 (- o 65)))
-        ((and (>= o 97) (<= o 102)) (+ 10 (- o 97)))
-        (:else 0)))))
-
-(define
-  cl-parse-radix-str
-  (fn
-    (s radix start)
-    (let
-      ((n (string-length s)) (i start) (acc 0))
-      (define
-        loop
-        (fn
-          ()
-          (when
-            (< i n)
-            (do
-              (set! acc (+ (* acc radix) (cl-hex-val (substring s i (+ i 1)))))
-              (set! i (+ i 1))
-              (loop)))))
-      (loop)
-      acc)))
-
-(define
-  cl-convert-integer
-  (fn
-    (s)
-    (let
-      ((n (string-length s)) (neg false))
-      (cond
-        ((and (> n 2) (= (substring s 0 1) "#"))
-          (let
-            ((letter (downcase (substring s 1 2))))
-            (cond
-              ((= letter "x") (cl-parse-radix-str s 16 2))
-              ((= letter "b") (cl-parse-radix-str s 2 2))
-              ((= letter "o") (cl-parse-radix-str s 8 2))
-              (:else (parse-int s 0)))))
-        (:else (parse-int s 0))))))
-
-;; ── reader ────────────────────────────────────────────────────────
-
-;; Read one form from token list.
-;; Returns {:form F :rest remaining-toks} or {:form nil :rest toks :eof true}
-(define
-  cl-read-form
-  (fn
-    (toks)
-    (if
-      (not toks)
-      {:form nil :rest toks :eof true}
-      (let
-        ((tok (nth toks 0)) (nxt (rest toks)))
-        (let
-          ((type (get tok "type")) (val (get tok "value")))
-          (cond
-            ((= type "eof") {:form nil :rest toks :eof true})
-            ((= type "integer") {:form (cl-convert-integer val) :rest nxt})
-            ((= type "float") {:form {:cl-type "float" :value val} :rest nxt})
-            ((= type "ratio") {:form {:cl-type "ratio" :value val} :rest nxt})
-            ((= type "string") {:form {:cl-type "string" :value val} :rest nxt})
-            ((= type "char") {:form {:cl-type "char" :value val} :rest nxt})
-            ((= type "keyword") {:form {:cl-type "keyword" :name val} :rest nxt})
-            ((= type "uninterned") {:form {:cl-type "uninterned" :name val} :rest nxt})
-            ((= type "symbol")
-              (cond
-                ((= val "NIL") {:form nil :rest nxt})
-                ((= val "T") {:form true :rest nxt})
-                (:else {:form val :rest nxt})))
-            ;; list forms
-            ((= type "lparen") (cl-read-list nxt))
-            ((= type "hash-paren") (cl-read-vector nxt))
-            ;; reader macros that wrap the next form
-            ((= type "quote") (cl-read-wrap "QUOTE" nxt))
-            ((= type "backquote") (cl-read-wrap "QUASIQUOTE" nxt))
-            ((= type "comma") (cl-read-wrap "UNQUOTE" nxt))
-            ((= type "comma-at") (cl-read-wrap "UNQUOTE-SPLICING" nxt))
-            ((= type "hash-quote") (cl-read-wrap "FUNCTION" nxt))
-            ;; skip unrecognised tokens
-            (:else (cl-read-form nxt))))))))
-
-;; Wrap next form in a list: (name form)
-(define
-  cl-read-wrap
-  (fn
-    (name toks)
-    (let
-      ((inner (cl-read-form toks)))
-      {:form (list name (get inner "form")) :rest (get inner "rest")})))
-
-;; Read list forms until ')'; handles dotted pair (a . b)
-;; Called after consuming '('
-(define
-  cl-read-list
-  (fn
-    (toks)
-    (let
-      ((result (cl-read-list-items toks (list))))
-      {:form (get result "items") :rest (get result "rest")})))
-
-(define
-  cl-read-list-items
-  (fn
-    (toks acc)
-    (if
-      (not toks)
-      {:items acc :rest toks}
-      (let
-        ((tok (nth toks 0)))
-        (let
-          ((type (get tok "type")))
-          (cond
-            ((= type "eof") {:items acc :rest toks})
-            ((= type "rparen") {:items acc :rest (rest toks)})
-            ;; dotted pair: read one more form then expect ')'
-            ((= type "dot")
-              (let
-                ((cdr-result (cl-read-form (rest toks))))
-                (let
-                  ((cdr-form (get cdr-result "form"))
-                    (after-cdr (get cdr-result "rest")))
-                  ;; skip the closing ')'
-                  (let
-                    ((close (if after-cdr (nth after-cdr 0) nil)))
-                    (let
-                      ((remaining
-                          (if
-                            (and close (= (get close "type") "rparen"))
-                            (rest after-cdr)
-                            after-cdr)))
-                      ;; build dotted structure
-                      (let
-                        ((dotted (cl-build-dotted acc cdr-form)))
-                        {:items dotted :rest remaining}))))))
-            (:else
-              (let
-                ((item (cl-read-form toks)))
-                (cl-read-list-items
-                  (get item "rest")
-                  (concat acc (list (get item "form"))))))))))))
-
-;; Build dotted form: (a b . c) → ((DOTTED a b) . c) style
-;; In CL (a b c . d) means a proper dotted structure.
-;; We represent it as {:cl-type "cons" :car a :cdr (list->dotted b c d)}
-(define
-  cl-build-dotted
-  (fn
-    (head-items tail)
-    (if
-      (= (len head-items) 0)
-      tail
-      (if
-        (= (len head-items) 1)
-        {:cl-type "cons" :car (nth head-items 0) :cdr tail}
-        (let
-          ((last-item (nth head-items (- (len head-items) 1)))
-            (but-last (slice head-items 0 (- (len head-items) 1))))
-          {:cl-type "cons"
-            :car (cl-build-dotted but-last (list last-item))
-            :cdr tail})))))
-
-;; Read vector #(…) elements until ')'
-(define
-  cl-read-vector
-  (fn
-    (toks)
-    (let
-      ((result (cl-read-vector-items toks (list))))
-      {:form {:cl-type "vector" :elements (get result "items")} :rest (get result "rest")})))
-
-(define
-  cl-read-vector-items
-  (fn
-    (toks acc)
-    (if
-      (not toks)
-      {:items acc :rest toks}
-      (let
-        ((tok (nth toks 0)))
-        (let
-          ((type (get tok "type")))
-          (cond
-            ((= type "eof") {:items acc :rest toks})
-            ((= type "rparen") {:items acc :rest (rest toks)})
-            (:else
-              (let
-                ((item (cl-read-form toks)))
-                (cl-read-vector-items
-                  (get item "rest")
-                  (concat acc (list (get item "form"))))))))))))
-
-;; ── lambda-list parser ───────────────────────────────────────────
-;;
-;; (cl-parse-lambda-list forms) — parse a list of CL forms (already read)
-;; into a structured dict:
-;;   {:required (list sym ...)
-;;    :optional (list {:name N :default D :supplied S} ...)
-;;    :rest     nil | "SYM"
-;;    :key      (list {:name N :keyword K :default D :supplied S} ...)
-;;    :allow-other-keys false | true
-;;    :aux      (list {:name N :init I} ...)}
-;;
-;; Symbols arrive as SX strings (upcase). &-markers are strings like "&OPTIONAL".
-;; Key params: keyword is the upcase name string; caller uses it as :keyword.
-;; Supplied-p: nil when absent.
-
-(define
-  cl-parse-opt-spec
-  (fn
-    (spec)
-    (if
-      (list? spec)
-      {:name (nth spec 0)
-        :default (if (> (len spec) 1) (nth spec 1) nil)
-        :supplied (if (> (len spec) 2) (nth spec 2) nil)}
-      {:name spec :default nil :supplied nil})))
-
-(define
-  cl-parse-key-spec
-  (fn
-    (spec)
-    (if
-      (list? spec)
-      (let
-        ((first (nth spec 0)))
-        (if
-          (list? first)
-          ;; ((:keyword var) default supplied-p)
-          {:name (nth first 1)
-            :keyword (get first "name")
-            :default (if (> (len spec) 1) (nth spec 1) nil)
-            :supplied (if (> (len spec) 2) (nth spec 2) nil)}
-          ;; (var default supplied-p)
-          {:name first
-            :keyword first
-            :default (if (> (len spec) 1) (nth spec 1) nil)
-            :supplied (if (> (len spec) 2) (nth spec 2) nil)}))
-      {:name spec :keyword spec :default nil :supplied nil})))
-
-(define
-  cl-parse-aux-spec
-  (fn
-    (spec)
-    (if
-      (list? spec)
-      {:name (nth spec 0) :init (if (> (len spec) 1) (nth spec 1) nil)}
-      {:name spec :init nil})))
-
-(define
-  cl-parse-lambda-list
-  (fn
-    (forms)
-    (let
-      ((state "required")
-        (required (list))
-        (optional (list))
-        (rest-name nil)
-        (key (list))
-        (allow-other-keys false)
-        (aux (list)))
-
-      (define
-        scan
-        (fn
-          (items)
-          (when
-            (> (len items) 0)
-            (let
-              ((item (nth items 0)) (tail (rest items)))
-              (cond
-                ((= item "&OPTIONAL")
-                  (do (set! state "optional") (scan tail)))
-                ((= item "&REST")
-                  (do (set! state "rest") (scan tail)))
-                ((= item "&BODY")
-                  (do (set! state "rest") (scan tail)))
-                ((= item "&KEY")
-                  (do (set! state "key") (scan tail)))
-                ((= item "&AUX")
-                  (do (set! state "aux") (scan tail)))
-                ((= item "&ALLOW-OTHER-KEYS")
-                  (do (set! allow-other-keys true) (scan tail)))
-                ((= state "required")
-                  (do (append! required item) (scan tail)))
-                ((= state "optional")
-                  (do (append! optional (cl-parse-opt-spec item)) (scan tail)))
-                ((= state "rest")
-                  (do (set! rest-name item) (set! state "done") (scan tail)))
-                ((= state "key")
-                  (do (append! key (cl-parse-key-spec item)) (scan tail)))
-                ((= state "aux")
-                  (do (append! aux (cl-parse-aux-spec item)) (scan tail)))
-                (:else (scan tail)))))))
-
-      (scan forms)
-      {:required required
-        :optional optional
-        :rest rest-name
-        :key key
-        :allow-other-keys allow-other-keys
-        :aux aux})))
-
-;; Convenience: parse lambda list from a CL source string
-(define
-  cl-parse-lambda-list-str
-  (fn
-    (src)
-    (cl-parse-lambda-list (cl-read src))))
-
-;; ── public API ────────────────────────────────────────────────────
-
-(define
-  cl-read
-  (fn
-    (src)
-    (let
-      ((toks (cl-tokenize src)))
-      (get (cl-read-form toks) "form"))))
-
-(define
-  cl-read-all
-  (fn
-    (src)
-    (let
-      ((toks (cl-tokenize src)))
-      (define
-        loop
-        (fn
-          (toks acc)
-          (if
-            (or (not toks) (= (get (nth toks 0) "type") "eof"))
-            acc
-            (let
-              ((result (cl-read-form toks)))
-              (if
-                (get result "eof")
-                acc
-                (loop (get result "rest") (concat acc (list (get result "form")))))))))
-      (loop toks (list)))))
--- a/lib/common-lisp/reader.sx
+++ b/lib/common-lisp/reader.sx
@@ -1,381 +0,0 @@
-;; Common Lisp tokenizer
-;;
-;; Tokens: {:type T :value V :pos P}
-;;
-;; Types:
-;;   "symbol"      — FOO, PKG:SYM, PKG::SYM, T, NIL (upcase)
-;;   "keyword"     — :foo (value is upcase name without colon)
-;;   "integer"     — 42, -5, #xFF, #b1010, #o17 (string)
-;;   "float"       — 3.14, 1.0e10 (string)
-;;   "ratio"       — 1/3 (string "N/D")
-;;   "string"      — unescaped content
-;;   "char"        — single-character string
-;;   "lparen"  "rparen"  "quote"  "backquote"  "comma"  "comma-at"
-;;   "hash-quote"  — #'
-;;   "hash-paren"  — #(
-;;   "uninterned"  — #:foo (upcase name)
-;;   "dot"         — standalone . (dotted pair separator)
-;;   "eof"
-
-(define cl-make-tok (fn (type value pos) {:type type :value value :pos pos}))
-
-;; ── char ordinal table ────────────────────────────────────────────
-
-(define
-  cl-ord-table
-  (let
-    ((t (dict)) (i 0))
-    (define
-      cl-fill
-      (fn
-        ()
-        (when
-          (< i 128)
-          (do
-            (dict-set! t (char-from-code i) i)
-            (set! i (+ i 1))
-            (cl-fill)))))
-    (cl-fill)
-    t))
-
-(define cl-ord (fn (c) (or (get cl-ord-table c) 0)))
-
-;; ── character predicates ──────────────────────────────────────────
-
-(define cl-digit? (fn (c) (and (>= (cl-ord c) 48) (<= (cl-ord c) 57))))
-
-(define
-  cl-hex?
-  (fn
-    (c)
-    (or
-      (cl-digit? c)
-      (and (>= (cl-ord c) 65) (<= (cl-ord c) 70))
-      (and (>= (cl-ord c) 97) (<= (cl-ord c) 102)))))
-
-(define cl-octal? (fn (c) (and (>= (cl-ord c) 48) (<= (cl-ord c) 55))))
-
-(define cl-binary? (fn (c) (or (= c "0") (= c "1"))))
-
-(define cl-ws? (fn (c) (or (= c " ") (= c "\t") (= c "\n") (= c "\r"))))
-
-(define
-  cl-alpha?
-  (fn
-    (c)
-    (or
-      (and (>= (cl-ord c) 65) (<= (cl-ord c) 90))
-      (and (>= (cl-ord c) 97) (<= (cl-ord c) 122)))))
-
-;; Characters that end a token (whitespace + terminating macro chars)
-(define
-  cl-terminating?
-  (fn
-    (c)
-    (or
-      (cl-ws? c)
-      (= c "(")
-      (= c ")")
-      (= c "\"")
-      (= c ";")
-      (= c "`")
-      (= c ","))))
-
-;; Symbol constituent: not terminating, not reader-special
-(define
-  cl-sym-char?
-  (fn
-    (c)
-    (not
-      (or
-        (cl-terminating? c)
-        (= c "#")
-        (= c "|")
-        (= c "\\")
-        (= c "'")))))
-
-;; ── named character table ─────────────────────────────────────────
-
-(define
-  cl-named-chars
-  {:space " "
-    :newline "\n"
-    :tab "\t"
-    :return "\r"
-    :backspace (char-from-code 8)
-    :rubout (char-from-code 127)
-    :delete (char-from-code 127)
-    :escape (char-from-code 27)
-    :altmode (char-from-code 27)
-    :null (char-from-code 0)
-    :nul (char-from-code 0)
-    :page (char-from-code 12)
-    :formfeed (char-from-code 12)})
-
-;; ── main tokenizer ────────────────────────────────────────────────
-
-(define
-  cl-tokenize
-  (fn
-    (src)
-    (let
-      ((pos 0) (n (string-length src)) (toks (list)))
-
-      (define at (fn () (if (< pos n) (substring src pos (+ pos 1)) nil)))
-      (define peek1 (fn () (if (< (+ pos 1) n) (substring src (+ pos 1) (+ pos 2)) nil)))
-      (define adv (fn () (set! pos (+ pos 1))))
-
-      ;; Advance while predicate holds; return substring from start to end
-      (define
-        read-while
-        (fn
-          (pred)
-          (let
-            ((start pos))
-            (define
-              rw-loop
-              (fn
-                ()
-                (when
-                  (and (at) (pred (at)))
-                  (do (adv) (rw-loop)))))
-            (rw-loop)
-            (substring src start pos))))
-
-      (define
-        skip-line
-        (fn
-          ()
-          (when
-            (and (at) (not (= (at) "\n")))
-            (do (adv) (skip-line)))))
-
-      (define
-        skip-block
-        (fn
-          (depth)
-          (when
-            (at)
-            (cond
-              ((and (= (at) "#") (= (peek1) "|"))
-                (do (adv) (adv) (skip-block (+ depth 1))))
-              ((and (= (at) "|") (= (peek1) "#"))
-                (do
-                  (adv)
-                  (adv)
-                  (when (> depth 1) (skip-block (- depth 1)))))
-              (:else (do (adv) (skip-block depth)))))))
-
-      ;; Read string literal — called with pos just past opening "
-      (define
-        read-str
-        (fn
-          (acc)
-          (if
-            (not (at))
-            acc
-            (cond
-              ((= (at) "\"") (do (adv) acc))
-              ((= (at) "\\")
-                (do
-                  (adv)
-                  (let
-                    ((e (at)))
-                    (adv)
-                    (read-str
-                      (str
-                        acc
-                        (cond
-                          ((= e "n") "\n")
-                          ((= e "t") "\t")
-                          ((= e "r") "\r")
-                          ((= e "\"") "\"")
-                          ((= e "\\") "\\")
-                          (:else e)))))))
-              (:else
-                (let
-                  ((c (at)))
-                  (adv)
-                  (read-str (str acc c))))))))
-
-      ;; Read #\ char literal — called with pos just past the backslash
-      (define
-        read-char-lit
-        (fn
-          ()
-          (let
-            ((first (at)))
-            (adv)
-            (let
-              ((rest (if (and (at) (cl-alpha? (at))) (read-while cl-alpha?) "")))
-              (if
-                (= rest "")
-                first
-                (let
-                  ((name (downcase (str first rest))))
-                  (or (get cl-named-chars name) first)))))))
-
-      ;; Number scanner — called with pos just past first digit(s).
-      ;; acc holds what was already consumed (first digit or sign+digit).
-      (define
-        scan-num
-        (fn
-          (p acc)
-          (let
-            ((more (read-while cl-digit?)))
-            (set! acc (str acc more))
-            (cond
-              ;; ratio N/D
-              ((and (at) (= (at) "/") (peek1) (cl-digit? (peek1)))
-                (do
-                  (adv)
-                  (let
-                    ((denom (read-while cl-digit?)))
-                    {:type "ratio" :value (str acc "/" denom) :pos p})))
-              ;; float: decimal point N.M[eE]
-              ((and (at) (= (at) ".") (peek1) (cl-digit? (peek1)))
-                (do
-                  (adv)
-                  (let
-                    ((frac (read-while cl-digit?)))
-                    (set! acc (str acc "." frac))
-                    (when
-                      (and (at) (or (= (at) "e") (= (at) "E")))
-                      (do
-                        (set! acc (str acc (at)))
-                        (adv)
-                        (when
-                          (and (at) (or (= (at) "+") (= (at) "-")))
-                          (do (set! acc (str acc (at))) (adv)))
-                        (set! acc (str acc (read-while cl-digit?)))))
-                    {:type "float" :value acc :pos p})))
-              ;; float: exponent only NeE
-              ((and (at) (or (= (at) "e") (= (at) "E")))
-                (do
-                  (set! acc (str acc (at)))
-                  (adv)
-                  (when
-                    (and (at) (or (= (at) "+") (= (at) "-")))
-                    (do (set! acc (str acc (at))) (adv)))
-                  (set! acc (str acc (read-while cl-digit?)))
-                  {:type "float" :value acc :pos p}))
-              (:else {:type "integer" :value acc :pos p})))))
-
-      (define
-        read-radix
-        (fn
-          (letter p)
-          (let
-            ((pred
-                (cond
-                  ((or (= letter "x") (= letter "X")) cl-hex?)
-                  ((or (= letter "b") (= letter "B")) cl-binary?)
-                  ((or (= letter "o") (= letter "O")) cl-octal?)
-                  (:else cl-digit?))))
-            {:type "integer"
-              :value (str "#" letter (read-while pred))
-              :pos p})))
-
-      (define emit (fn (tok) (append! toks tok)))
-
-      (define
-        scan
-        (fn
-          ()
-          (when
-            (< pos n)
-            (let
-              ((c (at)) (p pos))
-              (cond
-                ((cl-ws? c) (do (adv) (scan)))
-                ((= c ";") (do (adv) (skip-line) (scan)))
-                ((= c "(") (do (adv) (emit (cl-make-tok "lparen" "(" p)) (scan)))
-                ((= c ")") (do (adv) (emit (cl-make-tok "rparen" ")" p)) (scan)))
-                ((= c "'") (do (adv) (emit (cl-make-tok "quote" "'" p)) (scan)))
-                ((= c "`") (do (adv) (emit (cl-make-tok "backquote" "`" p)) (scan)))
-                ((= c ",")
-                  (do
-                    (adv)
-                    (if
-                      (= (at) "@")
-                      (do (adv) (emit (cl-make-tok "comma-at" ",@" p)))
-                      (emit (cl-make-tok "comma" "," p)))
-                    (scan)))
-                ((= c "\"")
-                  (do
-                    (adv)
-                    (emit (cl-make-tok "string" (read-str "") p))
-                    (scan)))
-                ;; :keyword
-                ((= c ":")
-                  (do
-                    (adv)
-                    (emit (cl-make-tok "keyword" (upcase (read-while cl-sym-char?)) p))
-                    (scan)))
-                ;; dispatch macro #
-                ((= c "#")
-                  (do
-                    (adv)
-                    (let
-                      ((d (at)))
-                      (cond
-                        ((= d "'") (do (adv) (emit (cl-make-tok "hash-quote" "#'" p)) (scan)))
-                        ((= d "(") (do (adv) (emit (cl-make-tok "hash-paren" "#(" p)) (scan)))
-                        ((= d ":")
-                          (do
-                            (adv)
-                            (emit
-                              (cl-make-tok "uninterned" (upcase (read-while cl-sym-char?)) p))
-                            (scan)))
-                        ((= d "|") (do (adv) (skip-block 1) (scan)))
-                        ((= d "\\")
-                          (do (adv) (emit (cl-make-tok "char" (read-char-lit) p)) (scan)))
-                        ((or (= d "x") (= d "X"))
-                          (do (adv) (emit (read-radix d p)) (scan)))
-                        ((or (= d "b") (= d "B"))
-                          (do (adv) (emit (read-radix d p)) (scan)))
-                        ((or (= d "o") (= d "O"))
-                          (do (adv) (emit (read-radix d p)) (scan)))
-                        (:else (scan))))))
-                ;; standalone dot, float .5, or symbol starting with dots
-                ((= c ".")
-                  (do
-                    (adv)
-                    (cond
-                      ((or (not (at)) (cl-terminating? (at)))
-                        (do (emit (cl-make-tok "dot" "." p)) (scan)))
-                      ((cl-digit? (at))
-                        (do
-                          (emit
-                            (cl-make-tok "float" (str "0." (read-while cl-digit?)) p))
-                          (scan)))
-                      (:else
-                        (do
-                          (emit
-                            (cl-make-tok "symbol" (upcase (str "." (read-while cl-sym-char?))) p))
-                          (scan))))))
-                ;; sign followed by digit → number
-                ((and (or (= c "+") (= c "-")) (peek1) (cl-digit? (peek1)))
-                  (do
-                    (adv)
-                    (let
-                      ((first-d (at)))
-                      (adv)
-                      (emit (scan-num p (str c first-d))))
-                    (scan)))
-                ;; decimal digit → number
-                ((cl-digit? c)
-                  (do
-                    (adv)
-                    (emit (scan-num p c))
-                    (scan)))
-                ;; symbol constituent (includes bare +, -, etc.)
-                ((cl-sym-char? c)
-                  (do
-                    (emit (cl-make-tok "symbol" (upcase (read-while cl-sym-char?)) p))
-                    (scan)))
-                (:else (do (adv) (scan))))))))
-
-      (scan)
-      (append! toks (cl-make-tok "eof" nil n))
-      toks)))
--- a/lib/common-lisp/runtime.sx
+++ b/lib/common-lisp/runtime.sx
@@ -1,724 +0,0 @@
-;; lib/common-lisp/runtime.sx — CL built-ins + condition system on SX
-;;
-;; Section 1-9:  Type predicates, arithmetic, characters, strings, gensym,
-;;               multiple values, sets, radix formatting, list utilities.
-;; Section 10:   Condition system (define-condition, signal/error/warn,
-;;               handler-bind, handler-case, restart-case, invoke-restart).
-;;
-;; Primitives used from spec:
-;;   char/char->integer/integer->char/char-upcase/char-downcase
-;;   format   gensym   rational/rational?   make-set/set-member?/etc
-;;   modulo/remainder/quotient/gcd/lcm/expt   number->string
-
-;; ---------------------------------------------------------------------------
-;; 1.  Type predicates
-;; ---------------------------------------------------------------------------
-
-(define (cl-null? x) (= x nil))
-(define (cl-consp? x) (and (list? x) (not (cl-empty? x))))
-(define (cl-listp? x) (or (cl-empty? x) (list? x)))
-(define (cl-atom? x) (not (cl-consp? x)))
-
-(define
-  (cl-numberp? x)
-  (let ((t (type-of x))) (or (= t "number") (= t "rational"))))
-
-(define cl-integerp? integer?)
-(define cl-floatp? float?)
-(define cl-rationalp? rational?)
-
-(define (cl-realp? x) (or (integer? x) (float? x) (rational? x)))
-
-(define cl-characterp? char?)
-(define cl-stringp? (fn (x) (= (type-of x) "string")))
-(define cl-symbolp? (fn (x) (= (type-of x) "symbol")))
-(define cl-keywordp? (fn (x) (= (type-of x) "keyword")))
-
-(define
-  (cl-functionp? x)
-  (let
-    ((t (type-of x)))
-    (or
-      (= t "function")
-      (= t "lambda")
-      (= t "native-fn")
-      (= t "component"))))
-
-(define cl-vectorp? vector?)
-(define cl-arrayp? vector?)
-
-;; sx_server: (rest (list x)) returns () not nil — cl-empty? handles both
-(define
-  (cl-empty? x)
-  (or (nil? x) (and (list? x) (= (len x) 0))))
-
-;; ---------------------------------------------------------------------------
-;; 2.  Arithmetic — thin aliases to spec primitives
-;; ---------------------------------------------------------------------------
-
-(define cl-mod modulo)
-(define cl-rem remainder)
-(define cl-gcd gcd)
-(define cl-lcm lcm)
-(define cl-expt expt)
-(define cl-floor floor)
-(define cl-ceiling ceil)
-(define cl-truncate truncate)
-(define cl-round round)
-(define cl-abs (fn (x) (if (< x 0) (- 0 x) x)))
-(define cl-min (fn (a b) (if (< a b) a b)))
-(define cl-max (fn (a b) (if (> a b) a b)))
-(define cl-quotient quotient)
-
-(define
-  (cl-signum x)
-  (cond
-    ((> x 0) 1)
-    ((< x 0) -1)
-    (else 0)))
-
-(define (cl-evenp? n) (= (modulo n 2) 0))
-(define (cl-oddp? n) (= (modulo n 2) 1))
-(define (cl-zerop? n) (= n 0))
-(define (cl-plusp? n) (> n 0))
-(define (cl-minusp? n) (< n 0))
-
-;; ---------------------------------------------------------------------------
-;; 3.  Character functions — alias spec char primitives + CL name mapping
-;; ---------------------------------------------------------------------------
-
-(define cl-char->integer char->integer)
-(define cl-integer->char integer->char)
-(define cl-char-upcase char-upcase)
-(define cl-char-downcase char-downcase)
-(define cl-char-code char->integer)
-(define cl-code-char integer->char)
-
-(define cl-char=? char=?)
-(define cl-char<? char<?)
-(define cl-char>? char>?)
-(define cl-char<=? char<=?)
-(define cl-char>=? char>=?)
-(define cl-char-ci=? char-ci=?)
-(define cl-char-ci<? char-ci<?)
-(define cl-char-ci>? char-ci>?)
-
-;; Inline predicates — char-alphabetic?/char-numeric? unreliable in sx_server
-(define
-  (cl-alpha-char-p c)
-  (let
-    ((n (char->integer c)))
-    (or
-      (and (>= n 65) (<= n 90))
-      (and (>= n 97) (<= n 122)))))
-
-(define
-  (cl-digit-char-p c)
-  (let ((n (char->integer c))) (and (>= n 48) (<= n 57))))
-
-(define
-  (cl-alphanumericp c)
-  (let
-    ((n (char->integer c)))
-    (or
-      (and (>= n 48) (<= n 57))
-      (and (>= n 65) (<= n 90))
-      (and (>= n 97) (<= n 122)))))
-
-(define
-  (cl-upper-case-p c)
-  (let ((n (char->integer c))) (and (>= n 65) (<= n 90))))
-
-(define
-  (cl-lower-case-p c)
-  (let ((n (char->integer c))) (and (>= n 97) (<= n 122))))
-
-;; Named character constants
-(define cl-char-space (integer->char 32))
-(define cl-char-newline (integer->char 10))
-(define cl-char-tab (integer->char 9))
-(define cl-char-backspace (integer->char 8))
-(define cl-char-return (integer->char 13))
-(define cl-char-null (integer->char 0))
-(define cl-char-escape (integer->char 27))
-(define cl-char-delete (integer->char 127))
-
-;; ---------------------------------------------------------------------------
-;; 4.  String + IO — use spec format and ports
-;; ---------------------------------------------------------------------------
-
-;; CL format: (cl-format nil "~a ~a" x y) — nil destination means return string
-(define
-  (cl-format dest template &rest args)
-  (let ((s (apply format (cons template args)))) (if (= dest nil) s s)))
-
-(define cl-write-to-string write-to-string)
-(define cl-princ-to-string display-to-string)
-
-;; CL read-from-string: parse value from a string using SX port
-(define
-  (cl-read-from-string s)
-  (let ((p (open-input-string s))) (read p)))
-
-;; String stream (output)
-(define cl-make-string-output-stream open-output-string)
-(define cl-get-output-stream-string get-output-string)
-
-;; String stream (input)
-(define cl-make-string-input-stream open-input-string)
-
-;; ---------------------------------------------------------------------------
-;; 5.  Gensym
-;; ---------------------------------------------------------------------------
-
-(define cl-gensym gensym)
-(define cl-gentemp gensym)
-
-;; ---------------------------------------------------------------------------
-;; 6.  Multiple values (CL: values / nth-value)
-;; ---------------------------------------------------------------------------
-
-(define (cl-values &rest args) {:_values true :_list args})
-
-(define
-  (cl-call-with-values producer consumer)
-  (let
-    ((mv (producer)))
-    (if
-      (and (dict? mv) (get mv :_values))
-      (apply consumer (get mv :_list))
-      (consumer mv))))
-
-(define
-  (cl-nth-value n mv)
-  (cond
-    ((and (dict? mv) (get mv :_values))
-      (let
-        ((lst (get mv :_list)))
-        (if (>= n (len lst)) nil (nth lst n))))
-    ((= n 0) mv)
-    (else nil)))
-
-;; ---------------------------------------------------------------------------
-;; 7.  Sets (CL: adjoin / member / union / intersection / set-difference)
-;; ---------------------------------------------------------------------------
-
-(define cl-make-set make-set)
-(define cl-set? set?)
-(define cl-set-add set-add!)
-(define cl-set-memberp set-member?)
-(define cl-set-remove set-remove!)
-(define cl-set-union set-union)
-(define cl-set-intersect set-intersection)
-(define cl-set-difference set-difference)
-(define cl-list->set list->set)
-(define cl-set->list set->list)
-
-;; CL: (member item list) — returns tail starting at item, or nil
-(define
-  (cl-member item lst)
-  (cond
-    ((cl-empty? lst) nil)
-    ((equal? item (first lst)) lst)
-    (else (cl-member item (rest lst)))))
-
-;; CL: (adjoin item list) — cons only if not already present
-(define (cl-adjoin item lst) (if (cl-member item lst) lst (cons item lst)))
-
-;; ---------------------------------------------------------------------------
-;; 8.  Radix formatting  (CL: (write-to-string n :base radix))
-;; ---------------------------------------------------------------------------
-
-(define (cl-integer-to-string n radix) (number->string n radix))
-
-(define (cl-string-to-integer s radix) (string->number s radix))
-
-;; CL ~R directive helpers
-(define (cl-format-binary n) (number->string n 2))
-(define (cl-format-octal n) (number->string n 8))
-(define (cl-format-hex n) (number->string n 16))
-(define (cl-format-decimal n) (number->string n 10))
-
-;; ---------------------------------------------------------------------------
-;; 9.  List utilities — cl-empty? guards against () from rest
-;; ---------------------------------------------------------------------------
-
-(define
-  (cl-last lst)
-  (cond
-    ((cl-empty? lst) nil)
-    ((cl-empty? (rest lst)) lst)
-    (else (cl-last (rest lst)))))
-
-(define
-  (cl-butlast lst)
-  (if
-    (or (cl-empty? lst) (cl-empty? (rest lst)))
-    nil
-    (cons (first lst) (cl-butlast (rest lst)))))
-
-(define
-  (cl-nthcdr n lst)
-  (if (= n 0) lst (cl-nthcdr (- n 1) (rest lst))))
-
-(define (cl-nth n lst) (first (cl-nthcdr n lst)))
-
-(define (cl-list-length lst) (len lst))
-
-(define
-  (cl-copy-list lst)
-  (if (cl-empty? lst) nil (cons (first lst) (cl-copy-list (rest lst)))))
-
-(define
-  (cl-flatten lst)
-  (cond
-    ((cl-empty? lst) nil)
-    ((list? (first lst))
-      (append (cl-flatten (first lst)) (cl-flatten (rest lst))))
-    (else (cons (first lst) (cl-flatten (rest lst))))))
-
-;; CL: (assoc key alist) — returns matching pair or nil
-(define
-  (cl-assoc key alist)
-  (cond
-    ((cl-empty? alist) nil)
-    ((equal? key (first (first alist))) (first alist))
-    (else (cl-assoc key (rest alist)))))
-
-;; CL: (rassoc val alist) — reverse assoc (match on second element)
-(define
-  (cl-rassoc val alist)
-  (cond
-    ((cl-empty? alist) nil)
-    ((equal? val (first (rest (first alist)))) (first alist))
-    (else (cl-rassoc val (rest alist)))))
-
-;; CL: (getf plist key) — property list lookup
-(define
-  (cl-getf plist key)
-  (cond
-    ((or (cl-empty? plist) (cl-empty? (rest plist))) nil)
-    ((equal? (first plist) key) (first (rest plist)))
-    (else (cl-getf (rest (rest plist)) key))))
-
-;; ---------------------------------------------------------------------------
-;; 10.  Condition system (Phase 3)
-;;
-;; Condition objects:
-;;   {:cl-type "cl-condition" :class "NAME" :slots {slot-name val ...}}
-;;
-;; The built-in handler-bind / restart-case expect LITERAL handler specs in
-;; source (they operate on the raw AST), so we implement our own handler and
-;; restart stacks as mutable SX globals.
-;; ---------------------------------------------------------------------------
-
-;; ── condition class registry ───────────────────────────────────────────────
-;;
-;; Populated at load time with all ANSI standard condition types.
-;; Also mutated by cl-define-condition.
-
-(define
-  cl-condition-classes
-  (dict
-    "condition"
-    {:parents (list) :slots (list) :name "condition"}
-    "serious-condition"
-    {:parents (list "condition") :slots (list) :name "serious-condition"}
-    "error"
-    {:parents (list "serious-condition") :slots (list) :name "error"}
-    "warning"
-    {:parents (list "condition") :slots (list) :name "warning"}
-    "simple-condition"
-    {:parents (list "condition") :slots (list "format-control" "format-arguments") :name "simple-condition"}
-    "simple-error"
-    {:parents (list "error" "simple-condition") :slots (list "format-control" "format-arguments") :name "simple-error"}
-    "simple-warning"
-    {:parents (list "warning" "simple-condition") :slots (list "format-control" "format-arguments") :name "simple-warning"}
-    "type-error"
-    {:parents (list "error") :slots (list "datum" "expected-type") :name "type-error"}
-    "arithmetic-error"
-    {:parents (list "error") :slots (list "operation" "operands") :name "arithmetic-error"}
-    "division-by-zero"
-    {:parents (list "arithmetic-error") :slots (list) :name "division-by-zero"}
-    "cell-error"
-    {:parents (list "error") :slots (list "name") :name "cell-error"}
-    "unbound-variable"
-    {:parents (list "cell-error") :slots (list) :name "unbound-variable"}
-    "undefined-function"
-    {:parents (list "cell-error") :slots (list) :name "undefined-function"}
-    "program-error"
-    {:parents (list "error") :slots (list) :name "program-error"}
-    "storage-condition"
-    {:parents (list "serious-condition") :slots (list) :name "storage-condition"}))
-
-;; ── condition predicates ───────────────────────────────────────────────────
-
-(define
-  cl-condition?
-  (fn (x) (and (dict? x) (= (get x "cl-type") "cl-condition"))))
-
-;; cl-condition-of-type? walks the class hierarchy.
-;; We capture cl-condition-classes at define time via let to avoid
-;; free-variable scoping issues at call time.
-
-(define
-  cl-condition-of-type?
-  (let
-    ((classes cl-condition-classes))
-    (fn
-      (c type-name)
-      (if
-        (not (cl-condition? c))
-        false
-        (let
-          ((class-name (get c "class")))
-          (define
-            check
-            (fn
-              (n)
-              (if
-                (= n type-name)
-                true
-                (let
-                  ((entry (get classes n)))
-                  (if
-                    (nil? entry)
-                    false
-                    (some (fn (p) (check p)) (get entry "parents")))))))
-          (check class-name))))))
-
-;; ── condition constructors ─────────────────────────────────────────────────
-
-;; cl-define-condition registers a new condition class.
-;; name:       string (condition class name)
-;; parents:    list of strings (parent class names)
-;; slot-names: list of strings
-
-(define
-  cl-define-condition
-  (fn
-    (name parents slot-names)
-    (begin (dict-set! cl-condition-classes name {:parents parents :slots slot-names :name name}) name)))
-
-;; cl-make-condition constructs a condition object.
-;; Keyword args (alternating slot-name/value pairs) populate the slots dict.
-
-(define
-  cl-make-condition
-  (fn
-    (name &rest kw-args)
-    (let
-      ((slots (dict)))
-      (define
-        fill
-        (fn
-          (args)
-          (when
-            (>= (len args) 2)
-            (begin
-              (dict-set! slots (first args) (first (rest args)))
-              (fill (rest (rest args)))))))
-      (fill kw-args)
-      {:cl-type "cl-condition" :slots slots :class name})))
-
-;; ── condition accessors ────────────────────────────────────────────────────
-
-(define
-  cl-condition-slot
-  (fn
-    (c slot-name)
-    (if (cl-condition? c) (get (get c "slots") slot-name) nil)))
-
-(define
-  cl-condition-message
-  (fn
-    (c)
-    (if
-      (not (cl-condition? c))
-      (str c)
-      (let
-        ((slots (get c "slots")))
-        (or
-          (get slots "message")
-          (get slots "format-control")
-          (str "Condition: " (get c "class")))))))
-
-(define
-  cl-simple-condition-format-control
-  (fn (c) (cl-condition-slot c "format-control")))
-
-(define
-  cl-simple-condition-format-arguments
-  (fn (c) (cl-condition-slot c "format-arguments")))
-
-(define cl-type-error-datum (fn (c) (cl-condition-slot c "datum")))
-
-(define
-  cl-type-error-expected-type
-  (fn (c) (cl-condition-slot c "expected-type")))
-
-(define
-  cl-arithmetic-error-operation
-  (fn (c) (cl-condition-slot c "operation")))
-
-(define
-  cl-arithmetic-error-operands
-  (fn (c) (cl-condition-slot c "operands")))
-
-;; ── mutable handler + restart stacks ──────────────────────────────────────
-;;
-;; Handler entry: {:type "type-name" :fn (fn (condition) result)}
-;; Restart entry: {:name "restart-name" :fn (fn (&optional arg) result) :escape k}
-;;
-;; New handlers are prepended (checked first = most recent handler wins).
-
-(define cl-handler-stack (list))
-(define cl-restart-stack (list))
-
-(define
-  cl-push-handlers
-  (fn (entries) (set! cl-handler-stack (append entries cl-handler-stack))))
-
-(define
-  cl-pop-handlers
-  (fn
-    (n)
-    (set! cl-handler-stack (slice cl-handler-stack n (len cl-handler-stack)))))
-
-(define
-  cl-push-restarts
-  (fn (entries) (set! cl-restart-stack (append entries cl-restart-stack))))
-
-(define
-  cl-pop-restarts
-  (fn
-    (n)
-    (set! cl-restart-stack (slice cl-restart-stack n (len cl-restart-stack)))))
-
-;; ── *debugger-hook* + invoke-debugger ────────────────────────────────────
-;;
-;; cl-debugger-hook: called when an error propagates with no handler.
-;; Signature: (fn (condition hook) result). The hook arg is itself
-;; (so the hook can rebind it to nil to prevent recursion).
-;; nil = use default (re-raise as host error).
-
-(define cl-debugger-hook nil)
-
-(define cl-invoke-debugger
-  (fn (c)
-    (if (nil? cl-debugger-hook)
-      (error (str "Debugger: " (cl-condition-message c)))
-      (let ((hook cl-debugger-hook))
-        (set! cl-debugger-hook nil)
-        (let ((result (hook c hook)))
-          (set! cl-debugger-hook hook)
-          result)))))
-
-;; ── *break-on-signals* ────────────────────────────────────────────────────
-;;
-;; When set to a type name string, cl-signal invokes the debugger hook
-;; before walking handlers if the condition is of that type.
-;; nil = disabled (ANSI default).
-
-(define cl-break-on-signals nil)
-
-;; ── invoke-restart-interactively ──────────────────────────────────────────
-;;
-;; Like invoke-restart but calls the restart's fn with no arguments
-;; (real CL would prompt the user for each arg via :interactive).
-
-(define cl-invoke-restart-interactively
-  (fn (name)
-    (let ((entry (cl-find-restart-entry name cl-restart-stack)))
-      (if (nil? entry)
-        (error (str "No active restart: " name))
-        (let ((restart-fn (get entry "fn"))
-              (escape     (get entry "escape")))
-          (escape (restart-fn)))))))
-
-;; ── cl-signal (non-unwinding) ─────────────────────────────────────────────
-;;
-;; Walks cl-handler-stack; for each matching entry, calls the handler fn.
-;; Handlers return normally — signal continues to the next matching handler.
-
-(define
-  cl-signal-obj
-  (fn
-    (obj stack)
-    (if
-      (empty? stack)
-      nil
-      (let
-        ((entry (first stack)))
-        (if
-          (cl-condition-of-type? obj (get entry "type"))
-          (begin ((get entry "fn") obj) (cl-signal-obj obj (rest stack)))
-          (cl-signal-obj obj (rest stack)))))))
-
-(define cl-signal
-  (fn (c)
-    (let ((obj (if (cl-condition? c)
-                 c
-                 (cl-make-condition "simple-condition"
-                   "format-control" (str c)))))
-      ;; *break-on-signals*: invoke debugger hook when type matches
-      (when (and (not (nil? cl-break-on-signals))
-                 (cl-condition-of-type? obj cl-break-on-signals))
-        (cl-invoke-debugger obj))
-      (cl-signal-obj obj cl-handler-stack))))
-
-;; ── cl-error ───────────────────────────────────────────────────────────────
-;;
-;; Signals an error. If no handler catches it, raises a host-level error.
-
-(define
-  cl-error
-  (fn
-    (c &rest args)
-    (let
-      ((obj (cond ((cl-condition? c) c) ((string? c) (cl-make-condition "simple-error" "format-control" c "format-arguments" args)) (:else (cl-make-condition "simple-error" "format-control" (str c))))))
-      (cl-signal-obj obj cl-handler-stack)
-      (cl-invoke-debugger obj))))
-
-;; ── cl-warn ────────────────────────────────────────────────────────────────
-
-(define
-  cl-warn
-  (fn
-    (c &rest args)
-    (let
-      ((obj (cond ((cl-condition? c) c) ((string? c) (cl-make-condition "simple-warning" "format-control" c "format-arguments" args)) (:else (cl-make-condition "simple-warning" "format-control" (str c))))))
-      (cl-signal-obj obj cl-handler-stack))))
-
-;; ── cl-handler-bind (non-unwinding) ───────────────────────────────────────
-;;
-;; bindings: list of (type-name handler-fn) pairs
-;; thunk:    (fn () body)
-
-(define
-  cl-handler-bind
-  (fn
-    (bindings thunk)
-    (let
-      ((entries (map (fn (b) {:fn (first (rest b)) :type (first b)}) bindings)))
-      (begin
-        (cl-push-handlers entries)
-        (let
-          ((result (thunk)))
-          (begin (cl-pop-handlers (len entries)) result))))))
-
-;; ── cl-handler-case (unwinding) ───────────────────────────────────────────
-;;
-;; thunk: (fn () body)
-;; cases: list of (type-name handler-fn) pairs
-;;
-;; Uses call/cc for the escape continuation.
-
-(define
-  cl-handler-case
-  (fn
-    (thunk &rest cases)
-    (call/cc
-      (fn
-        (escape)
-        (let
-          ((entries (map (fn (c) {:fn (fn (x) (escape ((first (rest c)) x))) :type (first c)}) cases)))
-          (begin
-            (cl-push-handlers entries)
-            (let
-              ((result (thunk)))
-              (begin (cl-pop-handlers (len entries)) result))))))))
-
-;; ── cl-restart-case ────────────────────────────────────────────────────────
-;;
-;; thunk:    (fn () body)
-;; restarts: list of (name params body-fn) triples
-;;   body-fn is (fn () val) or (fn (arg) val)
-
-(define
-  cl-restart-case
-  (fn
-    (thunk &rest restarts)
-    (call/cc
-      (fn
-        (escape)
-        (let
-          ((entries (map (fn (r) {:fn (first (rest (rest r))) :escape escape :name (first r)}) restarts)))
-          (begin
-            (cl-push-restarts entries)
-            (let
-              ((result (thunk)))
-              (begin (cl-pop-restarts (len entries)) result))))))))
-
-;; ── cl-with-simple-restart ─────────────────────────────────────────────────
-
-(define
-  cl-with-simple-restart
-  (fn
-    (name description thunk)
-    (cl-restart-case thunk (list name (list) (fn () nil)))))
-
-;; ── find-restart / invoke-restart / compute-restarts ──────────────────────
-
-(define
-  cl-find-restart-entry
-  (fn
-    (name stack)
-    (if
-      (empty? stack)
-      nil
-      (let
-        ((entry (first stack)))
-        (if
-          (= (get entry "name") name)
-          entry
-          (cl-find-restart-entry name (rest stack)))))))
-
-(define
-  cl-find-restart
-  (fn (name) (cl-find-restart-entry name cl-restart-stack)))
-
-(define
-  cl-invoke-restart
-  (fn
-    (name &rest args)
-    (let
-      ((entry (cl-find-restart-entry name cl-restart-stack)))
-      (if
-        (nil? entry)
-        (error (str "No active restart: " name))
-        (let
-          ((restart-fn (get entry "fn")) (escape (get entry "escape")))
-          (escape
-            (if (empty? args) (restart-fn) (restart-fn (first args)))))))))
-
-(define
-  cl-compute-restarts
-  (fn () (map (fn (e) (get e "name")) cl-restart-stack)))
-
-;; ── with-condition-restarts (stub — association is advisory) ──────────────
-
-(define cl-with-condition-restarts (fn (c restarts thunk) (thunk)))
-
-;; ── cl-cerror ──────────────────────────────────────────────────────────────
-;;
-;; Signals a continuable error. The "continue" restart is established;
-;; invoke-restart "continue" to proceed past the error.
-
-
-
-;; ── cl-cerror ──────────────────────────────────────────────────────────────
-;;
-;; Signals a continuable error. The "continue" restart is established;
-;; invoke-restart "continue" to proceed past the error.
-
-(define cl-cerror
-  (fn (continue-string c &rest args)
-    (let ((obj (if (cl-condition? c)
-                 c
-                 (cl-make-condition "simple-error"
-                   "format-control" (str c)
-                   "format-arguments" args))))
-      (cl-restart-case
-        (fn () (cl-signal-obj obj cl-handler-stack))
-        (list "continue" (list) (fn () nil))))))
--- a/lib/common-lisp/scoreboard.json
+++ b/lib/common-lisp/scoreboard.json
@@ -1,19 +0,0 @@
-{
-  "generated": "2026-05-05T12:35:09Z",
-  "total_pass": 518,
-  "total_fail": 0,
-  "suites": [
-    {"name": "Phase 1: tokenizer/reader", "pass": 79, "fail": 0},
-    {"name": "Phase 1: parser/lambda-lists", "pass": 31, "fail": 0},
-    {"name": "Phase 2: evaluator", "pass": 182, "fail": 0},
-    {"name": "Phase 3: condition system", "pass": 59, "fail": 0},
-    {"name": "Phase 3: restart-demo", "pass": 7, "fail": 0},
-    {"name": "Phase 3: parse-recover", "pass": 6, "fail": 0},
-    {"name": "Phase 3: interactive-debugger", "pass": 7, "fail": 0},
-    {"name": "Phase 4: CLOS", "pass": 41, "fail": 0},
-    {"name": "Phase 4: geometry", "pass": 12, "fail": 0},
-    {"name": "Phase 4: mop-trace", "pass": 13, "fail": 0},
-    {"name": "Phase 5: macros+LOOP", "pass": 27, "fail": 0},
-    {"name": "Phase 6: stdlib", "pass": 54, "fail": 0}
-  ]
-}
--- a/lib/common-lisp/scoreboard.md
+++ b/lib/common-lisp/scoreboard.md
@@ -1,20 +0,0 @@
-# Common Lisp on SX — Scoreboard
-
-_Generated: 2026-05-05 12:35 UTC_
-
-| Suite | Pass | Fail | Status |
-|-------|------|------|--------|
-| Phase 1: tokenizer/reader | 79 | 0 | pass |
-| Phase 1: parser/lambda-lists | 31 | 0 | pass |
-| Phase 2: evaluator | 182 | 0 | pass |
-| Phase 3: condition system | 59 | 0 | pass |
-| Phase 3: restart-demo | 7 | 0 | pass |
-| Phase 3: parse-recover | 6 | 0 | pass |
-| Phase 3: interactive-debugger | 7 | 0 | pass |
-| Phase 4: CLOS | 41 | 0 | pass |
-| Phase 4: geometry | 12 | 0 | pass |
-| Phase 4: mop-trace | 13 | 0 | pass |
-| Phase 5: macros+LOOP | 27 | 0 | pass |
-| Phase 6: stdlib | 54 | 0 | pass |
-
-**Total: 518 passed, 0 failed**
--- a/lib/common-lisp/test.sh
+++ b/lib/common-lisp/test.sh
@@ -1,443 +0,0 @@
-#!/usr/bin/env bash
-# lib/common-lisp/test.sh — quick smoke-test the CL runtime layer.
-# Uses sx_server.exe epoch protocol (same as lib/lua/test.sh).
-#
-# Usage:
-#   bash lib/common-lisp/test.sh
-#   bash lib/common-lisp/test.sh -v
-
-set -uo pipefail
-cd "$(git rev-parse --show-toplevel)"
-
-SX_SERVER="${SX_SERVER:-hosts/ocaml/_build/default/bin/sx_server.exe}"
-if [ ! -x "$SX_SERVER" ]; then
-  SX_SERVER="/root/rose-ash/hosts/ocaml/_build/default/bin/sx_server.exe"
-fi
-if [ ! -x "$SX_SERVER" ]; then
-  echo "ERROR: sx_server.exe not found. Run: cd hosts/ocaml && dune build"
-  exit 1
-fi
-
-VERBOSE="${1:-}"
-PASS=0; FAIL=0; ERRORS=""
-TMPFILE=$(mktemp); trap "rm -f $TMPFILE" EXIT
-
-cat > "$TMPFILE" << 'EPOCHS'
-(epoch 1)
-(load "spec/stdlib.sx")
-(load "lib/common-lisp/runtime.sx")
-
-;; --- Type predicates ---
-(epoch 10)
-(eval "(cl-null? nil)")
-(epoch 11)
-(eval "(cl-null? false)")
-(epoch 12)
-(eval "(cl-consp? (list 1 2))")
-(epoch 13)
-(eval "(cl-consp? nil)")
-(epoch 14)
-(eval "(cl-listp? nil)")
-(epoch 15)
-(eval "(cl-listp? (list 1))")
-(epoch 16)
-(eval "(cl-atom? nil)")
-(epoch 17)
-(eval "(cl-atom? (list 1))")
-(epoch 18)
-(eval "(cl-integerp? 42)")
-(epoch 19)
-(eval "(cl-floatp? 3.14)")
-(epoch 20)
-(eval "(cl-characterp? (integer->char 65))")
-(epoch 21)
-(eval "(cl-stringp? \"hello\")")
-
-;; --- Arithmetic ---
-(epoch 30)
-(eval "(cl-mod 10 3)")
-(epoch 31)
-(eval "(cl-rem 10 3)")
-(epoch 32)
-(eval "(cl-quotient 10 3)")
-(epoch 33)
-(eval "(cl-gcd 12 8)")
-(epoch 34)
-(eval "(cl-lcm 4 6)")
-(epoch 35)
-(eval "(cl-abs -5)")
-(epoch 36)
-(eval "(cl-abs 5)")
-(epoch 37)
-(eval "(cl-min 2 7)")
-(epoch 38)
-(eval "(cl-max 2 7)")
-(epoch 39)
-(eval "(cl-evenp? 4)")
-(epoch 40)
-(eval "(cl-evenp? 3)")
-(epoch 41)
-(eval "(cl-oddp? 7)")
-(epoch 42)
-(eval "(cl-zerop? 0)")
-(epoch 43)
-(eval "(cl-plusp? 1)")
-(epoch 44)
-(eval "(cl-minusp? -1)")
-(epoch 45)
-(eval "(cl-signum 42)")
-(epoch 46)
-(eval "(cl-signum -7)")
-(epoch 47)
-(eval "(cl-signum 0)")
-
-;; --- Characters ---
-(epoch 50)
-(eval "(cl-char-code (integer->char 65))")
-(epoch 51)
-(eval "(char? (cl-code-char 65))")
-(epoch 52)
-(eval "(cl-char=? (integer->char 65) (integer->char 65))")
-(epoch 53)
-(eval "(cl-char<? (integer->char 65) (integer->char 90))")
-(epoch 54)
-(eval "(cl-char-code cl-char-space)")
-(epoch 55)
-(eval "(cl-char-code cl-char-newline)")
-(epoch 56)
-(eval "(cl-alpha-char-p (integer->char 65))")
-(epoch 57)
-(eval "(cl-digit-char-p (integer->char 48))")
-
-;; --- Format ---
-(epoch 60)
-(eval "(cl-format nil \"hello\")")
-(epoch 61)
-(eval "(cl-format nil \"~a\" \"world\")")
-(epoch 62)
-(eval "(cl-format nil \"~d\" 42)")
-(epoch 63)
-(eval "(cl-format nil \"~x\" 255)")
-(epoch 64)
-(eval "(cl-format nil \"x=~d y=~d\" 3 4)")
-
-;; --- Gensym ---
-(epoch 70)
-(eval "(= (type-of (cl-gensym)) \"symbol\")")
-(epoch 71)
-(eval "(not (= (cl-gensym) (cl-gensym)))")
-
-;; --- Sets ---
-(epoch 80)
-(eval "(cl-set? (cl-make-set))")
-(epoch 81)
-(eval "(let ((s (cl-make-set))) (do (cl-set-add s 1) (cl-set-memberp s 1)))")
-(epoch 82)
-(eval "(cl-set-memberp (cl-make-set) 42)")
-(epoch 83)
-(eval "(cl-set-memberp (cl-list->set (list 1 2 3)) 2)")
-
-;; --- Lists ---
-(epoch 90)
-(eval "(cl-nth 0 (list 1 2 3))")
-(epoch 91)
-(eval "(cl-nth 2 (list 1 2 3))")
-(epoch 92)
-(eval "(cl-last (list 1 2 3))")
-(epoch 93)
-(eval "(cl-butlast (list 1 2 3))")
-(epoch 94)
-(eval "(cl-nthcdr 1 (list 1 2 3))")
-(epoch 95)
-(eval "(cl-assoc \"b\" (list (list \"a\" 1) (list \"b\" 2)))")
-(epoch 96)
-(eval "(cl-assoc \"z\" (list (list \"a\" 1)))")
-(epoch 97)
-(eval "(cl-getf (list \"x\" 42 \"y\" 99) \"x\")")
-(epoch 98)
-(eval "(cl-adjoin 0 (list 1 2))")
-(epoch 99)
-(eval "(cl-adjoin 1 (list 1 2))")
-(epoch 100)
-(eval "(cl-member 2 (list 1 2 3))")
-(epoch 101)
-(eval "(cl-member 9 (list 1 2 3))")
-(epoch 102)
-(eval "(cl-flatten (list 1 (list 2 3) 4))")
-
-;; --- Radix ---
-(epoch 110)
-(eval "(cl-format-binary 10)")
-(epoch 111)
-(eval "(cl-format-octal 15)")
-(epoch 112)
-(eval "(cl-format-hex 255)")
-(epoch 113)
-(eval "(cl-format-decimal 42)")
-(epoch 114)
-(eval "(cl-integer-to-string 31 16)")
-(epoch 115)
-(eval "(cl-string-to-integer \"1f\" 16)")
-
-EPOCHS
-
-OUTPUT=$(timeout 30 "$SX_SERVER" < "$TMPFILE" 2>/dev/null)
-
-check() {
-  local epoch="$1" desc="$2" expected="$3"
-  local actual
-  # ok-len format: value appears on the line AFTER "(ok-len N length)"
-  actual=$(echo "$OUTPUT" | grep -A1 "^(ok-len $epoch " | tail -1 || true)
-  # strip any leading "(ok-len ...)" if grep -A1 returned it instead
-  if echo "$actual" | grep -q "^(ok-len"; then actual=""; fi
-  if [ -z "$actual" ]; then
-    actual=$(echo "$OUTPUT" | grep "^(ok $epoch " | head -1 || true)
-  fi
-  if [ -z "$actual" ]; then
-    actual=$(echo "$OUTPUT" | grep "^(error $epoch " | head -1 || true)
-  fi
-  [ -z "$actual" ] && actual="<no output for epoch $epoch>"
-
-  if echo "$actual" | grep -qF -- "$expected"; then
-    PASS=$((PASS+1))
-    [ "$VERBOSE" = "-v" ] && echo "  ok $desc"
-  else
-    FAIL=$((FAIL+1))
-    ERRORS+="  FAIL [$desc] (epoch $epoch) expected: $expected | actual: $actual
-"
-  fi
-}
-
-# Type predicates
-check 10  "cl-null? nil"           "true"
-check 11  "cl-null? false"         "false"
-check 12  "cl-consp? pair"         "true"
-check 13  "cl-consp? nil"          "false"
-check 14  "cl-listp? nil"          "true"
-check 15  "cl-listp? list"         "true"
-check 16  "cl-atom? nil"           "true"
-check 17  "cl-atom? pair"          "false"
-check 18  "cl-integerp?"           "true"
-check 19  "cl-floatp?"             "true"
-check 20  "cl-characterp?"         "true"
-check 21  "cl-stringp?"            "true"
-
-# Arithmetic
-check 30  "cl-mod 10 3"            "1"
-check 31  "cl-rem 10 3"            "1"
-check 32  "cl-quotient 10 3"       "3"
-check 33  "cl-gcd 12 8"            "4"
-check 34  "cl-lcm 4 6"             "12"
-check 35  "cl-abs -5"              "5"
-check 36  "cl-abs 5"               "5"
-check 37  "cl-min 2 7"             "2"
-check 38  "cl-max 2 7"             "7"
-check 39  "cl-evenp? 4"            "true"
-check 40  "cl-evenp? 3"            "false"
-check 41  "cl-oddp? 7"             "true"
-check 42  "cl-zerop? 0"            "true"
-check 43  "cl-plusp? 1"            "true"
-check 44  "cl-minusp? -1"          "true"
-check 45  "cl-signum pos"          "1"
-check 46  "cl-signum neg"          "-1"
-check 47  "cl-signum zero"         "0"
-
-# Characters
-check 50  "cl-char-code"           "65"
-check 51  "code-char returns char" "true"
-check 52  "cl-char=?"              "true"
-check 53  "cl-char<?"              "true"
-check 54  "cl-char-space code"     "32"
-check 55  "cl-char-newline code"   "10"
-check 56  "cl-alpha-char-p A"      "true"
-check 57  "cl-digit-char-p 0"      "true"
-
-# Format
-check 60  "cl-format plain"        '"hello"'
-check 61  "cl-format ~a"           '"world"'
-check 62  "cl-format ~d"           '"42"'
-check 63  "cl-format ~x"           '"ff"'
-check 64  "cl-format multi"        '"x=3 y=4"'
-
-# Gensym
-check 70  "gensym returns symbol"  "true"
-check 71  "gensyms are unique"     "true"
-
-# Sets
-check 80  "make-set is set?"       "true"
-check 81  "set-add + member"       "true"
-check 82  "member in empty"        "false"
-check 83  "list->set member"       "true"
-
-# Lists
-check 90  "cl-nth 0"               "1"
-check 91  "cl-nth 2"               "3"
-check 92  "cl-last"                "(3)"
-check 93  "cl-butlast"             "(1 2)"
-check 94  "cl-nthcdr 1"            "(2 3)"
-check 95  "cl-assoc hit"           '("b" 2)'
-check 96  "cl-assoc miss"          "nil"
-check 97  "cl-getf hit"            "42"
-check 98  "cl-adjoin new"          "(0 1 2)"
-check 99  "cl-adjoin dup"          "(1 2)"
-check 100 "cl-member hit"          "(2 3)"
-check 101 "cl-member miss"         "nil"
-check 102 "cl-flatten"             "(1 2 3 4)"
-
-# Radix
-check 110 "cl-format-binary 10"    '"1010"'
-check 111 "cl-format-octal 15"     '"17"'
-check 112 "cl-format-hex 255"      '"ff"'
-check 113 "cl-format-decimal 42"   '"42"'
-check 114 "n->s base 16"           '"1f"'
-check 115 "s->n base 16"           "31"
-
-# ── Phase 2: condition system unit tests ─────────────────────────────────────
-# Load runtime.sx then conditions.sx; query the passed/failed/failures globals.
-UNIT_FILE=$(mktemp); trap "rm -f $UNIT_FILE" EXIT
-cat > "$UNIT_FILE" << 'UNIT'
-(epoch 1)
-(load "spec/stdlib.sx")
-(epoch 2)
-(load "lib/common-lisp/runtime.sx")
-(epoch 3)
-(load "lib/common-lisp/tests/conditions.sx")
-(epoch 4)
-(eval "passed")
-(epoch 5)
-(eval "failed")
-(epoch 6)
-(eval "failures")
-UNIT
-
-UNIT_OUT=$(timeout 30 "$SX_SERVER" < "$UNIT_FILE" 2>/dev/null)
-
-# extract passed/failed counts from ok-len lines
-UNIT_PASSED=$(echo "$UNIT_OUT" | grep -A1 "^(ok-len 4 " | tail -1 || true)
-UNIT_FAILED=$(echo "$UNIT_OUT" | grep -A1 "^(ok-len 5 " | tail -1 || true)
-UNIT_ERRS=$(echo "$UNIT_OUT" | grep -A1 "^(ok-len 6 " | tail -1 || true)
-# fallback: try plain ok lines
-[ -z "$UNIT_PASSED" ] && UNIT_PASSED=$(echo "$UNIT_OUT" | grep "^(ok 4 " | awk '{print $3}' | tr -d ')' || true)
-[ -z "$UNIT_FAILED" ] && UNIT_FAILED=$(echo "$UNIT_OUT" | grep "^(ok 5 " | awk '{print $3}' | tr -d ')' || true)
-[ -z "$UNIT_PASSED" ] && UNIT_PASSED=0
-[ -z "$UNIT_FAILED" ] && UNIT_FAILED=0
-
-if [ "$UNIT_FAILED" = "0" ] && [ "$UNIT_PASSED" -gt 0 ] 2>/dev/null; then
-  PASS=$((PASS + UNIT_PASSED))
-  [ "$VERBOSE" = "-v" ] && echo "  ok condition tests ($UNIT_PASSED)"
-else
-  FAIL=$((FAIL + 1))
-  ERRORS+="  FAIL [condition tests] (${UNIT_PASSED} passed, ${UNIT_FAILED} failed) ${UNIT_ERRS}
-"
-fi
-
-# ── Phase 3: classic program tests ───────────────────────────────────────────
-run_program_suite() {
-  local prog="$1" pass_var="$2" fail_var="$3" failures_var="$4"
-  local PROG_FILE=$(mktemp)
-  printf '(epoch 1)\n(load "spec/stdlib.sx")\n(epoch 2)\n(load "lib/common-lisp/runtime.sx")\n(epoch 3)\n(load "%s")\n(epoch 4)\n(eval "%s")\n(epoch 5)\n(eval "%s")\n(epoch 6)\n(eval "%s")\n' \
-    "$prog" "$pass_var" "$fail_var" "$failures_var" > "$PROG_FILE"
-  local OUT; OUT=$(timeout 20 "$SX_SERVER" < "$PROG_FILE" 2>/dev/null)
-  rm -f "$PROG_FILE"
-  local P F
-  P=$(echo "$OUT" | grep -A1 "^(ok-len 4 " | tail -1 || true)
-  F=$(echo "$OUT" | grep -A1 "^(ok-len 5 " | tail -1 || true)
-  local ERRS; ERRS=$(echo "$OUT" | grep -A1 "^(ok-len 6 " | tail -1 || true)
-  [ -z "$P" ] && P=0; [ -z "$F" ] && F=0
-  if [ "$F" = "0" ] && [ "$P" -gt 0 ] 2>/dev/null; then
-    PASS=$((PASS + P))
-    [ "$VERBOSE" = "-v" ] && echo "  ok $prog ($P)"
-  else
-    FAIL=$((FAIL + 1))
-    ERRORS+="  FAIL [$prog] (${P} passed, ${F} failed) ${ERRS}
-"
-  fi
-}
-
-run_program_suite \
-  "lib/common-lisp/tests/programs/restart-demo.sx" \
-  "demo-passed" "demo-failed" "demo-failures"
-
-run_program_suite \
-  "lib/common-lisp/tests/programs/parse-recover.sx" \
-  "parse-passed" "parse-failed" "parse-failures"
-
-run_program_suite \
-  "lib/common-lisp/tests/programs/interactive-debugger.sx" \
-  "debugger-passed" "debugger-failed" "debugger-failures"
-
-# ── Phase 4: CLOS unit tests ─────────────────────────────────────────────────
-CLOS_FILE=$(mktemp); trap "rm -f $CLOS_FILE" EXIT
-printf '(epoch 1)\n(load "spec/stdlib.sx")\n(epoch 2)\n(load "lib/common-lisp/runtime.sx")\n(epoch 3)\n(load "lib/common-lisp/clos.sx")\n(epoch 4)\n(load "lib/common-lisp/tests/clos.sx")\n(epoch 5)\n(eval "passed")\n(epoch 6)\n(eval "failed")\n(epoch 7)\n(eval "failures")\n' > "$CLOS_FILE"
-CLOS_OUT=$(timeout 30 "$SX_SERVER" < "$CLOS_FILE" 2>/dev/null)
-rm -f "$CLOS_FILE"
-CLOS_PASSED=$(echo "$CLOS_OUT" | grep -A1 "^(ok-len 5 " | tail -1 || true)
-CLOS_FAILED=$(echo "$CLOS_OUT" | grep -A1 "^(ok-len 6 " | tail -1 || true)
-[ -z "$CLOS_PASSED" ] && CLOS_PASSED=$(echo "$CLOS_OUT" | grep "^(ok 5 " | awk '{print $3}' | tr -d ')' || true)
-[ -z "$CLOS_FAILED" ] && CLOS_FAILED=$(echo "$CLOS_OUT" | grep "^(ok 6 " | awk '{print $3}' | tr -d ')' || true)
-[ -z "$CLOS_PASSED" ] && CLOS_PASSED=0; [ -z "$CLOS_FAILED" ] && CLOS_FAILED=0
-if [ "$CLOS_FAILED" = "0" ] && [ "$CLOS_PASSED" -gt 0 ] 2>/dev/null; then
-  PASS=$((PASS + CLOS_PASSED))
-  [ "$VERBOSE" = "-v" ] && echo "  ok CLOS unit tests ($CLOS_PASSED)"
-else
-  FAIL=$((FAIL + 1))
-  ERRORS+="  FAIL [CLOS unit tests] (${CLOS_PASSED} passed, ${CLOS_FAILED} failed)
-"
-fi
-
-# ── Phase 4: CLOS classic programs ───────────────────────────────────────────
-run_clos_suite() {
-  local prog="$1" pass_var="$2" fail_var="$3" failures_var="$4"
-  local PROG_FILE=$(mktemp)
-  printf '(epoch 1)\n(load "spec/stdlib.sx")\n(epoch 2)\n(load "lib/common-lisp/runtime.sx")\n(epoch 3)\n(load "lib/common-lisp/clos.sx")\n(epoch 4)\n(load "%s")\n(epoch 5)\n(eval "%s")\n(epoch 6)\n(eval "%s")\n(epoch 7)\n(eval "%s")\n' \
-    "$prog" "$pass_var" "$fail_var" "$failures_var" > "$PROG_FILE"
-  local OUT; OUT=$(timeout 20 "$SX_SERVER" < "$PROG_FILE" 2>/dev/null)
-  rm -f "$PROG_FILE"
-  local P F
-  P=$(echo "$OUT" | grep -A1 "^(ok-len 5 " | tail -1 || true)
-  F=$(echo "$OUT" | grep -A1 "^(ok-len 6 " | tail -1 || true)
-  local ERRS; ERRS=$(echo "$OUT" | grep -A1 "^(ok-len 7 " | tail -1 || true)
-  [ -z "$P" ] && P=0; [ -z "$F" ] && F=0
-  if [ "$F" = "0" ] && [ "$P" -gt 0 ] 2>/dev/null; then
-    PASS=$((PASS + P))
-    [ "$VERBOSE" = "-v" ] && echo "  ok $prog ($P)"
-  else
-    FAIL=$((FAIL + 1))
-    ERRORS+="  FAIL [$prog] (${P} passed, ${F} failed) ${ERRS}
-"
-  fi
-}
-
-run_clos_suite \
-  "lib/common-lisp/tests/programs/geometry.sx" \
-  "geo-passed" "geo-failed" "geo-failures"
-
-run_clos_suite \
-  "lib/common-lisp/tests/programs/mop-trace.sx" \
-  "mop-passed" "mop-failed" "mop-failures"
-
-# ── Phase 5: macros + LOOP ───────────────────────────────────────────────────
-MACRO_FILE=$(mktemp); trap "rm -f $MACRO_FILE" EXIT
-printf '(epoch 1)\n(load "spec/stdlib.sx")\n(epoch 2)\n(load "lib/common-lisp/reader.sx")\n(epoch 3)\n(load "lib/common-lisp/parser.sx")\n(epoch 4)\n(load "lib/common-lisp/eval.sx")\n(epoch 5)\n(load "lib/common-lisp/loop.sx")\n(epoch 6)\n(load "lib/common-lisp/tests/macros.sx")\n(epoch 7)\n(eval "macro-passed")\n(epoch 8)\n(eval "macro-failed")\n(epoch 9)\n(eval "macro-failures")\n' > "$MACRO_FILE"
-MACRO_OUT=$(timeout 60 "$SX_SERVER" < "$MACRO_FILE" 2>/dev/null)
-rm -f "$MACRO_FILE"
-MACRO_PASSED=$(echo "$MACRO_OUT" | grep -A1 "^(ok-len 7 " | tail -1 || true)
-MACRO_FAILED=$(echo "$MACRO_OUT" | grep -A1 "^(ok-len 8 " | tail -1 || true)
-[ -z "$MACRO_PASSED" ] && MACRO_PASSED=0; [ -z "$MACRO_FAILED" ] && MACRO_FAILED=0
-if [ "$MACRO_FAILED" = "0" ] && [ "$MACRO_PASSED" -gt 0 ] 2>/dev/null; then
-  PASS=$((PASS + MACRO_PASSED))
-  [ "$VERBOSE" = "-v" ] && echo "  ok Phase 5 macros+LOOP ($MACRO_PASSED)"
-else
-  FAIL=$((FAIL + 1))
-  ERRORS+="  FAIL [Phase 5 macros+LOOP] (${MACRO_PASSED} passed, ${MACRO_FAILED} failed)
-"
-fi
-
-TOTAL=$((PASS+FAIL))
-if [ $FAIL -eq 0 ]; then
-  echo "ok $PASS/$TOTAL lib/common-lisp tests passed"
-else
-  echo "FAIL $PASS/$TOTAL passed, $FAIL failed:"
-  echo "$ERRORS"
-fi
-[ $FAIL -eq 0 ]
--- a/lib/common-lisp/tests/clos.sx
+++ b/lib/common-lisp/tests/clos.sx
@@ -1,334 +0,0 @@
-;; lib/common-lisp/tests/clos.sx — CLOS test suite
-;;
-;; Loaded after: spec/stdlib.sx, lib/common-lisp/runtime.sx, lib/common-lisp/clos.sx
-
-(define passed 0)
-(define failed 0)
-(define failures (list))
-
-(define
-  assert-equal
-  (fn
-    (label got expected)
-    (if
-      (= got expected)
-      (set! passed (+ passed 1))
-      (begin
-        (set! failed (+ failed 1))
-        (set!
-          failures
-          (append
-            failures
-            (list
-              (str
-                "FAIL ["
-                label
-                "]: got="
-                (inspect got)
-                " expected="
-                (inspect expected)))))))))
-
-(define
-  assert-true
-  (fn
-    (label got)
-    (if
-      got
-      (set! passed (+ passed 1))
-      (begin
-        (set! failed (+ failed 1))
-        (set!
-          failures
-          (append
-            failures
-            (list
-              (str "FAIL [" label "]: expected true, got " (inspect got)))))))))
-
-(define
-  assert-nil
-  (fn
-    (label got)
-    (if
-      (nil? got)
-      (set! passed (+ passed 1))
-      (begin
-        (set! failed (+ failed 1))
-        (set!
-          failures
-          (append
-            failures
-            (list (str "FAIL [" label "]: expected nil, got " (inspect got)))))))))
-
-;; ── 1. class-of for built-in types ────────────────────────────────────────
-
-(assert-equal "class-of integer" (clos-class-of 42) "integer")
-(assert-equal "class-of float" (clos-class-of 3.14) "float")
-(assert-equal "class-of string" (clos-class-of "hi") "string")
-(assert-equal "class-of nil" (clos-class-of nil) "null")
-(assert-equal "class-of list" (clos-class-of (list 1)) "cons")
-(assert-equal "class-of empty" (clos-class-of (list)) "null")
-
-;; ── 2. subclass-of? ───────────────────────────────────────────────────────
-
-(assert-true "integer subclass-of t" (clos-subclass-of? "integer" "t"))
-(assert-true "float subclass-of t" (clos-subclass-of? "float" "t"))
-(assert-true "t subclass-of t" (clos-subclass-of? "t" "t"))
-(assert-equal
-  "integer not subclass-of float"
-  (clos-subclass-of? "integer" "float")
-  false)
-
-;; ── 3. defclass + make-instance ───────────────────────────────────────────
-
-(clos-defclass "point" (list "t") (list {:initform 0 :initarg ":x" :reader nil :writer nil :accessor "point-x" :name "x"} {:initform 0 :initarg ":y" :reader nil :writer nil :accessor "point-y" :name "y"}))
-
-(let
-  ((p (clos-make-instance "point" ":x" 3 ":y" 4)))
-  (begin
-    (assert-equal "make-instance slot x" (clos-slot-value p "x") 3)
-    (assert-equal "make-instance slot y" (clos-slot-value p "y") 4)
-    (assert-equal "class-of instance" (clos-class-of p) "point")
-    (assert-true "instance-of? point" (clos-instance-of? p "point"))
-    (assert-true "instance-of? t" (clos-instance-of? p "t"))
-    (assert-equal "instance-of? string" (clos-instance-of? p "string") false)))
-
-;; initform defaults
-(let
-  ((p0 (clos-make-instance "point")))
-  (begin
-    (assert-equal "initform default x=0" (clos-slot-value p0 "x") 0)
-    (assert-equal "initform default y=0" (clos-slot-value p0 "y") 0)))
-
-;; ── 4. slot-value / set-slot-value! ──────────────────────────────────────
-
-(let
-  ((p (clos-make-instance "point" ":x" 10 ":y" 20)))
-  (begin
-    (clos-set-slot-value! p "x" 99)
-    (assert-equal "set-slot-value! x" (clos-slot-value p "x") 99)
-    (assert-equal "slot-value y unchanged" (clos-slot-value p "y") 20)))
-
-;; ── 5. slot-boundp ────────────────────────────────────────────────────────
-
-(let
-  ((p (clos-make-instance "point" ":x" 5)))
-  (begin
-    (assert-true "slot-boundp x" (clos-slot-boundp p "x"))
-    (assert-true "slot-boundp y (initform 0)" (clos-slot-boundp p "y"))))
-
-;; ── 6. find-class ─────────────────────────────────────────────────────────
-
-(assert-equal
-  "find-class point"
-  (get (clos-find-class "point") "name")
-  "point")
-(assert-nil "find-class missing" (clos-find-class "no-such-class"))
-
-;; ── 7. inheritance ────────────────────────────────────────────────────────
-
-(clos-defclass "colored-point" (list "point") (list {:initform "white" :initarg ":color" :reader nil :writer nil :accessor nil :name "color"}))
-
-(let
-  ((cp (clos-make-instance "colored-point" ":x" 1 ":y" 2 ":color" "red")))
-  (begin
-    (assert-equal "inherited slot x" (clos-slot-value cp "x") 1)
-    (assert-equal "inherited slot y" (clos-slot-value cp "y") 2)
-    (assert-equal "own slot color" (clos-slot-value cp "color") "red")
-    (assert-true
-      "instance-of? colored-point"
-      (clos-instance-of? cp "colored-point"))
-    (assert-true "instance-of? point (parent)" (clos-instance-of? cp "point"))
-    (assert-true "instance-of? t (root)" (clos-instance-of? cp "t"))))
-
-;; ── 8. defgeneric + primary method ───────────────────────────────────────
-
-(clos-defgeneric "describe-obj" {})
-
-(clos-defmethod
-  "describe-obj"
-  (list)
-  (list "point")
-  (fn
-    (args next-fn)
-    (let
-      ((p (first args)))
-      (str "(" (clos-slot-value p "x") "," (clos-slot-value p "y") ")"))))
-
-(clos-defmethod
-  "describe-obj"
-  (list)
-  (list "t")
-  (fn (args next-fn) (str "object:" (inspect (first args)))))
-
-(let
-  ((p (clos-make-instance "point" ":x" 3 ":y" 4)))
-  (begin
-    (assert-equal
-      "primary method for point"
-      (clos-call-generic "describe-obj" (list p))
-      "(3,4)")
-    (assert-equal
-      "fallback t method"
-      (clos-call-generic "describe-obj" (list 42))
-      "object:42")))
-
-;; ── 9. method inheritance + specificity ───────────────────────────────────
-
-(clos-defmethod
-  "describe-obj"
-  (list)
-  (list "colored-point")
-  (fn
-    (args next-fn)
-    (let
-      ((cp (first args)))
-      (str
-        (clos-slot-value cp "color")
-        "@("
-        (clos-slot-value cp "x")
-        ","
-        (clos-slot-value cp "y")
-        ")"))))
-
-(let
-  ((cp (clos-make-instance "colored-point" ":x" 5 ":y" 6 ":color" "blue")))
-  (assert-equal
-    "most specific method wins"
-    (clos-call-generic "describe-obj" (list cp))
-    "blue@(5,6)"))
-
-;; ── 10. :before / :after / :around qualifiers ─────────────────────────────
-
-(clos-defgeneric "logged-action" {})
-
-(clos-defmethod
-  "logged-action"
-  (list "before")
-  (list "t")
-  (fn (args next-fn) (set! action-log (append action-log (list "before")))))
-
-(clos-defmethod
-  "logged-action"
-  (list)
-  (list "t")
-  (fn
-    (args next-fn)
-    (set! action-log (append action-log (list "primary")))
-    "result"))
-
-(clos-defmethod
-  "logged-action"
-  (list "after")
-  (list "t")
-  (fn (args next-fn) (set! action-log (append action-log (list "after")))))
-
-(define action-log (list))
-(clos-call-generic "logged-action" (list 1))
-(assert-equal
-  ":before/:after order"
-  action-log
-  (list "before" "primary" "after"))
-
-;; :around
-(define around-log (list))
-
-(clos-defgeneric "wrapped-action" {})
-
-(clos-defmethod
-  "wrapped-action"
-  (list "around")
-  (list "t")
-  (fn
-    (args next-fn)
-    (set! around-log (append around-log (list "around-enter")))
-    (let
-      ((r (next-fn)))
-      (set! around-log (append around-log (list "around-exit")))
-      r)))
-
-(clos-defmethod
-  "wrapped-action"
-  (list)
-  (list "t")
-  (fn
-    (args next-fn)
-    (set! around-log (append around-log (list "primary")))
-    42))
-
-(let
-  ((r (clos-call-generic "wrapped-action" (list nil))))
-  (begin
-    (assert-equal ":around result" r 42)
-    (assert-equal
-      ":around log"
-      around-log
-      (list "around-enter" "primary" "around-exit"))))
-
-;; ── 11. call-next-method ─────────────────────────────────────────────────
-
-(clos-defgeneric "chain-test" {})
-
-(clos-defmethod
-  "chain-test"
-  (list)
-  (list "colored-point")
-  (fn (args next-fn) (str "colored:" (clos-call-next-method next-fn))))
-
-(clos-defmethod
-  "chain-test"
-  (list)
-  (list "point")
-  (fn (args next-fn) "point-base"))
-
-(let
-  ((cp (clos-make-instance "colored-point" ":x" 0 ":y" 0 ":color" "green")))
-  (assert-equal
-    "call-next-method chains"
-    (clos-call-generic "chain-test" (list cp))
-    "colored:point-base"))
-
-;; ── 12. accessor methods ──────────────────────────────────────────────────
-
-(let
-  ((p (clos-make-instance "point" ":x" 7 ":y" 8)))
-  (begin
-    (assert-equal
-      "accessor point-x"
-      (clos-call-generic "point-x" (list p))
-      7)
-    (assert-equal
-      "accessor point-y"
-      (clos-call-generic "point-y" (list p))
-      8)))
-
-;; ── 13. with-slots ────────────────────────────────────────────────────────
-
-(let
-  ((p (clos-make-instance "point" ":x" 3 ":y" 4)))
-  (assert-equal
-    "with-slots"
-    (clos-with-slots p (list "x" "y") (fn (x y) (* x y)))
-    12))
-
-;; ── 14. change-class ─────────────────────────────────────────────────────
-
-(clos-defclass "special-point" (list "point") (list {:initform "" :initarg ":label" :reader nil :writer nil :accessor nil :name "label"}))
-
-(let
-  ((p (clos-make-instance "point" ":x" 1 ":y" 2)))
-  (begin
-    (clos-change-class! p "special-point")
-    (assert-equal
-      "change-class updates class"
-      (clos-class-of p)
-      "special-point")))
-
-;; ── summary ────────────────────────────────────────────────────────────────
-
-(if
-  (= failed 0)
-  (print (str "ok " passed "/" (+ passed failed) " CLOS tests passed"))
-  (begin
-    (for-each (fn (f) (print f)) failures)
-    (print
-      (str "FAIL " passed "/" (+ passed failed) " passed, " failed " failed"))))
--- a/lib/common-lisp/tests/conditions.sx
+++ b/lib/common-lisp/tests/conditions.sx
@@ -1,478 +0,0 @@
-;; lib/common-lisp/tests/conditions.sx — Phase 3 condition system tests
-;;
-;; Loaded by lib/common-lisp/test.sh after:
-;;   (load "spec/stdlib.sx")
-;;   (load "lib/common-lisp/runtime.sx")
-;;
-;; Each test resets the handler/restart stacks to ensure isolation.
-
-(define
-  reset-stacks!
-  (fn () (set! cl-handler-stack (list)) (set! cl-restart-stack (list))))
-
-;; ── helpers ────────────────────────────────────────────────────────────────
-
-(define passed 0)
-(define failed 0)
-(define failures (list))
-
-(define
-  assert-equal
-  (fn
-    (label got expected)
-    (if
-      (= got expected)
-      (set! passed (+ passed 1))
-      (begin
-        (set! failed (+ failed 1))
-        (set!
-          failures
-          (append
-            failures
-            (list
-              (str
-                "FAIL ["
-                label
-                "]: got="
-                (inspect got)
-                " expected="
-                (inspect expected)))))))))
-
-(define
-  assert-true
-  (fn
-    (label got)
-    (if
-      got
-      (set! passed (+ passed 1))
-      (begin
-        (set! failed (+ failed 1))
-        (set!
-          failures
-          (append
-            failures
-            (list
-              (str "FAIL [" label "]: expected true, got " (inspect got)))))))))
-
-(define
-  assert-nil
-  (fn
-    (label got)
-    (if
-      (nil? got)
-      (set! passed (+ passed 1))
-      (begin
-        (set! failed (+ failed 1))
-        (set!
-          failures
-          (append
-            failures
-            (list (str "FAIL [" label "]: expected nil, got " (inspect got)))))))))
-
-;; ── 1. condition predicates ────────────────────────────────────────────────
-
-(reset-stacks!)
-
-(let
-  ((c (cl-make-condition "simple-error" "format-control" "oops")))
-  (begin
-    (assert-true "cl-condition? on condition" (cl-condition? c))
-    (assert-equal "cl-condition? on string" (cl-condition? "hello") false)
-    (assert-equal "cl-condition? on number" (cl-condition? 42) false)
-    (assert-equal "cl-condition? on nil" (cl-condition? nil) false)))
-
-;; ── 2. cl-make-condition + slot access ────────────────────────────────────
-
-(reset-stacks!)
-
-(let
-  ((c (cl-make-condition "simple-error" "format-control" "msg" "format-arguments" (list 1 2))))
-  (begin
-    (assert-equal "class field" (get c "class") "simple-error")
-    (assert-equal "cl-type field" (get c "cl-type") "cl-condition")
-    (assert-equal
-      "format-control slot"
-      (cl-condition-slot c "format-control")
-      "msg")
-    (assert-equal
-      "format-arguments slot"
-      (cl-condition-slot c "format-arguments")
-      (list 1 2))
-    (assert-nil "missing slot is nil" (cl-condition-slot c "no-such-slot"))
-    (assert-equal "condition-message" (cl-condition-message c) "msg")))
-
-;; ── 3. cl-condition-of-type? — hierarchy walking ─────────────────────────
-
-(reset-stacks!)
-
-(let
-  ((se (cl-make-condition "simple-error" "format-control" "x"))
-    (w (cl-make-condition "simple-warning" "format-control" "y"))
-    (te
-      (cl-make-condition
-        "type-error"
-        "datum"
-        5
-        "expected-type"
-        "string"))
-    (dz (cl-make-condition "division-by-zero")))
-  (begin
-    (assert-true
-      "se isa simple-error"
-      (cl-condition-of-type? se "simple-error"))
-    (assert-true "se isa error" (cl-condition-of-type? se "error"))
-    (assert-true
-      "se isa serious-condition"
-      (cl-condition-of-type? se "serious-condition"))
-    (assert-true "se isa condition" (cl-condition-of-type? se "condition"))
-    (assert-equal
-      "se not isa warning"
-      (cl-condition-of-type? se "warning")
-      false)
-    (assert-true
-      "w isa simple-warning"
-      (cl-condition-of-type? w "simple-warning"))
-    (assert-true "w isa warning" (cl-condition-of-type? w "warning"))
-    (assert-true "w isa condition" (cl-condition-of-type? w "condition"))
-    (assert-equal "w not isa error" (cl-condition-of-type? w "error") false)
-    (assert-true "te isa type-error" (cl-condition-of-type? te "type-error"))
-    (assert-true "te isa error" (cl-condition-of-type? te "error"))
-    (assert-true
-      "dz isa division-by-zero"
-      (cl-condition-of-type? dz "division-by-zero"))
-    (assert-true
-      "dz isa arithmetic-error"
-      (cl-condition-of-type? dz "arithmetic-error"))
-    (assert-true "dz isa error" (cl-condition-of-type? dz "error"))
-    (assert-equal
-      "non-condition not isa anything"
-      (cl-condition-of-type? 42 "error")
-      false)))
-
-;; ── 4. cl-define-condition ────────────────────────────────────────────────
-
-(reset-stacks!)
-
-(begin
-  (cl-define-condition "my-app-error" (list "error") (list "code" "detail"))
-  (let
-    ((c (cl-make-condition "my-app-error" "code" 404 "detail" "not found")))
-    (begin
-      (assert-true "user condition: cl-condition?" (cl-condition? c))
-      (assert-true
-        "user condition isa my-app-error"
-        (cl-condition-of-type? c "my-app-error"))
-      (assert-true
-        "user condition isa error"
-        (cl-condition-of-type? c "error"))
-      (assert-true
-        "user condition isa condition"
-        (cl-condition-of-type? c "condition"))
-      (assert-equal
-        "user condition slot code"
-        (cl-condition-slot c "code")
-        404)
-      (assert-equal
-        "user condition slot detail"
-        (cl-condition-slot c "detail")
-        "not found"))))
-
-;; ── 5. cl-handler-bind (non-unwinding) ───────────────────────────────────
-
-(reset-stacks!)
-
-(let
-  ((log (list)))
-  (begin
-    (cl-handler-bind
-      (list
-        (list
-          "error"
-          (fn (c) (set! log (append log (list (cl-condition-message c)))))))
-      (fn
-        ()
-        (cl-signal (cl-make-condition "simple-error" "format-control" "oops"))))
-    (assert-equal "handler-bind: handler fired" log (list "oops"))))
-
-(reset-stacks!)
-
-;; Non-unwinding: body continues after signal
-(let
-  ((body-ran false))
-  (begin
-    (cl-handler-bind
-      (list (list "error" (fn (c) nil)))
-      (fn
-        ()
-        (cl-signal (cl-make-condition "simple-error" "format-control" "x"))
-        (set! body-ran true)))
-    (assert-true "handler-bind: body continues after signal" body-ran)))
-
-(reset-stacks!)
-
-;; Type filtering: warning handler does not fire for error
-(let
-  ((w-fired false))
-  (begin
-    (cl-handler-bind
-      (list (list "warning" (fn (c) (set! w-fired true))))
-      (fn
-        ()
-        (cl-signal (cl-make-condition "simple-error" "format-control" "e"))))
-    (assert-equal
-      "handler-bind: type filter (warning ignores error)"
-      w-fired
-      false)))
-
-(reset-stacks!)
-
-;; Multiple handlers: both matching handlers fire
-(let
-  ((log (list)))
-  (begin
-    (cl-handler-bind
-      (list
-        (list "error" (fn (c) (set! log (append log (list "e1")))))
-        (list "condition" (fn (c) (set! log (append log (list "e2"))))))
-      (fn
-        ()
-        (cl-signal (cl-make-condition "simple-error" "format-control" "x"))))
-    (assert-equal "handler-bind: both handlers fire" log (list "e1" "e2"))))
-
-(reset-stacks!)
-
-;; ── 6. cl-handler-case (unwinding) ───────────────────────────────────────
-
-;; Catches error, returns handler result
-(let
-  ((result (cl-handler-case (fn () (cl-error "boom") 99) (list "error" (fn (c) (str "caught: " (cl-condition-message c)))))))
-  (assert-equal "handler-case: catches error" result "caught: boom"))
-
-(reset-stacks!)
-
-;; Returns body result when no signal
-(let
-  ((result (cl-handler-case (fn () 42) (list "error" (fn (c) -1)))))
-  (assert-equal "handler-case: body result" result 42))
-
-(reset-stacks!)
-
-;; Only first matching handler runs (unwinding)
-(let
-  ((result (cl-handler-case (fn () (cl-error "x")) (list "simple-error" (fn (c) "simple")) (list "error" (fn (c) "error")))))
-  (assert-equal "handler-case: most specific wins" result "simple"))
-
-(reset-stacks!)
-
-;; ── 7. cl-warn ────────────────────────────────────────────────────────────
-
-(let
-  ((warned false))
-  (begin
-    (cl-handler-bind
-      (list (list "warning" (fn (c) (set! warned true))))
-      (fn () (cl-warn "be careful")))
-    (assert-true "cl-warn: fires warning handler" warned)))
-
-(reset-stacks!)
-
-;; Warn with condition object
-(let
-  ((msg ""))
-  (begin
-    (cl-handler-bind
-      (list (list "warning" (fn (c) (set! msg (cl-condition-message c)))))
-      (fn
-        ()
-        (cl-warn
-          (cl-make-condition "simple-warning" "format-control" "take care"))))
-    (assert-equal "cl-warn: condition object" msg "take care")))
-
-(reset-stacks!)
-
-;; ── 8. cl-restart-case + cl-invoke-restart ───────────────────────────────
-
-;; Basic restart invocation
-(let
-  ((result (cl-restart-case (fn () (cl-invoke-restart "use-zero")) (list "use-zero" (list) (fn () 0)))))
-  (assert-equal "restart-case: invoke-restart use-zero" result 0))
-
-(reset-stacks!)
-
-;; Restart with argument
-(let
-  ((result (cl-restart-case (fn () (cl-invoke-restart "use-value" 77)) (list "use-value" (list "v") (fn (v) v)))))
-  (assert-equal "restart-case: invoke-restart with arg" result 77))
-
-(reset-stacks!)
-
-;; Body returns normally when restart not invoked
-(let
-  ((result (cl-restart-case (fn () 42) (list "never-used" (list) (fn () -1)))))
-  (assert-equal "restart-case: body result" result 42))
-
-(reset-stacks!)
-
-;; ── 9. cl-with-simple-restart ─────────────────────────────────────────────
-
-(let
-  ((result (cl-with-simple-restart "skip" "Skip this step" (fn () (cl-invoke-restart "skip") 99))))
-  (assert-nil "with-simple-restart: invoke returns nil" result))
-
-(reset-stacks!)
-
-;; ── 10. cl-find-restart ───────────────────────────────────────────────────
-
-(let
-  ((found (cl-restart-case (fn () (cl-find-restart "retry")) (list "retry" (list) (fn () nil)))))
-  (assert-true "find-restart: finds active restart" (not (nil? found))))
-
-(reset-stacks!)
-
-(let
-  ((not-found (cl-restart-case (fn () (cl-find-restart "nonexistent")) (list "retry" (list) (fn () nil)))))
-  (assert-nil "find-restart: nil for inactive restart" not-found))
-
-(reset-stacks!)
-
-;; ── 11. cl-compute-restarts ───────────────────────────────────────────────
-
-(let
-  ((names (cl-restart-case (fn () (cl-restart-case (fn () (cl-compute-restarts)) (list "inner" (list) (fn () nil)))) (list "outer" (list) (fn () nil)))))
-  (assert-equal
-    "compute-restarts: both restarts"
-    names
-    (list "inner" "outer")))
-
-(reset-stacks!)
-
-;; ── 12. handler-bind + restart-case interop ───────────────────────────────
-
-;; Classic CL pattern: error handler invokes a restart
-(let
-  ((result (cl-restart-case (fn () (cl-handler-bind (list (list "error" (fn (c) (cl-invoke-restart "use-zero")))) (fn () (cl-error "divide by zero")))) (list "use-zero" (list) (fn () 0)))))
-  (assert-equal "interop: handler invokes restart" result 0))
-
-(reset-stacks!)
-
-;; ── 13. cl-cerror ─────────────────────────────────────────────────────────
-
-;; When "continue" restart is invoked, cerror returns nil
-(let
-  ((result (cl-restart-case (fn () (cl-cerror "continue anyway" "something bad") 42) (list "continue" (list) (fn () "resumed")))))
-  (assert-true
-    "cerror: returns"
-    (or (nil? result) (= result 42) (= result "resumed"))))
-
-(reset-stacks!)
-
-;; ── 14. slot accessor helpers ─────────────────────────────────────────────
-
-(let
-  ((c (cl-make-condition "simple-error" "format-control" "msg" "format-arguments" (list 1 2))))
-  (begin
-    (assert-equal
-      "simple-condition-format-control"
-      (cl-simple-condition-format-control c)
-      "msg")
-    (assert-equal
-      "simple-condition-format-arguments"
-      (cl-simple-condition-format-arguments c)
-      (list 1 2))))
-
-(let
-  ((c (cl-make-condition "type-error" "datum" 42 "expected-type" "string")))
-  (begin
-    (assert-equal "type-error-datum" (cl-type-error-datum c) 42)
-    (assert-equal
-      "type-error-expected-type"
-      (cl-type-error-expected-type c)
-      "string")))
-
-(let
-  ((c (cl-make-condition "arithmetic-error" "operation" "/" "operands" (list 1 0))))
-  (begin
-    (assert-equal
-      "arithmetic-error-operation"
-      (cl-arithmetic-error-operation c)
-      "/")
-    (assert-equal
-      "arithmetic-error-operands"
-      (cl-arithmetic-error-operands c)
-      (list 1 0))))
-
-
-;; ── 15. *debugger-hook* ───────────────────────────────────────────────────
-
-(reset-stacks!)
-
-(let ((received nil))
-  (begin
-    (set! cl-debugger-hook
-      (fn (c h)
-        (set! received (cl-condition-message c))
-        (cl-invoke-restart "escape")))
-    (cl-restart-case
-      (fn () (cl-error "debugger test"))
-      (list "escape" (list) (fn () nil)))
-    (set! cl-debugger-hook nil)
-    (assert-equal "debugger-hook receives condition"  received  "debugger test")))
-
-(reset-stacks!)
-
-;; ── 16. *break-on-signals* ────────────────────────────────────────────────
-
-(reset-stacks!)
-
-(let ((triggered false))
-  (begin
-    (set! cl-break-on-signals "error")
-    (set! cl-debugger-hook
-      (fn (c h)
-        (set! triggered true)
-        (cl-invoke-restart "abort")))
-    (cl-restart-case
-      (fn ()
-        (cl-signal (cl-make-condition "simple-error" "format-control" "x")))
-      (list "abort" (list) (fn () nil)))
-    (set! cl-break-on-signals nil)
-    (set! cl-debugger-hook nil)
-    (assert-true "break-on-signals fires hook"  triggered)))
-
-(reset-stacks!)
-
-;; break-on-signals: non-matching type does NOT fire hook
-(let ((triggered false))
-  (begin
-    (set! cl-break-on-signals "error")
-    (set! cl-debugger-hook
-      (fn (c h) (set! triggered true) nil))
-    (cl-handler-bind
-      (list (list "warning" (fn (c) nil)))
-      (fn ()
-        (cl-signal (cl-make-condition "simple-warning" "format-control" "w"))))
-    (set! cl-break-on-signals nil)
-    (set! cl-debugger-hook nil)
-    (assert-equal "break-on-signals: type mismatch not triggered"  triggered  false)))
-
-(reset-stacks!)
-
-;; ── 17. cl-invoke-restart-interactively ──────────────────────────────────
-
-(let ((result
-        (cl-restart-case
-          (fn () (cl-invoke-restart-interactively "use-default"))
-          (list "use-default" (list) (fn () 99)))))
-  (assert-equal "invoke-restart-interactively: returns restart value"  result  99))
-
-(reset-stacks!)
-
-;; ── summary ────────────────────────────────────────────────────────────────
-
-(if
-  (= failed 0)
-  (print (str "ok " passed "/" (+ passed failed) " condition tests passed"))
-  (begin
-    (for-each (fn (f) (print f)) failures)
-    (print
-      (str "FAIL " passed "/" (+ passed failed) " passed, " failed " failed"))))
--- a/lib/common-lisp/tests/eval.sx
+++ b/lib/common-lisp/tests/eval.sx
@@ -1,466 +0,0 @@
-;; CL evaluator tests
-
-(define cl-test-pass 0)
-(define cl-test-fail 0)
-(define cl-test-fails (list))
-
-(define
-  cl-deep=
-  (fn
-    (a b)
-    (cond
-      ((= a b) true)
-      ((and (dict? a) (dict? b))
-        (let
-          ((ak (keys a)) (bk (keys b)))
-          (if
-            (not (= (len ak) (len bk)))
-            false
-            (every?
-              (fn (k) (and (has-key? b k) (cl-deep= (get a k) (get b k))))
-              ak))))
-      ((and (list? a) (list? b))
-        (if
-          (not (= (len a) (len b)))
-          false
-          (let
-            ((i 0) (ok true))
-            (define
-              chk
-              (fn
-                ()
-                (when
-                  (and ok (< i (len a)))
-                  (do
-                    (when
-                      (not (cl-deep= (nth a i) (nth b i)))
-                      (set! ok false))
-                    (set! i (+ i 1))
-                    (chk)))))
-            (chk)
-            ok)))
-      (:else false))))
-
-(define
-  cl-test
-  (fn
-    (name actual expected)
-    (if
-      (cl-deep= actual expected)
-      (set! cl-test-pass (+ cl-test-pass 1))
-      (do
-        (set! cl-test-fail (+ cl-test-fail 1))
-        (append! cl-test-fails {:name name :expected expected :actual actual})))))
-
-;; Convenience: evaluate CL string with fresh env each time
-(define ev (fn (src) (cl-eval-str src (cl-make-env))))
-(define evall (fn (src) (cl-eval-all-str src (cl-make-env))))
-
-;; ── self-evaluating literals ──────────────────────────────────────
-
-(cl-test "lit: nil" (ev "nil") nil)
-(cl-test "lit: t" (ev "t") true)
-(cl-test "lit: integer" (ev "42") 42)
-(cl-test "lit: negative" (ev "-7") -7)
-(cl-test "lit: zero" (ev "0") 0)
-(cl-test "lit: string" (ev "\"hello\"") "hello")
-(cl-test "lit: empty string" (ev "\"\"") "")
-(cl-test "lit: keyword type" (get (ev ":foo") "cl-type") "keyword")
-(cl-test "lit: keyword name" (get (ev ":foo") "name") "FOO")
-(cl-test "lit: float type" (get (ev "3.14") "cl-type") "float")
-
-;; ── QUOTE ─────────────────────────────────────────────────────────
-
-(cl-test "quote: symbol" (ev "'x") "X")
-(cl-test "quote: list" (ev "'(a b c)") (list "A" "B" "C"))
-(cl-test "quote: nil" (ev "'nil") nil)
-(cl-test "quote: integer" (ev "'42") 42)
-(cl-test "quote: nested" (ev "'(a (b c))") (list "A" (list "B" "C")))
-
-;; ── IF ────────────────────────────────────────────────────────────
-
-(cl-test "if: true branch" (ev "(if t 1 2)") 1)
-(cl-test "if: false branch" (ev "(if nil 1 2)") 2)
-(cl-test "if: no else nil" (ev "(if nil 99)") nil)
-(cl-test "if: number truthy" (ev "(if 0 'yes 'no)") "YES")
-(cl-test "if: empty string truthy" (ev "(if \"\" 'yes 'no)") "YES")
-(cl-test "if: nested" (ev "(if t (if nil 1 2) 3)") 2)
-
-;; ── PROGN ────────────────────────────────────────────────────────
-
-(cl-test "progn: single" (ev "(progn 42)") 42)
-(cl-test "progn: multiple" (ev "(progn 1 2 3)") 3)
-(cl-test "progn: nil last" (ev "(progn 1 nil)") nil)
-
-;; ── AND / OR ─────────────────────────────────────────────────────
-
-(cl-test "and: empty" (ev "(and)") true)
-(cl-test "and: all true" (ev "(and 1 2 3)") 3)
-(cl-test "and: short-circuit" (ev "(and nil 99)") nil)
-(cl-test "and: returns last" (ev "(and 1 2)") 2)
-(cl-test "or: empty" (ev "(or)") nil)
-(cl-test "or: first truthy" (ev "(or 1 2)") 1)
-(cl-test "or: all nil" (ev "(or nil nil)") nil)
-(cl-test "or: short-circuit" (ev "(or nil 42)") 42)
-
-;; ── COND ─────────────────────────────────────────────────────────
-
-(cl-test "cond: first match" (ev "(cond (t 1) (t 2))") 1)
-(cl-test "cond: second match" (ev "(cond (nil 1) (t 2))") 2)
-(cl-test "cond: no match" (ev "(cond (nil 1) (nil 2))") nil)
-(cl-test "cond: returns test value" (ev "(cond (42))") 42)
-
-;; ── WHEN / UNLESS ─────────────────────────────────────────────────
-
-(cl-test "when: true" (ev "(when t 1 2 3)") 3)
-(cl-test "when: nil" (ev "(when nil 99)") nil)
-(cl-test "unless: nil runs" (ev "(unless nil 42)") 42)
-(cl-test "unless: true skips" (ev "(unless t 99)") nil)
-
-;; ── LET ──────────────────────────────────────────────────────────
-
-(cl-test "let: empty bindings" (ev "(let () 42)") 42)
-(cl-test "let: single binding" (ev "(let ((x 5)) x)") 5)
-(cl-test "let: two bindings" (ev "(let ((x 3) (y 4)) (+ x y))") 7)
-(cl-test "let: parallel" (ev "(let ((x 1)) (let ((x 2) (y x)) y))") 1)
-(cl-test "let: nested" (ev "(let ((x 1)) (let ((y 2)) (+ x y)))") 3)
-(cl-test "let: progn body" (ev "(let ((x 5)) (+ x 1) (* x 2))") 10)
-(cl-test "let: bare name nil" (ev "(let (x) x)") nil)
-
-;; ── LET* ─────────────────────────────────────────────────────────
-
-(cl-test "let*: sequential" (ev "(let* ((x 1) (y (+ x 1))) y)") 2)
-(cl-test "let*: chain" (ev "(let* ((a 2) (b (* a 3)) (c (+ b 1))) c)") 7)
-(cl-test "let*: shadow" (ev "(let ((x 1)) (let* ((x 2) (y x)) y))") 2)
-
-;; ── SETQ / SETF ──────────────────────────────────────────────────
-
-(cl-test "setq: basic" (ev "(let ((x 0)) (setq x 5) x)") 5)
-(cl-test "setq: returns value" (ev "(let ((x 0)) (setq x 99))") 99)
-(cl-test "setf: basic" (ev "(let ((x 0)) (setf x 7) x)") 7)
-
-;; ── LAMBDA ────────────────────────────────────────────────────────
-
-(cl-test "lambda: call" (ev "((lambda (x) x) 42)") 42)
-(cl-test "lambda: multi-arg" (ev "((lambda (x y) (+ x y)) 3 4)") 7)
-(cl-test "lambda: closure" (ev "(let ((n 10)) ((lambda (x) (+ x n)) 5))") 15)
-(cl-test "lambda: rest arg"
-  (ev "((lambda (x &rest xs) (cons x xs)) 1 2 3)")
-  {:cl-type "cons" :car 1 :cdr (list 2 3)})
-(cl-test "lambda: optional no default"
-  (ev "((lambda (&optional x) x))")
-  nil)
-(cl-test "lambda: optional with arg"
-  (ev "((lambda (&optional (x 99)) x) 42)")
-  42)
-(cl-test "lambda: optional default used"
-  (ev "((lambda (&optional (x 7)) x))")
-  7)
-
-;; ── FUNCTION ─────────────────────────────────────────────────────
-
-(cl-test "function: lambda" (get (ev "(function (lambda (x) x))") "cl-type") "function")
-
-;; ── DEFUN ────────────────────────────────────────────────────────
-
-(cl-test "defun: returns name" (evall "(defun sq (x) (* x x))") "SQ")
-(cl-test "defun: call" (evall "(defun sq (x) (* x x)) (sq 5)") 25)
-(cl-test "defun: multi-arg" (evall "(defun add (x y) (+ x y)) (add 3 4)") 7)
-(cl-test "defun: recursive factorial"
-  (evall "(defun fact (n) (if (<= n 1) 1 (* n (fact (- n 1))))) (fact 5)")
-  120)
-(cl-test "defun: multiple calls"
-  (evall "(defun double (x) (* x 2)) (+ (double 3) (double 5))")
-  16)
-
-;; ── FLET ─────────────────────────────────────────────────────────
-
-(cl-test "flet: basic"
-  (ev "(flet ((double (x) (* x 2))) (double 5))")
-  10)
-(cl-test "flet: sees outer vars"
-  (ev "(let ((n 3)) (flet ((add-n (x) (+ x n))) (add-n 7)))")
-  10)
-(cl-test "flet: non-recursive"
-  (ev "(flet ((f (x) (+ x 1))) (flet ((f (x) (f (f x)))) (f 5)))")
-  7)
-
-;; ── LABELS ────────────────────────────────────────────────────────
-
-(cl-test "labels: basic"
-  (ev "(labels ((greet (x) x)) (greet 42))")
-  42)
-(cl-test "labels: recursive"
-  (ev "(labels ((count (n) (if (<= n 0) 0 (+ 1 (count (- n 1)))))) (count 5))")
-  5)
-(cl-test "labels: mutual recursion"
-  (ev "(labels
-         ((even? (n) (if (= n 0) t  (odd? (- n 1))))
-          (odd?  (n) (if (= n 0) nil   (even? (- n 1)))))
-         (list (even? 4) (odd? 3)))")
-  (list true true))
-
-;; ── THE / LOCALLY / EVAL-WHEN ────────────────────────────────────
-
-(cl-test "the: passthrough" (ev "(the integer 42)") 42)
-(cl-test "the: string" (ev "(the string \"hi\")") "hi")
-(cl-test "locally: body" (ev "(locally 1 2 3)") 3)
-(cl-test "eval-when: execute" (ev "(eval-when (:execute) 99)") 99)
-(cl-test "eval-when: no execute" (ev "(eval-when (:compile-toplevel) 99)") nil)
-
-;; ── DEFVAR / DEFPARAMETER ────────────────────────────────────────
-
-(cl-test "defvar: returns name" (evall "(defvar *x* 10)") "*X*")
-(cl-test "defparameter: sets value" (evall "(defparameter *y* 42) *y*") 42)
-(cl-test "defvar: no reinit" (evall "(defvar *z* 1) (defvar *z* 99) *z*") 1)
-
-;; ── built-in arithmetic ───────────────────────────────────────────
-
-(cl-test "arith: +" (ev "(+ 1 2 3)") 6)
-(cl-test "arith: + zero" (ev "(+)") 0)
-(cl-test "arith: -" (ev "(- 10 3 2)") 5)
-(cl-test "arith: - negate" (ev "(- 5)") -5)
-(cl-test "arith: *" (ev "(* 2 3 4)") 24)
-(cl-test "arith: * one" (ev "(*)") 1)
-(cl-test "arith: /" (ev "(/ 12 3)") 4)
-(cl-test "arith: max" (ev "(max 3 1 4 1 5)") 5)
-(cl-test "arith: min" (ev "(min 3 1 4 1 5)") 1)
-(cl-test "arith: abs neg" (ev "(abs -7)") 7)
-(cl-test "arith: abs pos" (ev "(abs 7)") 7)
-
-;; ── built-in comparisons ──────────────────────────────────────────
-
-(cl-test "cmp: = true" (ev "(= 3 3)") true)
-(cl-test "cmp: = false" (ev "(= 3 4)") nil)
-(cl-test "cmp: /=" (ev "(/= 3 4)") true)
-(cl-test "cmp: <" (ev "(< 1 2)") true)
-(cl-test "cmp: > false" (ev "(> 1 2)") nil)
-(cl-test "cmp: <=" (ev "(<= 2 2)") true)
-
-;; ── built-in predicates ───────────────────────────────────────────
-
-(cl-test "pred: null nil" (ev "(null nil)") true)
-(cl-test "pred: null non-nil" (ev "(null 5)") nil)
-(cl-test "pred: not nil" (ev "(not nil)") true)
-(cl-test "pred: not truthy" (ev "(not 5)") nil)
-(cl-test "pred: numberp" (ev "(numberp 5)") true)
-(cl-test "pred: numberp str" (ev "(numberp \"x\")") nil)
-(cl-test "pred: stringp" (ev "(stringp \"hello\")") true)
-(cl-test "pred: listp list" (ev "(listp '(1))") true)
-(cl-test "pred: listp nil" (ev "(listp nil)") true)
-(cl-test "pred: zerop" (ev "(zerop 0)") true)
-(cl-test "pred: plusp" (ev "(plusp 3)") true)
-(cl-test "pred: evenp" (ev "(evenp 4)") true)
-(cl-test "pred: oddp" (ev "(oddp 3)") true)
-
-;; ── built-in list ops ─────────────────────────────────────────────
-
-(cl-test "list: car" (ev "(car '(1 2 3))") 1)
-(cl-test "list: cdr" (ev "(cdr '(1 2 3))") (list 2 3))
-(cl-test "list: cons" (get (ev "(cons 1 2)") "car") 1)
-(cl-test "list: list fn" (ev "(list 1 2 3)") (list 1 2 3))
-(cl-test "list: length" (ev "(length '(a b c))") 3)
-(cl-test "list: length nil" (ev "(length nil)") 0)
-(cl-test "list: append" (ev "(append '(1 2) '(3 4))") (list 1 2 3 4))
-(cl-test "list: first" (ev "(first '(10 20 30))") 10)
-(cl-test "list: second" (ev "(second '(10 20 30))") 20)
-(cl-test "list: third" (ev "(third '(10 20 30))") 30)
-(cl-test "list: rest" (ev "(rest '(1 2 3))") (list 2 3))
-(cl-test "list: nth" (ev "(nth 1 '(a b c))") "B")
-(cl-test "list: reverse" (ev "(reverse '(1 2 3))") (list 3 2 1))
-
-;; ── FUNCALL / APPLY / MAPCAR ─────────────────────────────────────
-
-(cl-test "funcall: lambda"
-  (ev "(funcall (lambda (x) (* x x)) 5)")
-  25)
-(cl-test "apply: basic"
-  (ev "(apply #'+ '(1 2 3))")
-  6)
-(cl-test "apply: leading args"
-  (ev "(apply #'+ 1 2 '(3 4))")
-  10)
-(cl-test "mapcar: basic"
-  (ev "(mapcar (lambda (x) (* x 2)) '(1 2 3))")
-  (list 2 4 6))
-
-;; ── BLOCK / RETURN-FROM / RETURN ─────────────────────────────────
-
-(cl-test "block: last form value"
-  (ev "(block done 1 2 3)")
-  3)
-(cl-test "block: empty body"
-  (ev "(block done)")
-  nil)
-(cl-test "block: single form"
-  (ev "(block foo 42)")
-  42)
-(cl-test "block: return-from"
-  (ev "(block done 1 (return-from done 99) 2)")
-  99)
-(cl-test "block: return-from nil block"
-  (ev "(block nil 1 (return-from nil 42) 3)")
-  42)
-(cl-test "block: return-from no value"
-  (ev "(block done (return-from done))")
-  nil)
-(cl-test "block: nested inner return stays inner"
-  (ev "(block outer (block inner (return-from inner 1) 2) 3)")
-  3)
-(cl-test "block: nested outer return"
-  (ev "(block outer (block inner 1 2) (return-from outer 99) 3)")
-  99)
-(cl-test "return: shorthand for nil block"
-  (ev "(block nil (return 77))")
-  77)
-(cl-test "return: no value"
-  (ev "(block nil 1 (return) 2)")
-  nil)
-(cl-test "block: return-from inside let"
-  (ev "(block done (let ((x 5)) (when (> x 3) (return-from done x))) 0)")
-  5)
-(cl-test "block: return-from inside progn"
-  (ev "(block done (progn (return-from done 7) 99))")
-  7)
-(cl-test "block: return-from through function"
-  (ev "(block done (flet ((f () (return-from done 42))) (f)) nil)")
-  42)
-
-;; ── TAGBODY / GO ─────────────────────────────────────────────────
-
-(cl-test "tagbody: empty returns nil"
-  (ev "(tagbody)")
-  nil)
-(cl-test "tagbody: forms only, returns nil"
-  (ev "(let ((x 0)) (tagbody (setq x 1) (setq x 2)) x)")
-  2)
-(cl-test "tagbody: tag only, returns nil"
-  (ev "(tagbody done)")
-  nil)
-(cl-test "tagbody: go skips forms"
-  (ev "(let ((x 0)) (tagbody (go done) (setq x 99) done) x)")
-  0)
-(cl-test "tagbody: go to later tag"
-  (ev "(let ((x 0)) (tagbody start (setq x (+ x 1)) (go done) (setq x 99) done) x)")
-  1)
-(cl-test "tagbody: loop with counter"
-  (ev "(let ((n 0)) (tagbody loop (when (>= n 3) (go done)) (setq n (+ n 1)) (go loop) done) n)")
-  3)
-(cl-test "tagbody: go inside when"
-  (ev "(let ((x 0)) (tagbody (setq x 1) (when t (go done)) (setq x 99) done) x)")
-  1)
-(cl-test "tagbody: go inside progn"
-  (ev "(let ((x 0)) (tagbody (progn (setq x 1) (go done)) (setq x 99) done) x)")
-  1)
-(cl-test "tagbody: go inside let"
-  (ev "(let ((acc 0)) (tagbody (let ((y 5)) (when (> y 3) (go done))) (setq acc 99) done) acc)")
-  0)
-(cl-test "tagbody: integer tags"
-  (ev "(let ((x 0)) (tagbody (go 2) 1 (setq x 1) (go 3) 2 (setq x 2) (go 3) 3) x)")
-  2)
-(cl-test "tagbody: block-return propagates out"
-  (ev "(block done (tagbody (return-from done 42)) nil)")
-  42)
-
-;; ── UNWIND-PROTECT ───────────────────────────────────────────────
-
-(cl-test "unwind-protect: normal returns protected"
-  (ev "(unwind-protect 42 nil)")
-  42)
-(cl-test "unwind-protect: cleanup runs"
-  (ev "(let ((x 0)) (unwind-protect 1 (setq x 99)) x)")
-  99)
-(cl-test "unwind-protect: cleanup result ignored"
-  (ev "(unwind-protect 42 777)")
-  42)
-(cl-test "unwind-protect: multiple cleanup forms"
-  (ev "(let ((x 0)) (unwind-protect 1 (setq x (+ x 1)) (setq x (+ x 1))) x)")
-  2)
-(cl-test "unwind-protect: cleanup on return-from"
-  (ev "(let ((x 0)) (block done (unwind-protect (return-from done 7) (setq x 99))) x)")
-  99)
-(cl-test "unwind-protect: return-from still propagates"
-  (ev "(block done (unwind-protect (return-from done 42) nil))")
-  42)
-(cl-test "unwind-protect: cleanup on go"
-  (ev "(let ((x 0)) (tagbody (unwind-protect (go done) (setq x 1)) done) x)")
-  1)
-(cl-test "unwind-protect: nested, inner cleanup first"
-  (ev "(let ((n 0)) (unwind-protect (unwind-protect 1 (setq n (+ n 10))) (setq n (+ n 1))) n)")
-  11)
-
-;; ── VALUES / MULTIPLE-VALUE-BIND / NTH-VALUE ────────────────────
-
-(cl-test "values: single returns plain"
-  (ev "(values 42)")
-  42)
-(cl-test "values: zero returns nil"
-  (ev "(values)")
-  nil)
-(cl-test "values: multi — primary via funcall"
-  (ev "(car (list (values 1 2)))")
-  1)
-(cl-test "multiple-value-bind: basic"
-  (ev "(multiple-value-bind (a b) (values 1 2) (+ a b))")
-  3)
-(cl-test "multiple-value-bind: extra vars get nil"
-  (ev "(multiple-value-bind (a b c) (values 10 20) (list a b c))")
-  (list 10 20 nil))
-(cl-test "multiple-value-bind: extra values ignored"
-  (ev "(multiple-value-bind (a) (values 1 2 3) a)")
-  1)
-(cl-test "multiple-value-bind: single value source"
-  (ev "(multiple-value-bind (a b) 42 (list a b))")
-  (list 42 nil))
-(cl-test "nth-value: 0"
-  (ev "(nth-value 0 (values 10 20 30))")
-  10)
-(cl-test "nth-value: 1"
-  (ev "(nth-value 1 (values 10 20 30))")
-  20)
-(cl-test "nth-value: out of range"
-  (ev "(nth-value 5 (values 10 20))")
-  nil)
-(cl-test "multiple-value-call: basic"
-  (ev "(multiple-value-call #'+ (values 1 2) (values 3 4))")
-  10)
-(cl-test "multiple-value-prog1: returns first"
-  (ev "(multiple-value-prog1 1 2 3)")
-  1)
-(cl-test "multiple-value-prog1: side effects run"
-  (ev "(let ((x 0)) (multiple-value-prog1 99 (setq x 7)) x)")
-  7)
-(cl-test "values: nil primary in if"
-  (ev "(if (values nil t) 'yes 'no)")
-  "NO")
-(cl-test "values: truthy primary in if"
-  (ev "(if (values 42 nil) 'yes 'no)")
-  "YES")
-
-;; --- Dynamic variables ---
-(cl-test "defvar marks special"
-  (do (ev "(defvar *dv* 10)")
-    (cl-special? "*DV*"))
-  true)
-(cl-test "defvar: let rebinds dynamically"
-  (ev "(progn (defvar *x* 1) (defun get-x () *x*) (let ((*x* 99)) (get-x)))")
-  99)
-(cl-test "defvar: binding restores after let"
-  (ev "(progn (defvar *yrst* 5) (let ((*yrst* 42)) *yrst*) *yrst*)")
-  5)
-(cl-test "defparameter marks special"
-  (do (ev "(defparameter *dp* 0)")
-    (cl-special? "*DP*"))
-  true)
-(cl-test "defparameter: let rebinds dynamically"
-  (ev "(progn (defparameter *z* 10) (defun get-z () *z*) (let ((*z* 77)) (get-z)))")
-  77)
-(cl-test "defparameter: always assigns"
-  (ev "(progn (defparameter *p* 1) (defparameter *p* 2) *p*)")
-  2)
-(cl-test "dynamic binding: nested lets"
-  (ev "(progn (defvar *n* 0) (let ((*n* 1)) (let ((*n* 2)) *n*)))")
-  2)
-(cl-test "dynamic binding: restores across nesting"
-  (ev "(progn (defvar *m* 10) (let ((*m* 20)) (let ((*m* 30)) nil)) *m*)")
-  10)
--- a/lib/common-lisp/tests/lambda.sx
+++ b/lib/common-lisp/tests/lambda.sx
@@ -1,204 +0,0 @@
-;; Lambda list parser tests
-
-(define cl-test-pass 0)
-(define cl-test-fail 0)
-(define cl-test-fails (list))
-
-;; Deep structural equality for dicts and lists
-(define
-  cl-deep=
-  (fn
-    (a b)
-    (cond
-      ((= a b) true)
-      ((and (dict? a) (dict? b))
-        (let
-          ((ak (keys a)) (bk (keys b)))
-          (if
-            (not (= (len ak) (len bk)))
-            false
-            (every?
-              (fn (k) (and (has-key? b k) (cl-deep= (get a k) (get b k))))
-              ak))))
-      ((and (list? a) (list? b))
-        (if
-          (not (= (len a) (len b)))
-          false
-          (let
-            ((i 0) (ok true))
-            (define
-              chk
-              (fn
-                ()
-                (when
-                  (and ok (< i (len a)))
-                  (do
-                    (when
-                      (not (cl-deep= (nth a i) (nth b i)))
-                      (set! ok false))
-                    (set! i (+ i 1))
-                    (chk)))))
-            (chk)
-            ok)))
-      (:else false))))
-
-(define
-  cl-test
-  (fn
-    (name actual expected)
-    (if
-      (cl-deep= actual expected)
-      (set! cl-test-pass (+ cl-test-pass 1))
-      (do
-        (set! cl-test-fail (+ cl-test-fail 1))
-        (append! cl-test-fails {:name name :expected expected :actual actual})))))
-
-;; Helper: parse lambda list from string "(x y ...)"
-(define ll (fn (src) (cl-parse-lambda-list-str src)))
-(define ll-req  (fn (src) (get (ll src) "required")))
-(define ll-opt  (fn (src) (get (ll src) "optional")))
-(define ll-rest (fn (src) (get (ll src) "rest")))
-(define ll-key  (fn (src) (get (ll src) "key")))
-(define ll-aok  (fn (src) (get (ll src) "allow-other-keys")))
-(define ll-aux  (fn (src) (get (ll src) "aux")))
-
-;; ── required parameters ───────────────────────────────────────────
-
-(cl-test "required: empty" (ll-req "()") (list))
-(cl-test "required: one" (ll-req "(x)") (list "X"))
-(cl-test "required: two" (ll-req "(x y)") (list "X" "Y"))
-(cl-test "required: three" (ll-req "(a b c)") (list "A" "B" "C"))
-(cl-test "required: upcased" (ll-req "(foo bar)") (list "FOO" "BAR"))
-
-;; ── &optional ─────────────────────────────────────────────────────
-
-(cl-test "optional: none" (ll-opt "(x)") (list))
-
-(cl-test
-  "optional: bare symbol"
-  (ll-opt "(x &optional z)")
-  (list {:name "Z" :default nil :supplied nil}))
-
-(cl-test
-  "optional: with default"
-  (ll-opt "(x &optional (z 0))")
-  (list {:name "Z" :default 0 :supplied nil}))
-
-(cl-test
-  "optional: with supplied-p"
-  (ll-opt "(x &optional (z 0 z-p))")
-  (list {:name "Z" :default 0 :supplied "Z-P"}))
-
-(cl-test
-  "optional: two params"
-  (ll-opt "(&optional a (b 1))")
-  (list {:name "A" :default nil :supplied nil} {:name "B" :default 1 :supplied nil}))
-
-(cl-test
-  "optional: string default"
-  (ll-opt "(&optional (name \"world\"))")
-  (list {:name "NAME" :default {:cl-type "string" :value "world"} :supplied nil}))
-
-;; ── &rest ─────────────────────────────────────────────────────────
-
-(cl-test "rest: none" (ll-rest "(x)") nil)
-(cl-test "rest: present" (ll-rest "(x &rest args)") "ARGS")
-(cl-test "rest: with required" (ll-rest "(a b &rest tail)") "TAIL")
-
-;; &body is an alias for &rest
-(cl-test "body: alias for rest" (ll-rest "(&body forms)") "FORMS")
-
-;; rest doesn't consume required params
-(cl-test "rest: required still there" (ll-req "(a b &rest rest)") (list "A" "B"))
-
-;; ── &key ──────────────────────────────────────────────────────────
-
-(cl-test "key: none" (ll-key "(x)") (list))
-
-(cl-test
-  "key: bare symbol"
-  (ll-key "(&key x)")
-  (list {:name "X" :keyword "X" :default nil :supplied nil}))
-
-(cl-test
-  "key: with default"
-  (ll-key "(&key (x 42))")
-  (list {:name "X" :keyword "X" :default 42 :supplied nil}))
-
-(cl-test
-  "key: with supplied-p"
-  (ll-key "(&key (x 42 x-p))")
-  (list {:name "X" :keyword "X" :default 42 :supplied "X-P"}))
-
-(cl-test
-  "key: two params"
-  (ll-key "(&key a b)")
-  (list
-    {:name "A" :keyword "A" :default nil :supplied nil}
-    {:name "B" :keyword "B" :default nil :supplied nil}))
-
-;; ── &allow-other-keys ─────────────────────────────────────────────
-
-(cl-test "aok: absent" (ll-aok "(x)") false)
-(cl-test "aok: present" (ll-aok "(&key x &allow-other-keys)") true)
-
-;; ── &aux ──────────────────────────────────────────────────────────
-
-(cl-test "aux: none" (ll-aux "(x)") (list))
-
-(cl-test
-  "aux: bare symbol"
-  (ll-aux "(&aux temp)")
-  (list {:name "TEMP" :init nil}))
-
-(cl-test
-  "aux: with init"
-  (ll-aux "(&aux (count 0))")
-  (list {:name "COUNT" :init 0}))
-
-(cl-test
-  "aux: two vars"
-  (ll-aux "(&aux a (b 1))")
-  (list {:name "A" :init nil} {:name "B" :init 1}))
-
-;; ── combined ──────────────────────────────────────────────────────
-
-(cl-test
-  "combined: full lambda list"
-  (let
-    ((parsed (ll "(x y &optional (z 0 z-p) &rest args &key a (b nil b-p) &aux temp)")))
-    (list
-      (get parsed "required")
-      (get (nth (get parsed "optional") 0) "name")
-      (get (nth (get parsed "optional") 0) "default")
-      (get (nth (get parsed "optional") 0) "supplied")
-      (get parsed "rest")
-      (get (nth (get parsed "key") 0) "name")
-      (get (nth (get parsed "key") 1) "supplied")
-      (get (nth (get parsed "aux") 0) "name")))
-  (list
-    (list "X" "Y")
-    "Z"
-    0
-    "Z-P"
-    "ARGS"
-    "A"
-    "B-P"
-    "TEMP"))
-
-(cl-test
-  "combined: required only stops before &"
-  (ll-req "(a b &optional c)")
-  (list "A" "B"))
-
-(cl-test
-  "combined: required only with &key"
-  (ll-req "(x &key y)")
-  (list "X"))
-
-(cl-test
-  "combined: &rest and &key together"
-  (let
-    ((parsed (ll "(&rest args &key verbose)")))
-    (list (get parsed "rest") (get (nth (get parsed "key") 0) "name")))
-  (list "ARGS" "VERBOSE"))
--- a/lib/common-lisp/tests/macros.sx
+++ b/lib/common-lisp/tests/macros.sx
@@ -1,204 +0,0 @@
-;; lib/common-lisp/tests/macros.sx — Phase 5: defmacro, gensym, LOOP tests
-;;
-;; Depends on: runtime.sx, eval.sx, loop.sx already loaded.
-;; Tests via (ev "...") using the CL evaluator.
-
-(define ev (fn (src) (cl-eval-str src (cl-make-env))))
-(define evall (fn (src) (cl-eval-all-str src (cl-make-env))))
-
-(define passed 0)
-(define failed 0)
-(define failures (list))
-
-(define
-  check
-  (fn
-    (label got expected)
-    (if
-      (= got expected)
-      (set! passed (+ passed 1))
-      (begin
-        (set! failed (+ failed 1))
-        (set!
-          failures
-          (append
-            failures
-            (list
-              (str
-                "FAIL ["
-                label
-                "]: got="
-                (inspect got)
-                " expected="
-                (inspect expected)))))))))
-
-;; ── defmacro basics ──────────────────────────────────────────────────────────
-
-(check
-  "defmacro returns name"
-  (ev "(defmacro my-or (a b) (list 'if a a b))")
-  "MY-OR")
-
-(check
-  "defmacro expansion works"
-  (ev "(progn (defmacro my-inc (x) (list '+ x 1)) (my-inc 5))")
-  6)
-
-(check
-  "defmacro with &rest"
-  (ev "(progn (defmacro my-list (&rest xs) (cons 'list xs)) (my-list 1 2 3))")
-  (list 1 2 3))
-
-(check
-  "nested macro expansion"
-  (ev "(progn (defmacro sq (x) (list '* x x)) (sq 7))")
-  49)
-
-(check
-  "macro in conditional"
-  (ev
-    "(progn (defmacro my-when (c &rest body) (list 'if c (cons 'progn body) nil)) (my-when t 10 20))")
-  20)
-
-(check
-  "macro returns nil branch"
-  (ev
-    "(progn (defmacro my-when (c &rest body) (list 'if c (cons 'progn body) nil)) (my-when nil 42))")
-  nil)
-
-;; ── macroexpand ───────────────────────────────────────────────────────────────
-
-(check
-  "macroexpand returns expanded form"
-  (ev "(progn (defmacro double (x) (list '+ x x)) (macroexpand '(double 5)))")
-  (list "+" 5 5))
-
-;; ── gensym ────────────────────────────────────────────────────────────────────
-
-(check "gensym returns string" (ev "(stringp (gensym))") true)
-
-(check
-  "gensym prefix"
-  (ev "(let ((g (gensym \"MY\"))) (not (= g nil)))")
-  true)
-
-(check "gensyms are unique" (ev "(not (= (gensym) (gensym)))") true)
-
-;; ── swap! macro with gensym ───────────────────────────────────────────────────
-
-(check
-  "swap! macro"
-  (evall
-    "(defmacro swap! (a b) (let ((tmp (gensym))) (list 'let (list (list tmp a)) (list 'setq a b) (list 'setq b tmp)))) (defvar *a* 10) (defvar *b* 20) (swap! *a* *b*) (list *a* *b*)")
-  (list 20 10))
-
-;; ── LOOP: basic repeat and collect ────────────────────────────────────────────
-
-(check
-  "loop repeat collect"
-  (ev "(loop repeat 3 collect 99)")
-  (list 99 99 99))
-
-(check
-  "loop for-in collect"
-  (ev "(loop for x in '(1 2 3) collect (* x x))")
-  (list 1 4 9))
-
-(check
-  "loop for-from-to collect"
-  (ev "(loop for i from 1 to 5 collect i)")
-  (list 1 2 3 4 5))
-
-(check
-  "loop for-from-below collect"
-  (ev "(loop for i from 0 below 4 collect i)")
-  (list 0 1 2 3))
-
-(check
-  "loop for-downto collect"
-  (ev "(loop for i from 5 downto 1 collect i)")
-  (list 5 4 3 2 1))
-
-(check
-  "loop for-by collect"
-  (ev "(loop for i from 0 to 10 by 2 collect i)")
-  (list 0 2 4 6 8 10))
-
-;; ── LOOP: sum, count, maximize, minimize ─────────────────────────────────────
-
-(check "loop sum" (ev "(loop for i from 1 to 5 sum i)") 15)
-
-(check
-  "loop count"
-  (ev "(loop for x in '(1 2 3 4 5) count (> x 3))")
-  2)
-
-(check
-  "loop maximize"
-  (ev "(loop for x in '(3 1 4 1 5 9 2 6) maximize x)")
-  9)
-
-(check
-  "loop minimize"
-  (ev "(loop for x in '(3 1 4 1 5 9 2 6) minimize x)")
-  1)
-
-;; ── LOOP: while and until ─────────────────────────────────────────────────────
-
-(check
-  "loop while"
-  (ev "(loop for i from 1 to 10 while (< i 5) collect i)")
-  (list 1 2 3 4))
-
-(check
-  "loop until"
-  (ev "(loop for i from 1 to 10 until (= i 5) collect i)")
-  (list 1 2 3 4))
-
-;; ── LOOP: when / unless ───────────────────────────────────────────────────────
-
-(check
-  "loop when filter"
-  (ev "(loop for i from 0 below 8 when (evenp i) collect i)")
-  (list 0 2 4 6))
-
-(check
-  "loop unless filter"
-  (ev "(loop for i from 0 below 8 unless (evenp i) collect i)")
-  (list 1 3 5 7))
-
-;; ── LOOP: append ─────────────────────────────────────────────────────────────
-
-(check
-  "loop append"
-  (ev "(loop for x in '((1 2) (3 4) (5 6)) append x)")
-  (list 1 2 3 4 5 6))
-
-;; ── LOOP: always, never, thereis ─────────────────────────────────────────────
-
-(check
-  "loop always true"
-  (ev "(loop for x in '(2 4 6) always (evenp x))")
-  true)
-
-(check
-  "loop always false"
-  (ev "(loop for x in '(2 3 6) always (evenp x))")
-  false)
-
-(check "loop never" (ev "(loop for x in '(1 3 5) never (evenp x))") true)
-
-(check "loop thereis" (ev "(loop for x in '(1 2 3) thereis (> x 2))") true)
-
-;; ── LOOP: for = then (general iteration) ─────────────────────────────────────
-
-(check
-  "loop for = then doubling"
-  (ev "(loop repeat 5 for x = 1 then (* x 2) collect x)")
-  (list 1 2 4 8 16))
-
-;; ── summary ────────────────────────────────────────────────────────────────
-
-(define macro-passed passed)
-(define macro-failed failed)
-(define macro-failures failures)
--- a/lib/common-lisp/tests/parse.sx
+++ b/lib/common-lisp/tests/parse.sx
@@ -1,160 +0,0 @@
-;; Common Lisp reader/parser tests
-
-(define cl-test-pass 0)
-(define cl-test-fail 0)
-(define cl-test-fails (list))
-
-(define
-  cl-deep=
-  (fn
-    (a b)
-    (cond
-      ((= a b) true)
-      ((and (dict? a) (dict? b))
-        (let
-          ((ak (keys a)) (bk (keys b)))
-          (if
-            (not (= (len ak) (len bk)))
-            false
-            (every?
-              (fn (k) (and (has-key? b k) (cl-deep= (get a k) (get b k))))
-              ak))))
-      ((and (list? a) (list? b))
-        (if
-          (not (= (len a) (len b)))
-          false
-          (let
-            ((i 0) (ok true))
-            (define
-              chk
-              (fn
-                ()
-                (when
-                  (and ok (< i (len a)))
-                  (do
-                    (when
-                      (not (cl-deep= (nth a i) (nth b i)))
-                      (set! ok false))
-                    (set! i (+ i 1))
-                    (chk)))))
-            (chk)
-            ok)))
-      (:else false))))
-
-(define
-  cl-test
-  (fn
-    (name actual expected)
-    (if
-      (cl-deep= actual expected)
-      (set! cl-test-pass (+ cl-test-pass 1))
-      (do
-        (set! cl-test-fail (+ cl-test-fail 1))
-        (append! cl-test-fails {:name name :expected expected :actual actual})))))
-
-;; ── atoms ─────────────────────────────────────────────────────────
-
-(cl-test "integer: 42" (cl-read "42") 42)
-(cl-test "integer: 0" (cl-read "0") 0)
-(cl-test "integer: negative" (cl-read "-5") -5)
-(cl-test "integer: positive sign" (cl-read "+3") 3)
-(cl-test "integer: hex #xFF" (cl-read "#xFF") 255)
-(cl-test "integer: hex #xAB" (cl-read "#xAB") 171)
-(cl-test "integer: binary #b1010" (cl-read "#b1010") 10)
-(cl-test "integer: octal #o17" (cl-read "#o17") 15)
-
-(cl-test "float: type" (get (cl-read "3.14") "cl-type") "float")
-(cl-test "float: value" (get (cl-read "3.14") "value") "3.14")
-(cl-test "float: neg" (get (cl-read "-2.5") "value") "-2.5")
-(cl-test "float: exp" (get (cl-read "1.0e10") "value") "1.0e10")
-
-(cl-test "ratio: type" (get (cl-read "1/3") "cl-type") "ratio")
-(cl-test "ratio: value" (get (cl-read "1/3") "value") "1/3")
-(cl-test "ratio: 22/7" (get (cl-read "22/7") "value") "22/7")
-
-(cl-test "string: basic" (cl-read "\"hello\"") {:cl-type "string" :value "hello"})
-(cl-test "string: empty" (cl-read "\"\"") {:cl-type "string" :value ""})
-(cl-test "string: with escape" (cl-read "\"a\\nb\"") {:cl-type "string" :value "a\nb"})
-
-(cl-test "symbol: foo" (cl-read "foo") "FOO")
-(cl-test "symbol: BAR" (cl-read "BAR") "BAR")
-(cl-test "symbol: pkg:sym" (cl-read "cl:car") "CL:CAR")
-(cl-test "symbol: pkg::sym" (cl-read "pkg::foo") "PKG::FOO")
-
-(cl-test "nil: symbol" (cl-read "nil") nil)
-(cl-test "nil: uppercase" (cl-read "NIL") nil)
-(cl-test "t: symbol" (cl-read "t") true)
-(cl-test "t: uppercase" (cl-read "T") true)
-
-(cl-test "keyword: type" (get (cl-read ":foo") "cl-type") "keyword")
-(cl-test "keyword: name" (get (cl-read ":foo") "name") "FOO")
-(cl-test "keyword: :test" (get (cl-read ":test") "name") "TEST")
-
-(cl-test "char: type" (get (cl-read "#\\a") "cl-type") "char")
-(cl-test "char: value" (get (cl-read "#\\a") "value") "a")
-(cl-test "char: Space" (get (cl-read "#\\Space") "value") " ")
-(cl-test "char: Newline" (get (cl-read "#\\Newline") "value") "\n")
-
-(cl-test "uninterned: type" (get (cl-read "#:foo") "cl-type") "uninterned")
-(cl-test "uninterned: name" (get (cl-read "#:foo") "name") "FOO")
-
-;; ── lists ─────────────────────────────────────────────────────────
-
-(cl-test "list: empty" (cl-read "()") (list))
-(cl-test "list: one element" (cl-read "(foo)") (list "FOO"))
-(cl-test "list: two elements" (cl-read "(foo bar)") (list "FOO" "BAR"))
-(cl-test "list: nested" (cl-read "((a b) c)") (list (list "A" "B") "C"))
-(cl-test "list: with integer" (cl-read "(+ 1 2)") (list "+" 1 2))
-(cl-test "list: with string" (cl-read "(print \"hi\")") (list "PRINT" {:cl-type "string" :value "hi"}))
-(cl-test "list: nil element" (cl-read "(a nil b)") (list "A" nil "B"))
-(cl-test "list: t element" (cl-read "(a t b)") (list "A" true "B"))
-
-;; ── dotted pairs ──────────────────────────────────────────────<E29480><E29480>──
-
-(cl-test "dotted: type" (get (cl-read "(a . b)") "cl-type") "cons")
-(cl-test "dotted: car" (get (cl-read "(a . b)") "car") "A")
-(cl-test "dotted: cdr" (get (cl-read "(a . b)") "cdr") "B")
-(cl-test "dotted: number cdr" (get (cl-read "(x . 42)") "cdr") 42)
-
-;; ── reader macros ────────────────────────────────────────────────<E29480><E29480>
-
-(cl-test "quote: form" (cl-read "'x") (list "QUOTE" "X"))
-(cl-test "quote: list" (cl-read "'(a b)") (list "QUOTE" (list "A" "B")))
-(cl-test "backquote: form" (cl-read "`x") (list "QUASIQUOTE" "X"))
-(cl-test "unquote: form" (cl-read ",x") (list "UNQUOTE" "X"))
-(cl-test "comma-at: form" (cl-read ",@x") (list "UNQUOTE-SPLICING" "X"))
-(cl-test "function: form" (cl-read "#'foo") (list "FUNCTION" "FOO"))
-
-;; ── vector ────────────────────────────────────────────────────────
-
-(cl-test "vector: type" (get (cl-read "#(1 2 3)") "cl-type") "vector")
-(cl-test "vector: elements" (get (cl-read "#(1 2 3)") "elements") (list 1 2 3))
-(cl-test "vector: empty" (get (cl-read "#()") "elements") (list))
-(cl-test "vector: mixed" (get (cl-read "#(a 1 \"s\")") "elements") (list "A" 1 {:cl-type "string" :value "s"}))
-
-;; ── cl-read-all ───────────────────────────────────────────────────
-
-(cl-test
-  "read-all: empty"
-  (cl-read-all "")
-  (list))
-
-(cl-test
-  "read-all: two forms"
-  (cl-read-all "42 foo")
-  (list 42 "FOO"))
-
-(cl-test
-  "read-all: three forms"
-  (cl-read-all "(+ 1 2) (+ 3 4) hello")
-  (list (list "+" 1 2) (list "+" 3 4) "HELLO"))
-
-(cl-test
-  "read-all: with comments"
-  (cl-read-all "; this is a comment\n42 ; inline\nfoo")
-  (list 42 "FOO"))
-
-(cl-test
-  "read-all: defun form"
-  (nth (cl-read-all "(defun square (x) (* x x))") 0)
-  (list "DEFUN" "SQUARE" (list "X") (list "*" "X" "X")))
--- a/lib/common-lisp/tests/programs/geometry.sx
+++ b/lib/common-lisp/tests/programs/geometry.sx
@@ -1,291 +0,0 @@
-;; geometry.sx — Multiple dispatch with CLOS
-;;
-;; Demonstrates generic functions dispatching on combinations of
-;; geometric types: point, line, plane.
-;;
-;; Depends on: lib/common-lisp/runtime.sx, lib/common-lisp/clos.sx
-
-;; ── geometric classes ──────────────────────────────────────────────────────
-
-(clos-defclass "geo-point" (list "t") (list {:initform 0 :initarg ":px" :reader nil :writer nil :accessor nil :name "px"} {:initform 0 :initarg ":py" :reader nil :writer nil :accessor nil :name "py"}))
-
-(clos-defclass "geo-line" (list "t") (list {:initform nil :initarg ":p1" :reader nil :writer nil :accessor nil :name "p1"} {:initform nil :initarg ":p2" :reader nil :writer nil :accessor nil :name "p2"}))
-
-(clos-defclass "geo-plane" (list "t") (list {:initform nil :initarg ":normal" :reader nil :writer nil :accessor nil :name "normal"} {:initform 0 :initarg ":d" :reader nil :writer nil :accessor nil :name "d"}))
-
-;; ── helpers ────────────────────────────────────────────────────────────────
-
-(define geo-point-x (fn (p) (clos-slot-value p "px")))
-(define geo-point-y (fn (p) (clos-slot-value p "py")))
-
-(define
-  geo-make-point
-  (fn (x y) (clos-make-instance "geo-point" ":px" x ":py" y)))
-
-(define
-  geo-make-line
-  (fn (p1 p2) (clos-make-instance "geo-line" ":p1" p1 ":p2" p2)))
-
-(define
-  geo-make-plane
-  (fn
-    (nx ny d)
-    (clos-make-instance "geo-plane" ":normal" (list nx ny) ":d" d)))
-
-;; ── describe generic ───────────────────────────────────────────────────────
-
-(clos-defgeneric "geo-describe" {})
-
-(clos-defmethod
-  "geo-describe"
-  (list)
-  (list "geo-point")
-  (fn
-    (args next-fn)
-    (let
-      ((p (first args)))
-      (str "P(" (geo-point-x p) "," (geo-point-y p) ")"))))
-
-(clos-defmethod
-  "geo-describe"
-  (list)
-  (list "geo-line")
-  (fn
-    (args next-fn)
-    (let
-      ((l (first args)))
-      (str
-        "L["
-        (clos-call-generic "geo-describe" (list (clos-slot-value l "p1")))
-        "-"
-        (clos-call-generic "geo-describe" (list (clos-slot-value l "p2")))
-        "]"))))
-
-(clos-defmethod
-  "geo-describe"
-  (list)
-  (list "geo-plane")
-  (fn
-    (args next-fn)
-    (let
-      ((pl (first args)))
-      (str "Plane(d=" (clos-slot-value pl "d") ")"))))
-
-;; ── intersect: multi-dispatch generic ─────────────────────────────────────
-;;
-;; Returns a string description of the intersection result.
-
-(clos-defgeneric "intersect" {})
-
-;; point ∩ point: same if coordinates match
-(clos-defmethod
-  "intersect"
-  (list)
-  (list "geo-point" "geo-point")
-  (fn
-    (args next-fn)
-    (let
-      ((p1 (first args)) (p2 (first (rest args))))
-      (if
-        (and
-          (= (geo-point-x p1) (geo-point-x p2))
-          (= (geo-point-y p1) (geo-point-y p2)))
-        "point"
-        "empty"))))
-
-;; point ∩ line: check if point lies on line (cross product = 0)
-(clos-defmethod
-  "intersect"
-  (list)
-  (list "geo-point" "geo-line")
-  (fn
-    (args next-fn)
-    (let
-      ((pt (first args)) (ln (first (rest args))))
-      (let
-        ((lp1 (clos-slot-value ln "p1")) (lp2 (clos-slot-value ln "p2")))
-        (let
-          ((dx (- (geo-point-x lp2) (geo-point-x lp1)))
-            (dy (- (geo-point-y lp2) (geo-point-y lp1)))
-            (ex (- (geo-point-x pt) (geo-point-x lp1)))
-            (ey (- (geo-point-y pt) (geo-point-y lp1))))
-          (if (= (- (* dx ey) (* dy ex)) 0) "point" "empty"))))))
-
-;; line ∩ line: parallel (same slope = empty) or point
-(clos-defmethod
-  "intersect"
-  (list)
-  (list "geo-line" "geo-line")
-  (fn
-    (args next-fn)
-    (let
-      ((l1 (first args)) (l2 (first (rest args))))
-      (let
-        ((p1 (clos-slot-value l1 "p1"))
-          (p2 (clos-slot-value l1 "p2"))
-          (p3 (clos-slot-value l2 "p1"))
-          (p4 (clos-slot-value l2 "p2")))
-        (let
-          ((dx1 (- (geo-point-x p2) (geo-point-x p1)))
-            (dy1 (- (geo-point-y p2) (geo-point-y p1)))
-            (dx2 (- (geo-point-x p4) (geo-point-x p3)))
-            (dy2 (- (geo-point-y p4) (geo-point-y p3))))
-          (let
-            ((cross (- (* dx1 dy2) (* dy1 dx2))))
-            (if (= cross 0) "parallel" "point")))))))
-
-;; line ∩ plane: general case = point (or parallel if line ⊥ normal)
-(clos-defmethod
-  "intersect"
-  (list)
-  (list "geo-line" "geo-plane")
-  (fn
-    (args next-fn)
-    (let
-      ((ln (first args)) (pl (first (rest args))))
-      (let
-        ((p1 (clos-slot-value ln "p1"))
-          (p2 (clos-slot-value ln "p2"))
-          (n (clos-slot-value pl "normal")))
-        (let
-          ((dx (- (geo-point-x p2) (geo-point-x p1)))
-            (dy (- (geo-point-y p2) (geo-point-y p1)))
-            (nx (first n))
-            (ny (first (rest n))))
-          (let
-            ((dot (+ (* dx nx) (* dy ny))))
-            (if (= dot 0) "parallel" "point")))))))
-
-;; ── tests ─────────────────────────────────────────────────────────────────
-
-(define passed 0)
-(define failed 0)
-(define failures (list))
-
-(define
-  check
-  (fn
-    (label got expected)
-    (if
-      (= got expected)
-      (set! passed (+ passed 1))
-      (begin
-        (set! failed (+ failed 1))
-        (set!
-          failures
-          (append
-            failures
-            (list
-              (str
-                "FAIL ["
-                label
-                "]: got="
-                (inspect got)
-                " expected="
-                (inspect expected)))))))))
-
-;; describe
-(check
-  "describe point"
-  (clos-call-generic
-    "geo-describe"
-    (list (geo-make-point 3 4)))
-  "P(3,4)")
-(check
-  "describe line"
-  (clos-call-generic
-    "geo-describe"
-    (list
-      (geo-make-line
-        (geo-make-point 0 0)
-        (geo-make-point 1 1))))
-  "L[P(0,0)-P(1,1)]")
-(check
-  "describe plane"
-  (clos-call-generic
-    "geo-describe"
-    (list (geo-make-plane 0 1 5)))
-  "Plane(d=5)")
-
-;; intersect point×point
-(check
-  "P∩P same"
-  (clos-call-generic
-    "intersect"
-    (list
-      (geo-make-point 2 3)
-      (geo-make-point 2 3)))
-  "point")
-(check
-  "P∩P diff"
-  (clos-call-generic
-    "intersect"
-    (list
-      (geo-make-point 1 2)
-      (geo-make-point 3 4)))
-  "empty")
-
-;; intersect point×line
-(let
-  ((origin (geo-make-point 0 0))
-    (p10 (geo-make-point 10 0))
-    (p55 (geo-make-point 5 5))
-    (l-x
-      (geo-make-line
-        (geo-make-point 0 0)
-        (geo-make-point 10 0))))
-  (begin
-    (check
-      "P∩L on line"
-      (clos-call-generic "intersect" (list p10 l-x))
-      "point")
-    (check
-      "P∩L on x-axis"
-      (clos-call-generic "intersect" (list origin l-x))
-      "point")
-    (check
-      "P∩L off line"
-      (clos-call-generic "intersect" (list p55 l-x))
-      "empty")))
-
-;; intersect line×line
-(let
-  ((horiz (geo-make-line (geo-make-point 0 0) (geo-make-point 10 0)))
-    (vert
-      (geo-make-line
-        (geo-make-point 5 -5)
-        (geo-make-point 5 5)))
-    (horiz2
-      (geo-make-line
-        (geo-make-point 0 3)
-        (geo-make-point 10 3))))
-  (begin
-    (check
-      "L∩L crossing"
-      (clos-call-generic "intersect" (list horiz vert))
-      "point")
-    (check
-      "L∩L parallel"
-      (clos-call-generic "intersect" (list horiz horiz2))
-      "parallel")))
-
-;; intersect line×plane
-(let
-  ((diag (geo-make-line (geo-make-point 0 0) (geo-make-point 1 1)))
-    (vert-plane (geo-make-plane 1 0 5))
-    (diag-plane (geo-make-plane -1 1 0)))
-  (begin
-    (check
-      "L∩Plane cross"
-      (clos-call-generic "intersect" (list diag vert-plane))
-      "point")
-    (check
-      "L∩Plane parallel"
-      (clos-call-generic "intersect" (list diag diag-plane))
-      "parallel")))
-
-;; ── summary ────────────────────────────────────────────────────────────────
-
-(define geo-passed passed)
-(define geo-failed failed)
-(define geo-failures failures)
--- a/lib/common-lisp/tests/programs/interactive-debugger.sx
+++ b/lib/common-lisp/tests/programs/interactive-debugger.sx
@@ -1,196 +0,0 @@
-;; interactive-debugger.sx — Condition debugger using *debugger-hook*
-;;
-;; Demonstrates the classic CL debugger pattern:
-;;   - *debugger-hook* is invoked when an unhandled error reaches the top level
-;;   - The hook receives the condition and a reference to itself
-;;   - It can offer restarts interactively (here simulated with a policy fn)
-;;
-;; In real CL the debugger reads from the terminal. Here we simulate
-;; the "user input" via a policy function passed in at call time.
-;;
-;; Depends on: lib/common-lisp/runtime.sx already loaded.
-
-;; ── *debugger-hook* global ────────────────────────────────────────────────
-;;
-;; CL: when error is unhandled, invoke *debugger-hook* with (condition hook).
-;; A nil hook means use the system default (which we simulate as re-raise).
-
-(define cl-debugger-hook nil)
-
-;; ── invoke-debugger ────────────────────────────────────────────────────────
-;;
-;; Called when cl-error finds no handler. Tries cl-debugger-hook first;
-;; falls back to a simple error report.
-
-(define
-  cl-invoke-debugger
-  (fn
-    (c)
-    (if
-      (nil? cl-debugger-hook)
-      (error (str "Debugger: " (cl-condition-message c)))
-      (begin
-        (let
-          ((hook cl-debugger-hook))
-          (set! cl-debugger-hook nil)
-          (let
-            ((result (hook c hook)))
-            (set! cl-debugger-hook hook)
-            result))))))
-
-;; ── cl-error/debugger — error that routes through invoke-debugger ─────────
-
-(define
-  cl-error-with-debugger
-  (fn
-    (c &rest args)
-    (let
-      ((obj (cond ((cl-condition? c) c) ((string? c) (cl-make-condition "simple-error" "format-control" c "format-arguments" args)) (:else (cl-make-condition "simple-error" "format-control" (str c))))))
-      (cl-signal-obj obj cl-handler-stack)
-      (cl-invoke-debugger obj))))
-
-;; ── simulated debugger session ────────────────────────────────────────────
-;;
-;; A debugger hook takes (condition hook) and "reads" user commands.
-;; We simulate this with a policy function: (fn (c restarts) restart-name)
-;; that picks a restart given the condition and available restarts.
-
-(define
-  make-policy-debugger
-  (fn
-    (policy)
-    (fn
-      (c hook)
-      (let
-        ((available (cl-compute-restarts)))
-        (let
-          ((choice (policy c available)))
-          (if
-            (and choice (not (nil? (cl-find-restart choice))))
-            (cl-invoke-restart choice)
-            (error
-              (str
-                "Debugger: no restart chosen for: "
-                (cl-condition-message c)))))))))
-
-;; ── tests ─────────────────────────────────────────────────────────────────
-
-(define passed 0)
-(define failed 0)
-(define failures (list))
-
-(define
-  check
-  (fn
-    (label got expected)
-    (if
-      (= got expected)
-      (set! passed (+ passed 1))
-      (begin
-        (set! failed (+ failed 1))
-        (set!
-          failures
-          (append
-            failures
-            (list
-              (str
-                "FAIL ["
-                label
-                "]: got="
-                (inspect got)
-                " expected="
-                (inspect expected)))))))))
-
-(define
-  reset-stacks!
-  (fn
-    ()
-    (set! cl-handler-stack (list))
-    (set! cl-restart-stack (list))
-    (set! cl-debugger-hook nil)))
-
-;; Test 1: debugger hook receives condition
-(reset-stacks!)
-(let
-  ((received-msg ""))
-  (begin
-    (set!
-      cl-debugger-hook
-      (fn (c hook) (set! received-msg (cl-condition-message c)) nil))
-    (cl-restart-case
-      (fn () (cl-error-with-debugger "something broke"))
-      (list "abort" (list) (fn () nil)))
-    (check "debugger hook receives condition" received-msg "something broke")))
-
-;; Test 2: policy-driven restart selection (use-zero)
-(reset-stacks!)
-(let
-  ((result (begin (set! cl-debugger-hook (make-policy-debugger (fn (c restarts) "use-zero"))) (cl-restart-case (fn () (cl-error-with-debugger (cl-make-condition "division-by-zero")) 999) (list "use-zero" (list) (fn () 0))))))
-  (check "policy debugger: use-zero restart" result 0))
-
-;; Test 3: policy selects abort
-(reset-stacks!)
-(let
-  ((result (begin (set! cl-debugger-hook (make-policy-debugger (fn (c restarts) "abort"))) (cl-restart-case (fn () (cl-error-with-debugger "aborting error") 999) (list "abort" (list) (fn () "aborted"))))))
-  (check "policy debugger: abort restart" result "aborted"))
-
-;; Test 4: compute-restarts inside debugger hook
-(reset-stacks!)
-(let
-  ((seen-restarts (list)))
-  (begin
-    (set!
-      cl-debugger-hook
-      (fn
-        (c hook)
-        (set! seen-restarts (cl-compute-restarts))
-        (cl-invoke-restart "continue")))
-    (cl-restart-case
-      (fn () (cl-error-with-debugger "test") 42)
-      (list "continue" (list) (fn () "ok"))
-      (list "abort" (list) (fn () "no")))
-    (check
-      "debugger: compute-restarts visible"
-      (= (len seen-restarts) 2)
-      true)))
-
-;; Test 5: hook not invoked when handler catches first
-(reset-stacks!)
-(let
-  ((hook-called false)
-    (result
-      (begin
-        (set! cl-debugger-hook (fn (c hook) (set! hook-called true) nil))
-        (cl-handler-case
-          (fn () (cl-error-with-debugger "handled"))
-          (list "error" (fn (c) "handler-won"))))))
-  (check "handler wins; hook not called" hook-called false)
-  (check "handler result returned" result "handler-won"))
-
-;; Test 6: debugger-hook nil after re-raise guard
-(reset-stacks!)
-(let
-  ((hook-calls 0))
-  (begin
-    (set!
-      cl-debugger-hook
-      (fn
-        (c hook)
-        (set! hook-calls (+ hook-calls 1))
-        (if
-          (> hook-calls 1)
-          (error "infinite loop guard")
-          (cl-invoke-restart "escape"))))
-    (cl-restart-case
-      (fn () (cl-error-with-debugger "once"))
-      (list "escape" (list) (fn () nil)))
-    (check
-      "hook called exactly once (no infinite recursion)"
-      hook-calls
-      1)))
-
-;; ── summary ────────────────────────────────────────────────────────────────
-
-(define debugger-passed passed)
-(define debugger-failed failed)
-(define debugger-failures failures)
--- a/lib/common-lisp/tests/programs/mop-trace.sx
+++ b/lib/common-lisp/tests/programs/mop-trace.sx
@@ -1,228 +0,0 @@
-;; mop-trace.sx — :before/:after method tracing with CLOS
-;;
-;; Classic CLOS pattern: instrument generic functions with :before and :after
-;; qualifiers to print call/return traces without modifying the primary method.
-;;
-;; Depends on: lib/common-lisp/runtime.sx, lib/common-lisp/clos.sx
-
-;; ── trace log (mutable accumulator) ───────────────────────────────────────
-
-(define trace-log (list))
-
-(define
-  trace-push
-  (fn (msg) (set! trace-log (append trace-log (list msg)))))
-
-(define trace-clear (fn () (set! trace-log (list))))
-
-;; ── domain classes ─────────────────────────────────────────────────────────
-
-(clos-defclass "shape" (list "t") (list {:initform "white" :initarg ":color" :reader nil :writer nil :accessor nil :name "color"}))
-
-(clos-defclass "circle" (list "shape") (list {:initform 1 :initarg ":radius" :reader nil :writer nil :accessor nil :name "radius"}))
-
-(clos-defclass "rect" (list "shape") (list {:initform 1 :initarg ":width" :reader nil :writer nil :accessor nil :name "width"} {:initform 1 :initarg ":height" :reader nil :writer nil :accessor nil :name "height"}))
-
-;; ── generic function: area ─────────────────────────────────────────────────
-
-(clos-defgeneric "area" {})
-
-;; primary methods
-(clos-defmethod
-  "area"
-  (list)
-  (list "circle")
-  (fn
-    (args next-fn)
-    (let
-      ((c (first args)))
-      (let ((r (clos-slot-value c "radius"))) (* r r)))))
-
-(clos-defmethod
-  "area"
-  (list)
-  (list "rect")
-  (fn
-    (args next-fn)
-    (let
-      ((r (first args)))
-      (* (clos-slot-value r "width") (clos-slot-value r "height")))))
-
-;; :before tracing
-(clos-defmethod
-  "area"
-  (list "before")
-  (list "shape")
-  (fn
-    (args next-fn)
-    (trace-push (str "BEFORE area(" (clos-class-of (first args)) ")"))))
-
-;; :after tracing
-(clos-defmethod
-  "area"
-  (list "after")
-  (list "shape")
-  (fn
-    (args next-fn)
-    (trace-push (str "AFTER area(" (clos-class-of (first args)) ")"))))
-
-;; ── generic function: describe-shape ──────────────────────────────────────
-
-(clos-defgeneric "describe-shape" {})
-
-(clos-defmethod
-  "describe-shape"
-  (list)
-  (list "shape")
-  (fn
-    (args next-fn)
-    (let
-      ((s (first args)))
-      (str "shape[" (clos-slot-value s "color") "]"))))
-
-(clos-defmethod
-  "describe-shape"
-  (list)
-  (list "circle")
-  (fn
-    (args next-fn)
-    (let
-      ((c (first args)))
-      (str
-        "circle[r="
-        (clos-slot-value c "radius")
-        " "
-        (clos-call-next-method next-fn)
-        "]"))))
-
-(clos-defmethod
-  "describe-shape"
-  (list)
-  (list "rect")
-  (fn
-    (args next-fn)
-    (let
-      ((r (first args)))
-      (str
-        "rect["
-        (clos-slot-value r "width")
-        "x"
-        (clos-slot-value r "height")
-        " "
-        (clos-call-next-method next-fn)
-        "]"))))
-
-;; :before on base shape (fires for all subclasses too)
-(clos-defmethod
-  "describe-shape"
-  (list "before")
-  (list "shape")
-  (fn
-    (args next-fn)
-    (trace-push
-      (str "BEFORE describe-shape(" (clos-class-of (first args)) ")"))))
-
-;; ── tests ─────────────────────────────────────────────────────────────────
-
-(define passed 0)
-(define failed 0)
-(define failures (list))
-
-(define
-  check
-  (fn
-    (label got expected)
-    (if
-      (= got expected)
-      (set! passed (+ passed 1))
-      (begin
-        (set! failed (+ failed 1))
-        (set!
-          failures
-          (append
-            failures
-            (list
-              (str
-                "FAIL ["
-                label
-                "]: got="
-                (inspect got)
-                " expected="
-                (inspect expected)))))))))
-
-;; ── area tests ────────────────────────────────────────────────────────────
-
-;; circle area = r*r (no pi — integer arithmetic for predictability)
-(let
-  ((c (clos-make-instance "circle" ":radius" 5 ":color" "red")))
-  (do
-    (trace-clear)
-    (check "circle area" (clos-call-generic "area" (list c)) 25)
-    (check
-      ":before fired for circle"
-      (= (first trace-log) "BEFORE area(circle)")
-      true)
-    (check
-      ":after fired for circle"
-      (= (first (rest trace-log)) "AFTER area(circle)")
-      true)
-    (check "trace length 2" (len trace-log) 2)))
-
-;; rect area = w*h
-(let
-  ((r (clos-make-instance "rect" ":width" 4 ":height" 6 ":color" "blue")))
-  (do
-    (trace-clear)
-    (check "rect area" (clos-call-generic "area" (list r)) 24)
-    (check
-      ":before fired for rect"
-      (= (first trace-log) "BEFORE area(rect)")
-      true)
-    (check
-      ":after fired for rect"
-      (= (first (rest trace-log)) "AFTER area(rect)")
-      true)
-    (check "trace length 2 (rect)" (len trace-log) 2)))
-
-;; ── describe-shape tests ───────────────────────────────────────────────────
-
-(let
-  ((c (clos-make-instance "circle" ":radius" 3 ":color" "green")))
-  (do
-    (trace-clear)
-    (check
-      "circle describe"
-      (clos-call-generic "describe-shape" (list c))
-      "circle[r=3 shape[green]]")
-    (check
-      ":before fired for describe circle"
-      (= (first trace-log) "BEFORE describe-shape(circle)")
-      true)))
-
-(let
-  ((r (clos-make-instance "rect" ":width" 2 ":height" 7 ":color" "black")))
-  (do
-    (trace-clear)
-    (check
-      "rect describe"
-      (clos-call-generic "describe-shape" (list r))
-      "rect[2x7 shape[black]]")
-    (check
-      ":before fired for describe rect"
-      (= (first trace-log) "BEFORE describe-shape(rect)")
-      true)))
-
-;; ── call-next-method: circle -> shape ─────────────────────────────────────
-
-(let
-  ((c (clos-make-instance "circle" ":radius" 1 ":color" "purple")))
-  (check
-    "call-next-method result in describe"
-    (clos-call-generic "describe-shape" (list c))
-    "circle[r=1 shape[purple]]"))
-
-;; ── summary ────────────────────────────────────────────────────────────────
-
-(define mop-passed passed)
-(define mop-failed failed)
-(define mop-failures failures)
--- a/lib/common-lisp/tests/programs/parse-recover.sx
+++ b/lib/common-lisp/tests/programs/parse-recover.sx
@@ -1,163 +0,0 @@
-;; parse-recover.sx — Parser with skipped-token restart
-;;
-;; Classic CL pattern: a simple token parser that signals a condition
-;; when it encounters an unexpected token. The :skip-token restart
-;; allows the parser to continue past the offending token.
-;;
-;; Depends on: lib/common-lisp/runtime.sx already loaded.
-
-;; ── condition type ─────────────────────────────────────────────────────────
-
-(cl-define-condition "parse-error" (list "error") (list "token" "position"))
-
-;; ── simple token parser ────────────────────────────────────────────────────
-;;
-;; parse-numbers: given a list of tokens (strings), parse integers.
-;; Non-integer tokens signal parse-error with two restarts:
-;;   skip-token   — skip the bad token and continue
-;;   use-zero     — use 0 in place of the bad token
-
-(define
-  parse-numbers
-  (fn
-    (tokens)
-    (define result (list))
-    (define
-      process
-      (fn
-        (toks)
-        (if
-          (empty? toks)
-          result
-          (let
-            ((tok (first toks)) (rest-toks (rest toks)))
-            (let
-              ((n (string->number tok 10)))
-              (if
-                n
-                (begin
-                  (set! result (append result (list n)))
-                  (process rest-toks))
-                (cl-restart-case
-                  (fn
-                    ()
-                    (cl-signal
-                      (cl-make-condition
-                        "parse-error"
-                        "token"
-                        tok
-                        "position"
-                        (len result)))
-                    (set! result (append result (list 0)))
-                    (process rest-toks))
-                  (list "skip-token" (list) (fn () (process rest-toks)))
-                  (list
-                    "use-zero"
-                    (list)
-                    (fn
-                      ()
-                      (begin
-                        (set! result (append result (list 0)))
-                        (process rest-toks)))))))))))
-    (process tokens)
-    result))
-
-;; ── tests ─────────────────────────────────────────────────────────────────
-
-(define passed 0)
-(define failed 0)
-(define failures (list))
-
-(define
-  check
-  (fn
-    (label got expected)
-    (if
-      (= got expected)
-      (set! passed (+ passed 1))
-      (begin
-        (set! failed (+ failed 1))
-        (set!
-          failures
-          (append
-            failures
-            (list
-              (str
-                "FAIL ["
-                label
-                "]: got="
-                (inspect got)
-                " expected="
-                (inspect expected)))))))))
-
-(define
-  reset-stacks!
-  (fn () (set! cl-handler-stack (list)) (set! cl-restart-stack (list))))
-
-;; All valid tokens
-(reset-stacks!)
-(check
-  "all valid: 1 2 3"
-  (cl-handler-bind
-    (list (list "parse-error" (fn (c) (cl-invoke-restart "skip-token"))))
-    (fn () (parse-numbers (list "1" "2" "3"))))
-  (list 1 2 3))
-
-;; Skip bad token
-(reset-stacks!)
-(check
-  "skip bad token: 1 x 3 -> (1 3)"
-  (cl-handler-bind
-    (list (list "parse-error" (fn (c) (cl-invoke-restart "skip-token"))))
-    (fn () (parse-numbers (list "1" "x" "3"))))
-  (list 1 3))
-
-;; Use zero for bad token
-(reset-stacks!)
-(check
-  "use-zero for bad: 1 x 3 -> (1 0 3)"
-  (cl-handler-bind
-    (list (list "parse-error" (fn (c) (cl-invoke-restart "use-zero"))))
-    (fn () (parse-numbers (list "1" "x" "3"))))
-  (list 1 0 3))
-
-;; Multiple bad tokens, all skipped
-(reset-stacks!)
-(check
-  "skip multiple bad: a 2 b 4 -> (2 4)"
-  (cl-handler-bind
-    (list (list "parse-error" (fn (c) (cl-invoke-restart "skip-token"))))
-    (fn () (parse-numbers (list "a" "2" "b" "4"))))
-  (list 2 4))
-
-;; handler-case: abort on first bad token
-(reset-stacks!)
-(check
-  "handler-case: abort on first bad"
-  (cl-handler-case
-    (fn () (parse-numbers (list "1" "bad" "3")))
-    (list
-      "parse-error"
-      (fn
-        (c)
-        (str
-          "parse error at position "
-          (cl-condition-slot c "position")
-          ": "
-          (cl-condition-slot c "token")))))
-  "parse error at position 1: bad")
-
-;; Verify condition type hierarchy
-(reset-stacks!)
-(check
-  "parse-error isa error"
-  (cl-condition-of-type?
-    (cl-make-condition "parse-error" "token" "x" "position" 0)
-    "error")
-  true)
-
-;; ── summary ────────────────────────────────────────────────────────────────
-
-(define parse-passed passed)
-(define parse-failed failed)
-(define parse-failures failures)
--- a/lib/common-lisp/tests/programs/restart-demo.sx
+++ b/lib/common-lisp/tests/programs/restart-demo.sx
@@ -1,141 +0,0 @@
-;; restart-demo.sx — Classic CL condition system demo
-;;
-;; Demonstrates resumable exceptions via restarts.
-;; The `safe-divide` function signals a division-by-zero condition
-;; and offers two restarts:
-;;   :use-zero  — return 0 as the result
-;;   :retry     — call safe-divide again with a corrected divisor
-;;
-;; Depends on: lib/common-lisp/runtime.sx already loaded.
-
-;; ── safe-divide ────────────────────────────────────────────────────────────
-;;
-;; Divides numerator by denominator.
-;; When denominator is 0, signals division-by-zero with two restarts.
-
-(define
-  safe-divide
-  (fn
-    (n d)
-    (if
-      (= d 0)
-      (cl-restart-case
-        (fn
-          ()
-          (cl-signal
-            (cl-make-condition
-              "division-by-zero"
-              "operation"
-              "/"
-              "operands"
-              (list n d)))
-          (error "division by zero — no restart invoked"))
-        (list "use-zero" (list) (fn () 0))
-        (list "retry" (list "d") (fn (d2) (safe-divide n d2))))
-      (/ n d))))
-
-;; ── tests ─────────────────────────────────────────────────────────────────
-
-(define passed 0)
-(define failed 0)
-(define failures (list))
-
-(define
-  check
-  (fn
-    (label got expected)
-    (if
-      (= got expected)
-      (set! passed (+ passed 1))
-      (begin
-        (set! failed (+ failed 1))
-        (set!
-          failures
-          (append
-            failures
-            (list
-              (str
-                "FAIL ["
-                label
-                "]: got="
-                (inspect got)
-                " expected="
-                (inspect expected)))))))))
-
-(define
-  reset-stacks!
-  (fn () (set! cl-handler-stack (list)) (set! cl-restart-stack (list))))
-
-;; Normal division
-(reset-stacks!)
-(check "10 / 2 = 5" (safe-divide 10 2) 5)
-
-;; Invoke use-zero restart
-(reset-stacks!)
-(check
-  "10 / 0 -> use-zero"
-  (cl-handler-bind
-    (list
-      (list "division-by-zero" (fn (c) (cl-invoke-restart "use-zero"))))
-    (fn () (safe-divide 10 0)))
-  0)
-
-;; Invoke retry restart with a corrected denominator
-(reset-stacks!)
-(check
-  "10 / 0 -> retry with 2"
-  (cl-handler-bind
-    (list
-      (list
-        "division-by-zero"
-        (fn (c) (cl-invoke-restart "retry" 2))))
-    (fn () (safe-divide 10 0)))
-  5)
-
-;; Nested calls: outer handles the inner divide-by-zero
-(reset-stacks!)
-(check
-  "nested: 20 / (0->4) = 5"
-  (cl-handler-bind
-    (list
-      (list
-        "division-by-zero"
-        (fn (c) (cl-invoke-restart "retry" 4))))
-    (fn () (let ((r1 (safe-divide 20 0))) r1)))
-  5)
-
-;; handler-case — unwinding version
-(reset-stacks!)
-(check
-  "handler-case: catches division-by-zero"
-  (cl-handler-case
-    (fn () (safe-divide 9 0))
-    (list "division-by-zero" (fn (c) "caught!")))
-  "caught!")
-
-;; Verify use-zero is idempotent (two uses)
-(reset-stacks!)
-(check
-  "two use-zero invocations"
-  (cl-handler-bind
-    (list
-      (list "division-by-zero" (fn (c) (cl-invoke-restart "use-zero"))))
-    (fn
-      ()
-      (+
-        (safe-divide 10 0)
-        (safe-divide 3 0))))
-  0)
-
-;; No restart needed for normal division
-(reset-stacks!)
-(check
-  "no restart needed for 8/4"
-  (safe-divide 8 4)
-  2)
-
-;; ── summary ────────────────────────────────────────────────────────────────
-
-(define demo-passed passed)
-(define demo-failed failed)
-(define demo-failures failures)
--- a/lib/common-lisp/tests/read.sx
+++ b/lib/common-lisp/tests/read.sx
@@ -1,180 +0,0 @@
-;; Common Lisp tokenizer tests
-
-(define cl-test-pass 0)
-(define cl-test-fail 0)
-(define cl-test-fails (list))
-
-(define
-  cl-test
-  (fn
-    (name actual expected)
-    (if
-      (= actual expected)
-      (set! cl-test-pass (+ cl-test-pass 1))
-      (do
-        (set! cl-test-fail (+ cl-test-fail 1))
-        (append! cl-test-fails {:name name :expected expected :actual actual})))))
-
-;; Helpers: extract types and values from token stream (drops eof)
-(define
-  cl-tok-types
-  (fn
-    (src)
-    (map
-      (fn (t) (get t "type"))
-      (filter (fn (t) (not (= (get t "type") "eof"))) (cl-tokenize src)))))
-
-(define
-  cl-tok-values
-  (fn
-    (src)
-    (map
-      (fn (t) (get t "value"))
-      (filter (fn (t) (not (= (get t "type") "eof"))) (cl-tokenize src)))))
-
-(define
-  cl-tok-first
-  (fn (src) (nth (cl-tokenize src) 0)))
-
-;; ── symbols ───────────────────────────────────────────────────────
-
-(cl-test "symbol: bare lowercase" (cl-tok-values "foo") (list "FOO"))
-(cl-test "symbol: uppercase" (cl-tok-values "BAR") (list "BAR"))
-(cl-test "symbol: mixed case folded" (cl-tok-values "FooBar") (list "FOOBAR"))
-(cl-test "symbol: with hyphen" (cl-tok-values "foo-bar") (list "FOO-BAR"))
-(cl-test "symbol: with star" (cl-tok-values "*special*") (list "*SPECIAL*"))
-(cl-test "symbol: with question" (cl-tok-values "null?") (list "NULL?"))
-(cl-test "symbol: with exclamation" (cl-tok-values "set!") (list "SET!"))
-(cl-test "symbol: plus sign alone" (cl-tok-values "+") (list "+"))
-(cl-test "symbol: minus sign alone" (cl-tok-values "-") (list "-"))
-(cl-test "symbol: type is symbol" (cl-tok-types "foo") (list "symbol"))
-
-;; ── package-qualified symbols ─────────────────────────────────────
-
-(cl-test "symbol: pkg:sym external" (cl-tok-values "cl:car") (list "CL:CAR"))
-(cl-test "symbol: pkg::sym internal" (cl-tok-values "pkg::foo") (list "PKG::FOO"))
-(cl-test "symbol: cl:car type" (cl-tok-types "cl:car") (list "symbol"))
-
-;; ── keywords ──────────────────────────────────────────────────────
-
-(cl-test "keyword: basic" (cl-tok-values ":foo") (list "FOO"))
-(cl-test "keyword: type" (cl-tok-types ":foo") (list "keyword"))
-(cl-test "keyword: upcase" (cl-tok-values ":hello-world") (list "HELLO-WORLD"))
-(cl-test "keyword: multiple" (cl-tok-types ":a :b :c") (list "keyword" "keyword" "keyword"))
-
-;; ── integers ──────────────────────────────────────────────────────
-
-(cl-test "integer: zero" (cl-tok-values "0") (list "0"))
-(cl-test "integer: positive" (cl-tok-values "42") (list "42"))
-(cl-test "integer: negative" (cl-tok-values "-5") (list "-5"))
-(cl-test "integer: positive-sign" (cl-tok-values "+3") (list "+3"))
-(cl-test "integer: type" (cl-tok-types "42") (list "integer"))
-(cl-test "integer: multi-digit" (cl-tok-values "12345678") (list "12345678"))
-
-;; ── hex, binary, octal ───────────────────────────────────────────
-
-(cl-test "hex: lowercase x" (cl-tok-values "#xFF") (list "#xFF"))
-(cl-test "hex: uppercase X" (cl-tok-values "#XFF") (list "#XFF"))
-(cl-test "hex: type" (cl-tok-types "#xFF") (list "integer"))
-(cl-test "hex: zero" (cl-tok-values "#x0") (list "#x0"))
-(cl-test "binary: #b" (cl-tok-values "#b1010") (list "#b1010"))
-(cl-test "binary: type" (cl-tok-types "#b1010") (list "integer"))
-(cl-test "octal: #o" (cl-tok-values "#o17") (list "#o17"))
-(cl-test "octal: type" (cl-tok-types "#o17") (list "integer"))
-
-;; ── floats ────────────────────────────────────────────────────────
-
-(cl-test "float: basic" (cl-tok-values "3.14") (list "3.14"))
-(cl-test "float: type" (cl-tok-types "3.14") (list "float"))
-(cl-test "float: negative" (cl-tok-values "-2.5") (list "-2.5"))
-(cl-test "float: exponent" (cl-tok-values "1.0e10") (list "1.0e10"))
-(cl-test "float: neg exponent" (cl-tok-values "1.5e-3") (list "1.5e-3"))
-(cl-test "float: leading dot" (cl-tok-values ".5") (list "0.5"))
-(cl-test "float: exp only" (cl-tok-values "1e5") (list "1e5"))
-
-;; ── ratios ────────────────────────────────────────────────────────
-
-(cl-test "ratio: 1/3" (cl-tok-values "1/3") (list "1/3"))
-(cl-test "ratio: type" (cl-tok-types "1/3") (list "ratio"))
-(cl-test "ratio: 22/7" (cl-tok-values "22/7") (list "22/7"))
-(cl-test "ratio: negative" (cl-tok-values "-1/2") (list "-1/2"))
-
-;; ── strings ───────────────────────────────────────────────────────
-
-(cl-test "string: empty" (cl-tok-values "\"\"") (list ""))
-(cl-test "string: basic" (cl-tok-values "\"hello\"") (list "hello"))
-(cl-test "string: type" (cl-tok-types "\"hello\"") (list "string"))
-(cl-test "string: with space" (cl-tok-values "\"hello world\"") (list "hello world"))
-(cl-test "string: escaped quote" (cl-tok-values "\"say \\\"hi\\\"\"") (list "say \"hi\""))
-(cl-test "string: escaped backslash" (cl-tok-values "\"a\\\\b\"") (list "a\\b"))
-(cl-test "string: newline escape" (cl-tok-values "\"a\\nb\"") (list "a\nb"))
-(cl-test "string: tab escape" (cl-tok-values "\"a\\tb\"") (list "a\tb"))
-
-;; ── characters ────────────────────────────────────────────────────
-
-(cl-test "char: lowercase a" (cl-tok-values "#\\a") (list "a"))
-(cl-test "char: uppercase A" (cl-tok-values "#\\A") (list "A"))
-(cl-test "char: digit" (cl-tok-values "#\\1") (list "1"))
-(cl-test "char: type" (cl-tok-types "#\\a") (list "char"))
-(cl-test "char: Space" (cl-tok-values "#\\Space") (list " "))
-(cl-test "char: Newline" (cl-tok-values "#\\Newline") (list "\n"))
-(cl-test "char: Tab" (cl-tok-values "#\\Tab") (list "\t"))
-(cl-test "char: Return" (cl-tok-values "#\\Return") (list "\r"))
-
-;; ── reader macros ─────────────────────────────────────────────────
-
-(cl-test "quote: type" (cl-tok-types "'x") (list "quote" "symbol"))
-(cl-test "backquote: type" (cl-tok-types "`x") (list "backquote" "symbol"))
-(cl-test "comma: type" (cl-tok-types ",x") (list "comma" "symbol"))
-(cl-test "comma-at: type" (cl-tok-types ",@x") (list "comma-at" "symbol"))
-(cl-test "hash-quote: type" (cl-tok-types "#'foo") (list "hash-quote" "symbol"))
-(cl-test "hash-paren: type" (cl-tok-types "#(1 2)") (list "hash-paren" "integer" "integer" "rparen"))
-
-;; ── uninterned ────────────────────────────────────────────────────
-
-(cl-test "uninterned: type" (cl-tok-types "#:foo") (list "uninterned"))
-(cl-test "uninterned: value upcase" (cl-tok-values "#:foo") (list "FOO"))
-(cl-test "uninterned: compound" (cl-tok-values "#:my-sym") (list "MY-SYM"))
-
-;; ── parens and structure ──────────────────────────────────────────
-
-(cl-test "paren: empty list" (cl-tok-types "()") (list "lparen" "rparen"))
-(cl-test "paren: nested" (cl-tok-types "((a))") (list "lparen" "lparen" "symbol" "rparen" "rparen"))
-(cl-test "dot: standalone" (cl-tok-types "(a . b)") (list "lparen" "symbol" "dot" "symbol" "rparen"))
-
-;; ── comments ──────────────────────────────────────────────────────
-
-(cl-test "comment: line" (cl-tok-types "; comment\nfoo") (list "symbol"))
-(cl-test "comment: inline" (cl-tok-values "foo ; bar\nbaz") (list "FOO" "BAZ"))
-(cl-test "block-comment: basic" (cl-tok-types "#| hello |# foo") (list "symbol"))
-(cl-test "block-comment: nested" (cl-tok-types "#| a #| b |# c |# x") (list "symbol"))
-
-;; ── combined ──────────────────────────────────────────────────────
-
-(cl-test
-  "combined: defun skeleton"
-  (cl-tok-types "(defun foo (x) x)")
-  (list "lparen" "symbol" "symbol" "lparen" "symbol" "rparen" "symbol" "rparen"))
-
-(cl-test
-  "combined: let form"
-  (cl-tok-types "(let ((x 1)) x)")
-  (list
-    "lparen"
-    "symbol"
-    "lparen"
-    "lparen"
-    "symbol"
-    "integer"
-    "rparen"
-    "rparen"
-    "symbol"
-    "rparen"))
-
-(cl-test
-  "combined: whitespace skip"
-  (cl-tok-values "  foo   bar   baz  ")
-  (list "FOO" "BAR" "BAZ"))
-
-(cl-test "eof: present" (get (nth (cl-tokenize "") 0) "type") "eof")
-(cl-test "eof: at end of tokens" (get (nth (cl-tokenize "x") 1) "type") "eof")
--- a/lib/common-lisp/tests/stdlib.sx
+++ b/lib/common-lisp/tests/stdlib.sx
@@ -1,285 +0,0 @@
-;; lib/common-lisp/tests/stdlib.sx — Phase 6: sequence, list, string functions
-
-(define ev (fn (src) (cl-eval-str src (cl-make-env))))
-
-(define passed 0)
-(define failed 0)
-(define failures (list))
-
-(define
-  check
-  (fn
-    (label got expected)
-    (if
-      (= got expected)
-      (set! passed (+ passed 1))
-      (begin
-        (set! failed (+ failed 1))
-        (set!
-          failures
-          (append
-            failures
-            (list
-              (str
-                "FAIL ["
-                label
-                "]: got="
-                (inspect got)
-                " expected="
-                (inspect expected)))))))))
-
-;; ── mapc ─────────────────────────────────────────────────────────
-
-(check "mapc returns list"
-  (ev "(mapc #'1+ '(1 2 3))")
-  (list 1 2 3))
-
-;; ── mapcan ───────────────────────────────────────────────────────
-
-(check "mapcan basic"
-  (ev "(mapcan (lambda (x) (list x (* x x))) '(1 2 3))")
-  (list 1 1 2 4 3 9))
-
-(check "mapcan filter-like"
-  (ev "(mapcan (lambda (x) (if (evenp x) (list x) nil)) '(1 2 3 4 5 6))")
-  (list 2 4 6))
-
-;; ── reduce ───────────────────────────────────────────────────────
-
-(check "reduce sum"
-  (ev "(reduce #'+ '(1 2 3 4 5))")
-  15)
-
-(check "reduce with initial-value"
-  (ev "(reduce #'+ '(1 2 3) :initial-value 10)")
-  16)
-
-(check "reduce max"
-  (ev "(reduce (lambda (a b) (if (> a b) a b)) '(3 1 4 1 5 9 2 6))")
-  9)
-
-;; ── find ─────────────────────────────────────────────────────────
-
-(check "find present"
-  (ev "(find 3 '(1 2 3 4 5))")
-  3)
-
-(check "find absent"
-  (ev "(find 9 '(1 2 3))")
-  nil)
-
-(check "find-if present"
-  (ev "(find-if #'evenp '(1 3 4 7))")
-  4)
-
-(check "find-if absent"
-  (ev "(find-if #'evenp '(1 3 5))")
-  nil)
-
-(check "find-if-not"
-  (ev "(find-if-not #'evenp '(2 4 5 6))")
-  5)
-
-;; ── position ─────────────────────────────────────────────────────
-
-(check "position found"
-  (ev "(position 3 '(1 2 3 4 5))")
-  2)
-
-(check "position not found"
-  (ev "(position 9 '(1 2 3))")
-  nil)
-
-(check "position-if"
-  (ev "(position-if #'evenp '(1 3 4 8))")
-  2)
-
-;; ── count ────────────────────────────────────────────────────────
-
-(check "count"
-  (ev "(count 2 '(1 2 3 2 4 2))")
-  3)
-
-(check "count-if"
-  (ev "(count-if #'evenp '(1 2 3 4 5 6))")
-  3)
-
-;; ── every / some / notany / notevery ─────────────────────────────
-
-(check "every true"
-  (ev "(every #'evenp '(2 4 6))")
-  true)
-
-(check "every false"
-  (ev "(every #'evenp '(2 3 6))")
-  nil)
-
-(check "every empty"
-  (ev "(every #'evenp '())")
-  true)
-
-(check "some truthy"
-  (ev "(some #'evenp '(1 3 4))")
-  true)
-
-(check "some nil"
-  (ev "(some #'evenp '(1 3 5))")
-  nil)
-
-(check "notany true"
-  (ev "(notany #'evenp '(1 3 5))")
-  true)
-
-(check "notany false"
-  (ev "(notany #'evenp '(1 2 5))")
-  nil)
-
-(check "notevery false"
-  (ev "(notevery #'evenp '(2 4 6))")
-  nil)
-
-(check "notevery true"
-  (ev "(notevery #'evenp '(2 3 6))")
-  true)
-
-;; ── remove ───────────────────────────────────────────────────────
-
-(check "remove"
-  (ev "(remove 3 '(1 2 3 4 3 5))")
-  (list 1 2 4 5))
-
-(check "remove-if"
-  (ev "(remove-if #'evenp '(1 2 3 4 5 6))")
-  (list 1 3 5))
-
-(check "remove-if-not"
-  (ev "(remove-if-not #'evenp '(1 2 3 4 5 6))")
-  (list 2 4 6))
-
-;; ── member ───────────────────────────────────────────────────────
-
-(check "member found"
-  (ev "(member 3 '(1 2 3 4 5))")
-  (list 3 4 5))
-
-(check "member not found"
-  (ev "(member 9 '(1 2 3))")
-  nil)
-
-;; ── subst ────────────────────────────────────────────────────────
-
-(check "subst flat"
-  (ev "(subst 'b 'a '(a b c a))")
-  (list "B" "B" "C" "B"))
-
-(check "subst nested"
-  (ev "(subst 99 1 '(1 (2 1) 3))")
-  (list 99 (list 2 99) 3))
-
-;; ── assoc ────────────────────────────────────────────────────────
-
-(check "assoc found"
-  (ev "(assoc 'b '((a 1) (b 2) (c 3)))")
-  (list "B" 2))
-
-(check "assoc not found"
-  (ev "(assoc 'z '((a 1) (b 2)))")
-  nil)
-
-;; ── list ops ─────────────────────────────────────────────────────
-
-(check "last"
-  (ev "(last '(1 2 3 4))")
-  (list 4))
-
-(check "butlast"
-  (ev "(butlast '(1 2 3 4))")
-  (list 1 2 3))
-
-(check "nthcdr"
-  (ev "(nthcdr 2 '(a b c d))")
-  (list "C" "D"))
-
-(check "list*"
-  (ev "(list* 1 2 '(3 4))")
-  (list 1 2 3 4))
-
-(check "cadr"
-  (ev "(cadr '(1 2 3))")
-  2)
-
-(check "caddr"
-  (ev "(caddr '(1 2 3))")
-  3)
-
-(check "cadddr"
-  (ev "(cadddr '(1 2 3 4))")
-  4)
-
-(check "cddr"
-  (ev "(cddr '(1 2 3 4))")
-  (list 3 4))
-
-;; ── subseq ───────────────────────────────────────────────────────
-
-(check "subseq string"
-  (ev "(subseq \"hello\" 1 3)")
-  "el")
-
-(check "subseq list"
-  (ev "(subseq '(a b c d) 1 3)")
-  (list "B" "C"))
-
-(check "subseq no end"
-  (ev "(subseq \"hello\" 2)")
-  "llo")
-
-;; ── FORMAT ─────────────────────────────────────────────────────────
-
-(check "format ~A"
-  (ev "(format nil \"hello ~A\" \"world\")")
-  "hello world")
-
-(check "format ~D"
-  (ev "(format nil \"~D items\" 42)")
-  "42 items")
-
-(check "format two args"
-  (ev "(format nil \"~A ~A\" 1 2)")
-  "1 2")
-
-(check "format ~A+~A=~A"
-  (ev "(format nil \"~A + ~A = ~A\" 1 2 3)")
-  "1 + 2 = 3")
-
-(check "format iterate"
-  (ev "(format nil \"~{~A~}\" (quote (1 2 3)))")
-  "123")
-
-(check "format iterate with space"
-  (ev "(format nil \"(~{~A ~})\" (quote (1 2 3)))")
-  "(1 2 3 )")
-
-;; ── packages ─────────────────────────────────────────────────────
-
-(check "defpackage returns name"
-  (ev "(defpackage :my-pkg (:use :cl))")
-  "MY-PKG")
-
-(check "in-package"
-  (ev "(progn (defpackage :test-pkg) (in-package :test-pkg) (package-name))")
-  "TEST-PKG")
-
-(check "package-qualified function"
-  (ev "(cl:car (quote (1 2 3)))")
-  1)
-
-(check "package-qualified function 2"
-  (ev "(cl:mapcar (function evenp) (quote (2 3 4)))")
-  (list true nil true))
-
-;; ── summary ──────────────────────────────────────────────────────
-
-(define stdlib-passed passed)
-(define stdlib-failed failed)
-(define stdlib-failures failures)
--- a/lib/erlang/bench_ring.sh
+++ b/lib/erlang/bench_ring.sh
@@ -1,86 +0,0 @@
-#!/usr/bin/env bash
-# Erlang-on-SX ring benchmark.
-#
-# Spawns N processes in a ring, passes a token N hops (one full round),
-# and reports wall-clock time + throughput. Aspirational target from
-# the plan is 1M processes; current sync-scheduler architecture caps out
-# orders of magnitude lower — this script measures honestly across a
-# range of N so the result/scaling is recorded.
-#
-# Usage:
-#   bash lib/erlang/bench_ring.sh                # default ladder
-#   bash lib/erlang/bench_ring.sh 100 1000 5000  # custom Ns
-
-set -uo pipefail
-cd "$(git rev-parse --show-toplevel)"
-
-SX_SERVER="${SX_SERVER:-hosts/ocaml/_build/default/bin/sx_server.exe}"
-if [ ! -x "$SX_SERVER" ]; then
-  SX_SERVER="/root/rose-ash/hosts/ocaml/_build/default/bin/sx_server.exe"
-fi
-if [ ! -x "$SX_SERVER" ]; then
-  echo "ERROR: sx_server.exe not found." >&2
-  exit 1
-fi
-
-if [ "$#" -gt 0 ]; then
-  NS=("$@")
-else
-  NS=(10 100 500 1000)
-fi
-
-TMPFILE=$(mktemp)
-trap "rm -f $TMPFILE" EXIT
-
-# One-line Erlang program. Replaces __N__ with the size for each run.
-PROGRAM='Me = self(), N = __N__, Spawner = fun () -> receive {setup, Next} -> Loop = fun () -> receive {token, 0, Parent} -> Parent ! done; {token, K, Parent} -> Next ! {token, K-1, Parent}, Loop() end end, Loop() end end, BuildRing = fun (K, Acc) -> if K =:= 0 -> Acc; true -> BuildRing(K-1, [spawn(Spawner) | Acc]) end end, Pids = BuildRing(N, []), Wire = fun (Ps) -> case Ps of [P, Q | _] -> P ! {setup, Q}, Wire(tl(Ps)); [Last] -> Last ! {setup, hd(Pids)} end end, Wire(Pids), hd(Pids) ! {token, N, Me}, receive done -> done end'
-
-run_n() {
-  local n="$1"
-  local prog="${PROGRAM//__N__/$n}"
-  cat > "$TMPFILE" <<EPOCHS
-(epoch 1)
-(load "lib/erlang/tokenizer.sx")
-(load "lib/erlang/parser.sx")
-(load "lib/erlang/parser-core.sx")
-(load "lib/erlang/parser-expr.sx")
-(load "lib/erlang/parser-module.sx")
-(load "lib/erlang/transpile.sx")
-(load "lib/erlang/runtime.sx")
-(epoch 2)
-(eval "(erlang-eval-ast \"${prog//\"/\\\"}\")")
-EPOCHS
-
-  local start_s start_ns end_s end_ns elapsed_ms
-  start_s=$(date +%s)
-  start_ns=$(date +%N)
-  out=$(timeout 300 "$SX_SERVER" < "$TMPFILE" 2>&1)
-  end_s=$(date +%s)
-  end_ns=$(date +%N)
-
-  local ok="false"
-  if echo "$out" | grep -q ':name "done"'; then ok="true"; fi
-
-  # ms = (end_s - start_s)*1000 + (end_ns - start_ns)/1e6
-  elapsed_ms=$(awk -v s1="$start_s" -v n1="$start_ns" -v s2="$end_s" -v n2="$end_ns" \
-    'BEGIN { printf "%d", (s2 - s1) * 1000 + (n2 - n1) / 1000000 }')
-
-  if [ "$ok" = "true" ]; then
-    local hops_per_s
-    hops_per_s=$(awk -v n="$n" -v ms="$elapsed_ms" \
-      'BEGIN { if (ms == 0) ms = 1; printf "%.0f", n * 1000 / ms }')
-    printf "  N=%-8s  hops=%-8s  %sms  (%s hops/s)\n" "$n" "$n" "$elapsed_ms" "$hops_per_s"
-  else
-    printf "  N=%-8s  FAILED  %sms\n" "$n" "$elapsed_ms"
-  fi
-}
-
-echo "Ring benchmark — sx_server.exe (synchronous scheduler)"
-echo
-for n in "${NS[@]}"; do
-  run_n "$n"
-done
-echo
-echo "Note: 1M-process target from the plan is aspirational; the synchronous"
-echo "scheduler with shift-based suspension and dict-based env copies is not"
-echo "engineered for that scale. Numbers above are honest baselines."
--- a/lib/erlang/bench_ring_results.md
+++ b/lib/erlang/bench_ring_results.md
@@ -1,35 +0,0 @@
-# Ring Benchmark Results
-
-Generated by `lib/erlang/bench_ring.sh` against `sx_server.exe` on the
-synchronous Erlang-on-SX scheduler.
-
-| N (processes) | Hops | Wall-clock | Throughput |
-|---|---|---|---|
-| 10 | 10 | 907ms | 11 hops/s |
-| 50 | 50 | 2107ms | 24 hops/s |
-| 100 | 100 | 3827ms | 26 hops/s |
-| 500 | 500 | 17004ms | 29 hops/s |
-| 1000 | 1000 | 29832ms | 34 hops/s |
-
-(Each `Nm` row spawns N processes connected in a ring and passes a
-single token N hops total — i.e. the token completes one full lap.)
-
-## Status of the 1M-process target
-
-Phase 3's stretch goal in `plans/erlang-on-sx.md` is a million-process
-ring benchmark. **That target is not met** in the current synchronous
-scheduler; extrapolating from the table above, 1M hops would take
-~30 000 s. Correctness is fine — the program runs at every measured
-size — but throughput is bound by per-hop overhead.
-
-Per-hop cost is dominated by:
- `er-env-copy` per fun clause attempt (whole-dict copy each time)
- `call/cc` capture + `raise`/`guard` unwind on every `receive`
- `er-q-delete-at!` rebuilds the mailbox backing list on every match
- `dict-set!`/`dict-has?` lookups in the global processes table
-
-To reach 1M-process throughput in this architecture would need at
-least: persistent (path-copying) envs, an inline scheduler that
-doesn't call/cc on the common path (msg-already-in-mailbox), and a
-linked-list mailbox. None of those are in scope for the Phase 3
-checkbox — captured here as the floor we're starting from.
--- a/lib/erlang/conformance.sh
+++ b/lib/erlang/conformance.sh
@@ -1,153 +0,0 @@
-#!/usr/bin/env bash
-# Erlang-on-SX conformance runner.
-#
-# Loads every erlang test suite via the epoch protocol, collects
-# pass/fail counts, and writes lib/erlang/scoreboard.json + .md.
-#
-# Usage:
-#   bash lib/erlang/conformance.sh           # run all suites
-#   bash lib/erlang/conformance.sh -v        # verbose per-suite
-
-set -uo pipefail
-cd "$(git rev-parse --show-toplevel)"
-
-SX_SERVER="${SX_SERVER:-hosts/ocaml/_build/default/bin/sx_server.exe}"
-if [ ! -x "$SX_SERVER" ]; then
-  SX_SERVER="/root/rose-ash/hosts/ocaml/_build/default/bin/sx_server.exe"
-fi
-if [ ! -x "$SX_SERVER" ]; then
-  echo "ERROR: sx_server.exe not found." >&2
-  exit 1
-fi
-
-VERBOSE="${1:-}"
-TMPFILE=$(mktemp)
-OUTFILE=$(mktemp)
-trap "rm -f $TMPFILE $OUTFILE" EXIT
-
-# Each suite: name | counter pass | counter total
-SUITES=(
-  "tokenize|er-test-pass|er-test-count"
-  "parse|er-parse-test-pass|er-parse-test-count"
-  "eval|er-eval-test-pass|er-eval-test-count"
-  "runtime|er-rt-test-pass|er-rt-test-count"
-  "ring|er-ring-test-pass|er-ring-test-count"
-  "ping-pong|er-pp-test-pass|er-pp-test-count"
-  "bank|er-bank-test-pass|er-bank-test-count"
-  "echo|er-echo-test-pass|er-echo-test-count"
-  "fib|er-fib-test-pass|er-fib-test-count"
-)
-
-cat > "$TMPFILE" << 'EPOCHS'
-(epoch 1)
-(load "lib/erlang/tokenizer.sx")
-(load "lib/erlang/parser.sx")
-(load "lib/erlang/parser-core.sx")
-(load "lib/erlang/parser-expr.sx")
-(load "lib/erlang/parser-module.sx")
-(load "lib/erlang/transpile.sx")
-(load "lib/erlang/runtime.sx")
-(load "lib/erlang/tests/tokenize.sx")
-(load "lib/erlang/tests/parse.sx")
-(load "lib/erlang/tests/eval.sx")
-(load "lib/erlang/tests/runtime.sx")
-(load "lib/erlang/tests/programs/ring.sx")
-(load "lib/erlang/tests/programs/ping_pong.sx")
-(load "lib/erlang/tests/programs/bank.sx")
-(load "lib/erlang/tests/programs/echo.sx")
-(load "lib/erlang/tests/programs/fib_server.sx")
-(epoch 100)
-(eval "(list er-test-pass er-test-count)")
-(epoch 101)
-(eval "(list er-parse-test-pass er-parse-test-count)")
-(epoch 102)
-(eval "(list er-eval-test-pass er-eval-test-count)")
-(epoch 103)
-(eval "(list er-rt-test-pass er-rt-test-count)")
-(epoch 104)
-(eval "(list er-ring-test-pass er-ring-test-count)")
-(epoch 105)
-(eval "(list er-pp-test-pass er-pp-test-count)")
-(epoch 106)
-(eval "(list er-bank-test-pass er-bank-test-count)")
-(epoch 107)
-(eval "(list er-echo-test-pass er-echo-test-count)")
-(epoch 108)
-(eval "(list er-fib-test-pass er-fib-test-count)")
-EPOCHS
-
-timeout 120 "$SX_SERVER" < "$TMPFILE" > "$OUTFILE" 2>&1
-
-# Parse "(N M)" from the line after each "(ok-len <epoch> ...)" marker.
-parse_pair() {
-  local epoch="$1"
-  local line
-  line=$(grep -A1 "^(ok-len $epoch " "$OUTFILE" | tail -1)
-  echo "$line" | sed -E 's/[()]//g'
-}
-
-TOTAL_PASS=0
-TOTAL_COUNT=0
-JSON_SUITES=""
-MD_ROWS=""
-
-idx=0
-for entry in "${SUITES[@]}"; do
-  name="${entry%%|*}"
-  epoch=$((100 + idx))
-  pair=$(parse_pair "$epoch")
-  pass=$(echo "$pair" | awk '{print $1}')
-  count=$(echo "$pair" | awk '{print $2}')
-  if [ -z "$pass" ] || [ -z "$count" ]; then
-    pass=0
-    count=0
-  fi
-  TOTAL_PASS=$((TOTAL_PASS + pass))
-  TOTAL_COUNT=$((TOTAL_COUNT + count))
-  status="ok"
-  marker="✅"
-  if [ "$pass" != "$count" ]; then
-    status="fail"
-    marker="❌"
-  fi
-  if [ "$VERBOSE" = "-v" ]; then
-    printf "  %-12s %s/%s\n" "$name" "$pass" "$count"
-  fi
-  if [ -n "$JSON_SUITES" ]; then JSON_SUITES+=","; fi
-  JSON_SUITES+=$'\n    '
-  JSON_SUITES+="{\"name\":\"$name\",\"pass\":$pass,\"total\":$count,\"status\":\"$status\"}"
-  MD_ROWS+="| $marker | $name | $pass | $count |"$'\n'
-  idx=$((idx + 1))
-done
-
-printf '\nErlang-on-SX conformance: %d / %d\n' "$TOTAL_PASS" "$TOTAL_COUNT"
-
-# scoreboard.json
-cat > lib/erlang/scoreboard.json <<JSON
-{
-  "language": "erlang",
-  "total_pass": $TOTAL_PASS,
-  "total": $TOTAL_COUNT,
-  "suites": [$JSON_SUITES
-  ]
-}
-JSON
-
-# scoreboard.md
-cat > lib/erlang/scoreboard.md <<MD
-# Erlang-on-SX Scoreboard
-
-**Total: ${TOTAL_PASS} / ${TOTAL_COUNT} tests passing**
-
-|  | Suite | Pass | Total |
-|---|---|---|---|
-$MD_ROWS
-
-Generated by \`lib/erlang/conformance.sh\`.
-MD
-
-if [ "$TOTAL_PASS" -eq "$TOTAL_COUNT" ]; then
-  exit 0
-else
-  exit 1
-fi
--- a/lib/erlang/parser-expr.sx
+++ b/lib/erlang/parser-expr.sx
@@ -237,8 +237,6 @@
        (er-parse-fun-expr st)
        (er-is? st "keyword" "try")
        (er-parse-try st)
-        (er-is? st "punct" "<<")
-        (er-parse-binary st)
        :else (error
          (str
            "Erlang parse: unexpected "
@@ -283,56 +281,12 @@
  (fn
    (st)
    (er-expect! st "punct" "[")
-    (cond
+    (if
      (er-is? st "punct" "]")
      (do (er-advance! st) {:type "nil"})
-      :else (let
-        ((first (er-parse-expr-prec st 0)))
-        (cond
-          (er-is? st "punct" "||") (er-parse-list-comp st first)
-          :else (er-parse-list-tail st (list first)))))))
-
-(define
-  er-parse-list-comp
-  (fn
-    (st head)
-    (er-advance! st)
-    (let
-      ((quals (list (er-parse-lc-qualifier st))))
-      (er-parse-list-comp-tail st head quals))))
-
-(define
-  er-parse-list-comp-tail
-  (fn
-    (st head quals)
-    (cond
-      (er-is? st "punct" ",")
-      (do
-        (er-advance! st)
-        (append! quals (er-parse-lc-qualifier st))
-        (er-parse-list-comp-tail st head quals))
-      (er-is? st "punct" "]")
-      (do (er-advance! st) {:head head :qualifiers quals :type "lc"})
-      :else (error
-        (str
-          "Erlang parse: expected ',' or ']' in list comprehension, got '"
-          (er-cur-value st)
-          "'")))))
-
-(define
-  er-parse-lc-qualifier
-  (fn
-    (st)
-    (let
-      ((e (er-parse-expr-prec st 0)))
-      (cond
-        (er-is? st "punct" "<-")
-        (do
-          (er-advance! st)
-          (let
-            ((source (er-parse-expr-prec st 0)))
-            {:kind "gen" :pattern e :source source}))
-        :else {:kind "filter" :expr e}))))
+      (let
+        ((elems (list (er-parse-expr-prec st 0))))
+        (er-parse-list-tail st elems)))))

 (define
  er-parse-list-tail
@@ -578,63 +532,3 @@
          ((guards (if (er-is? st "keyword" "when") (do (er-advance! st) (er-parse-guards st)) (list))))
          (er-expect! st "punct" "->")
          (let ((body (er-parse-body st))) {:pattern pat :body body :class klass :guards guards}))))))
-
-;; ── binary literals / patterns ────────────────────────────────
-;; `<< [Seg {, Seg}] >>` where Seg = Value [: Size] [/ Spec]. Size is
-;; a literal integer (multiple of 8 supported); Spec is `integer`
-;; (default) or `binary` (rest-of-binary tail). Sufficient for the
-;; common `<<A:8, B:16, Rest/binary>>` patterns.
-(define
-  er-parse-binary
-  (fn
-    (st)
-    (er-expect! st "punct" "<<")
-    (cond
-      (er-is? st "punct" ">>")
-      (do (er-advance! st) {:segments (list) :type "binary"})
-      :else (let
-        ((segs (list (er-parse-binary-segment st))))
-        (er-parse-binary-tail st segs)))))
-
-(define
-  er-parse-binary-tail
-  (fn
-    (st segs)
-    (cond
-      (er-is? st "punct" ",")
-      (do
-        (er-advance! st)
-        (append! segs (er-parse-binary-segment st))
-        (er-parse-binary-tail st segs))
-      (er-is? st "punct" ">>")
-      (do (er-advance! st) {:segments segs :type "binary"})
-      :else (error
-        (str
-          "Erlang parse: expected ',' or '>>' in binary, got '"
-          (er-cur-value st)
-          "'")))))
-
-(define
-  er-parse-binary-segment
-  (fn
-    (st)
-    ;; Use `er-parse-primary` for the value so a leading `:` falls
-    ;; through to the segment's size suffix instead of being eaten
-    ;; by `er-parse-postfix-loop` as a `Mod:Fun` remote call.
-    (let
-      ((v (er-parse-primary st)))
-      (let
-        ((size (cond
-                 (er-is? st "punct" ":")
-                 (do (er-advance! st) (er-parse-primary st))
-                 :else nil))
-          (spec (cond
-                  (er-is? st "op" "/")
-                  (do
-                    (er-advance! st)
-                    (let
-                      ((tok (er-cur st)))
-                      (er-advance! st)
-                      (get tok :value)))
-                  :else "integer")))
-        {:size size :spec spec :value v}))))
--- a/lib/erlang/runtime.sx
+++ b/lib/erlang/runtime.sx
--- a/lib/erlang/scoreboard.json
+++ b/lib/erlang/scoreboard.json
@@ -1,16 +0,0 @@
-{
-  "language": "erlang",
-  "total_pass": 530,
-  "total": 530,
-  "suites": [
-    {"name":"tokenize","pass":62,"total":62,"status":"ok"},
-    {"name":"parse","pass":52,"total":52,"status":"ok"},
-    {"name":"eval","pass":346,"total":346,"status":"ok"},
-    {"name":"runtime","pass":39,"total":39,"status":"ok"},
-    {"name":"ring","pass":4,"total":4,"status":"ok"},
-    {"name":"ping-pong","pass":4,"total":4,"status":"ok"},
-    {"name":"bank","pass":8,"total":8,"status":"ok"},
-    {"name":"echo","pass":7,"total":7,"status":"ok"},
-    {"name":"fib","pass":8,"total":8,"status":"ok"}
-  ]
-}
--- a/lib/erlang/scoreboard.md
+++ b/lib/erlang/scoreboard.md
@@ -1,18 +0,0 @@
-# Erlang-on-SX Scoreboard
-
-**Total: 530 / 530 tests passing**
-
-|  | Suite | Pass | Total |
-|---|---|---|---|
-| ✅ | tokenize | 62 | 62 |
-| ✅ | parse | 52 | 52 |
-| ✅ | eval | 346 | 346 |
-| ✅ | runtime | 39 | 39 |
-| ✅ | ring | 4 | 4 |
-| ✅ | ping-pong | 4 | 4 |
-| ✅ | bank | 8 | 8 |
-| ✅ | echo | 7 | 7 |
-| ✅ | fib | 8 | 8 |
-
-
-Generated by `lib/erlang/conformance.sh`.
--- a/lib/erlang/test.sh
+++ b/lib/erlang/test.sh
@@ -1,260 +0,0 @@
-#!/usr/bin/env bash
-# lib/erlang/test.sh — smoke-test the Erlang runtime layer.
-# Uses sx_server.exe epoch protocol.
-#
-# Usage:
-#   bash lib/erlang/test.sh
-#   bash lib/erlang/test.sh -v
-
-set -uo pipefail
-cd "$(git rev-parse --show-toplevel)"
-
-SX_SERVER="${SX_SERVER:-hosts/ocaml/_build/default/bin/sx_server.exe}"
-if [ ! -x "$SX_SERVER" ]; then
-  SX_SERVER="/root/rose-ash/hosts/ocaml/_build/default/bin/sx_server.exe"
-fi
-if [ ! -x "$SX_SERVER" ]; then
-  echo "ERROR: sx_server.exe not found. Run: cd hosts/ocaml && dune build"
-  exit 1
-fi
-
-VERBOSE="${1:-}"
-PASS=0; FAIL=0; ERRORS=""
-TMPFILE=$(mktemp); trap "rm -f $TMPFILE" EXIT
-
-cat > "$TMPFILE" << 'EPOCHS'
-(epoch 1)
-(load "lib/erlang/runtime.sx")
-
-;; --- Numeric tower ---
-(epoch 10)
-(eval "(er-is-integer? 42)")
-(epoch 11)
-(eval "(er-is-integer? 3.14)")
-(epoch 12)
-(eval "(er-is-float? 3.14)")
-(epoch 13)
-(eval "(er-is-float? 42)")
-(epoch 14)
-(eval "(er-is-number? 42)")
-(epoch 15)
-(eval "(er-is-number? 3.14)")
-(epoch 16)
-(eval "(er-float 5)")
-(epoch 17)
-(eval "(er-trunc 3.9)")
-(epoch 18)
-(eval "(er-round 3.5)")
-(epoch 19)
-(eval "(er-abs -7)")
-(epoch 20)
-(eval "(er-max 3 7)")
-(epoch 21)
-(eval "(er-min 3 7)")
-
-;; --- div + rem ---
-(epoch 30)
-(eval "(er-div 10 3)")
-(epoch 31)
-(eval "(er-div -10 3)")
-(epoch 32)
-(eval "(er-rem 10 3)")
-(epoch 33)
-(eval "(er-rem -10 3)")
-(epoch 34)
-(eval "(er-gcd 12 8)")
-
-;; --- Bitwise ---
-(epoch 40)
-(eval "(er-band 12 10)")
-(epoch 41)
-(eval "(er-bor 12 10)")
-(epoch 42)
-(eval "(er-bxor 12 10)")
-(epoch 43)
-(eval "(er-bnot 0)")
-(epoch 44)
-(eval "(er-bsl 1 4)")
-(epoch 45)
-(eval "(er-bsr 16 2)")
-
-;; --- Sets ---
-(epoch 50)
-(eval "(er-sets-is-set? (er-sets-new))")
-(epoch 51)
-(eval "(let ((s (er-sets-new))) (do (er-sets-add-element s 1) (er-sets-is-element s 1)))")
-(epoch 52)
-(eval "(er-sets-is-element (er-sets-new) 42)")
-(epoch 53)
-(eval "(er-sets-is-element (er-sets-from-list (list 1 2 3)) 2)")
-(epoch 54)
-(eval "(er-sets-size (er-sets-from-list (list 1 2 3)))")
-(epoch 55)
-(eval "(len (er-sets-to-list (er-sets-from-list (list 1 2 3))))")
-
-;; --- Regexp ---
-(epoch 60)
-(eval "(not (= (er-re-run \"hello\" \"ll\") nil))")
-(epoch 61)
-(eval "(= (er-re-run \"hello\" \"xyz\") nil)")
-(epoch 62)
-(eval "(get (er-re-run \"hello\" \"ll\") :match)")
-(epoch 63)
-(eval "(er-re-replace \"hello\" \"l\" \"r\")")
-(epoch 64)
-(eval "(er-re-replace-all \"hello\" \"l\" \"r\")")
-(epoch 65)
-(eval "(er-re-match-groups (er-re-run \"hello world\" \"(\\w+)\\s+(\\w+)\"))")
-(epoch 66)
-(eval "(len (er-re-split \"a,b,c\" \",\"))")
-
-;; --- List BIFs ---
-(epoch 70)
-(eval "(er-hd (list 1 2 3))")
-(epoch 71)
-(eval "(er-tl (list 1 2 3))")
-(epoch 72)
-(eval "(er-length (list 1 2 3))")
-(epoch 73)
-(eval "(er-lists-member 2 (list 1 2 3))")
-(epoch 74)
-(eval "(er-lists-member 9 (list 1 2 3))")
-(epoch 75)
-(eval "(er-lists-reverse (list 1 2 3))")
-(epoch 76)
-(eval "(er-lists-nth 2 (list 10 20 30))")
-(epoch 77)
-(eval "(er-lists-foldl + 0 (list 1 2 3 4 5))")
-(epoch 78)
-(eval "(er-lists-seq 1 5)")
-(epoch 79)
-(eval "(er-lists-flatten (list 1 (list 2 3) (list 4 (list 5))))")
-
-;; --- Type conversions ---
-(epoch 80)
-(eval "(er-integer-to-list 42)")
-(epoch 81)
-(eval "(er-list-to-integer \"42\")")
-(epoch 82)
-(eval "(er-integer-to-list-radix 255 16)")
-(epoch 83)
-(eval "(er-atom-to-list (make-symbol \"hello\"))")
-(epoch 84)
-(eval "(= (type-of (er-list-to-atom \"foo\")) \"symbol\")")
-
-;; --- ok/error tuples ---
-(epoch 90)
-(eval "(er-is-ok? (er-ok 42))")
-(epoch 91)
-(eval "(er-is-error? (er-error \"reason\"))")
-(epoch 92)
-(eval "(er-unwrap (er-ok 42))")
-(epoch 93)
-(eval "(er-is-ok? (er-error \"bad\"))")
-
-EPOCHS
-
-OUTPUT=$(timeout 30 "$SX_SERVER" < "$TMPFILE" 2>/dev/null)
-
-check() {
-  local epoch="$1" desc="$2" expected="$3"
-  local actual
-  actual=$(echo "$OUTPUT" | grep -A1 "^(ok-len $epoch " | tail -1 || true)
-  if echo "$actual" | grep -q "^(ok-len"; then actual=""; fi
-  if [ -z "$actual" ]; then
-    actual=$(echo "$OUTPUT" | grep "^(ok $epoch " | head -1 || true)
-  fi
-  if [ -z "$actual" ]; then
-    actual=$(echo "$OUTPUT" | grep "^(error $epoch " | head -1 || true)
-  fi
-  [ -z "$actual" ] && actual="<no output for epoch $epoch>"
-
-  if echo "$actual" | grep -qF -- "$expected"; then
-    PASS=$((PASS+1))
-    [ "$VERBOSE" = "-v" ] && echo "  ok $desc"
-  else
-    FAIL=$((FAIL+1))
-    ERRORS+="  FAIL [$desc] (epoch $epoch) expected: $expected | actual: $actual
-"
-  fi
-}
-
-# Numeric tower
-check 10  "is-integer? 42"        "true"
-check 11  "is-integer? float"     "false"
-check 12  "is-float? 3.14"        "true"
-check 13  "is-float? int"         "false"
-check 14  "is-number? int"        "true"
-check 15  "is-number? float"      "true"
-check 16  "float 5"               "5"
-check 17  "trunc 3.9"             "3"
-check 18  "round 3.5"             "4"
-check 19  "abs -7"                "7"
-check 20  "max 3 7"               "7"
-check 21  "min 3 7"               "3"
-
-# div + rem
-check 30  "div 10 3"              "3"
-check 31  "div -10 3"             "-3"
-check 32  "rem 10 3"              "1"
-check 33  "rem -10 3"             "-1"
-check 34  "gcd 12 8"              "4"
-
-# Bitwise
-check 40  "band 12 10"            "8"
-check 41  "bor 12 10"             "14"
-check 42  "bxor 12 10"            "6"
-check 43  "bnot 0"                "-1"
-check 44  "bsl 1 4"               "16"
-check 45  "bsr 16 2"              "4"
-
-# Sets
-check 50  "sets-new is-set?"      "true"
-check 51  "sets add+member"       "true"
-check 52  "member empty"          "false"
-check 53  "from-list member"      "true"
-check 54  "sets-size"             "3"
-check 55  "sets-to-list len"      "3"
-
-# Regexp
-check 60  "re-run match"          "true"
-check 61  "re-run no match"       "true"
-check 62  "re-run match text"     '"ll"'
-check 63  "re-replace first"      '"herlo"'
-check 64  "re-replace-all"        '"herro"'
-check 65  "re-match-groups"       '"hello"'
-check 66  "re-split count"        "3"
-
-# List BIFs
-check 70  "hd"                    "1"
-check 71  "tl"                    "(2 3)"
-check 72  "length"                "3"
-check 73  "member hit"            "true"
-check 74  "member miss"           "false"
-check 75  "reverse"               "(3 2 1)"
-check 76  "nth 2"                 "20"
-check 77  "foldl sum"             "15"
-check 78  "seq 1..5"              "(1 2 3 4 5)"
-check 79  "flatten"               "(1 2 3 4 5)"
-
-# Type conversions
-check 80  "integer-to-list"       '"42"'
-check 81  "list-to-integer"       "42"
-check 82  "integer-to-list hex"   '"ff"'
-check 83  "atom-to-list"          '"hello"'
-check 84  "list-to-atom"          "true"
-
-# ok/error
-check 90  "ok? ok-tuple"          "true"
-check 91  "error? error-tuple"    "true"
-check 92  "unwrap ok"             "42"
-check 93  "ok? error-tuple"       "false"
-
-TOTAL=$((PASS+FAIL))
-if [ $FAIL -eq 0 ]; then
-  echo "ok $PASS/$TOTAL lib/erlang tests passed"
-else
-  echo "FAIL $PASS/$TOTAL passed, $FAIL failed:"
-  echo "$ERRORS"
-fi
-[ $FAIL -eq 0 ]
--- a/lib/erlang/tests/eval.sx
+++ b/lib/erlang/tests/eval.sx
--- a/lib/erlang/tests/programs/bank.sx
+++ b/lib/erlang/tests/programs/bank.sx
@@ -1,159 +0,0 @@
-;; Bank account server — stateful process, balance threaded through
-;; recursive loop. Handles {deposit, Amt, From}, {withdraw, Amt, From},
-;; {balance, From}, stop. Tests stateful process patterns.
-
-(define er-bank-test-count 0)
-(define er-bank-test-pass 0)
-(define er-bank-test-fails (list))
-
-(define
-  er-bank-test
-  (fn
-    (name actual expected)
-    (set! er-bank-test-count (+ er-bank-test-count 1))
-    (if
-      (= actual expected)
-      (set! er-bank-test-pass (+ er-bank-test-pass 1))
-      (append! er-bank-test-fails {:actual actual :expected expected :name name}))))
-
-(define bank-ev erlang-eval-ast)
-
-;; Server fun shared by all tests — threaded via the program string.
-(define
-  er-bank-server-src
-  "Server = fun (Balance) ->
-     receive
-       {deposit, Amt, From} -> From ! ok, Server(Balance + Amt);
-       {withdraw, Amt, From} ->
-         if Amt > Balance -> From ! insufficient, Server(Balance);
-            true -> From ! ok, Server(Balance - Amt)
-         end;
-       {balance, From} -> From ! Balance, Server(Balance);
-       stop -> ok
-     end
-   end")
-
-;; Open account, deposit, check balance.
-(er-bank-test
-  "deposit 100 -> balance 100"
-  (bank-ev
-    (str
-      er-bank-server-src
-      ", Me = self(),
-       Bank = spawn(fun () -> Server(0) end),
-       Bank ! {deposit, 100, Me},
-       receive ok -> ok end,
-       Bank ! {balance, Me},
-       receive B -> Bank ! stop, B end"))
-  100)
-
-;; Multiple deposits accumulate.
-(er-bank-test
-  "deposits accumulate"
-  (bank-ev
-    (str
-      er-bank-server-src
-      ", Me = self(),
-       Bank = spawn(fun () -> Server(0) end),
-       Bank ! {deposit, 50, Me}, receive ok -> ok end,
-       Bank ! {deposit, 25, Me}, receive ok -> ok end,
-       Bank ! {deposit, 10, Me}, receive ok -> ok end,
-       Bank ! {balance, Me},
-       receive B -> Bank ! stop, B end"))
-  85)
-
-;; Withdraw within balance succeeds; insufficient gets rejected.
-(er-bank-test
-  "withdraw within balance"
-  (bank-ev
-    (str
-      er-bank-server-src
-      ", Me = self(),
-       Bank = spawn(fun () -> Server(100) end),
-       Bank ! {withdraw, 30, Me}, receive ok -> ok end,
-       Bank ! {balance, Me},
-       receive B -> Bank ! stop, B end"))
-  70)
-
-(er-bank-test
-  "withdraw insufficient"
-  (get
-    (bank-ev
-      (str
-        er-bank-server-src
-        ", Me = self(),
-         Bank = spawn(fun () -> Server(20) end),
-         Bank ! {withdraw, 100, Me},
-         receive R -> Bank ! stop, R end"))
-    :name)
-  "insufficient")
-
-;; State preserved across an insufficient withdrawal.
-(er-bank-test
-  "state preserved on rejection"
-  (bank-ev
-    (str
-      er-bank-server-src
-      ", Me = self(),
-       Bank = spawn(fun () -> Server(50) end),
-       Bank ! {withdraw, 1000, Me}, receive _ -> ok end,
-       Bank ! {balance, Me},
-       receive B -> Bank ! stop, B end"))
-  50)
-
-;; Mixed deposits and withdrawals.
-(er-bank-test
-  "mixed transactions"
-  (bank-ev
-    (str
-      er-bank-server-src
-      ", Me = self(),
-       Bank = spawn(fun () -> Server(100) end),
-       Bank ! {deposit, 50, Me}, receive ok -> ok end,
-       Bank ! {withdraw, 30, Me}, receive ok -> ok end,
-       Bank ! {deposit, 10, Me}, receive ok -> ok end,
-       Bank ! {withdraw, 5, Me}, receive ok -> ok end,
-       Bank ! {balance, Me},
-       receive B -> Bank ! stop, B end"))
-  125)
-
-;; Server.stop terminates the bank cleanly — main can verify by
-;; sending stop and then exiting normally.
-(er-bank-test
-  "server stops cleanly"
-  (get
-    (bank-ev
-      (str
-        er-bank-server-src
-        ", Me = self(),
-         Bank = spawn(fun () -> Server(0) end),
-         Bank ! stop,
-         done"))
-    :name)
-  "done")
-
-;; Two clients sharing one bank — interleaved transactions.
-(er-bank-test
-  "two clients share bank"
-  (bank-ev
-    (str
-      er-bank-server-src
-      ", Me = self(),
-       Bank = spawn(fun () -> Server(0) end),
-       Client = fun (Amt) ->
-         spawn(fun () ->
-           Bank ! {deposit, Amt, self()},
-           receive ok -> Me ! deposited end
-         end)
-       end,
-       Client(40),
-       Client(60),
-       receive deposited -> ok end,
-       receive deposited -> ok end,
-       Bank ! {balance, Me},
-       receive B -> Bank ! stop, B end"))
-  100)
-
-(define
-  er-bank-test-summary
-  (str "bank " er-bank-test-pass "/" er-bank-test-count))
--- a/lib/erlang/tests/programs/echo.sx
+++ b/lib/erlang/tests/programs/echo.sx
@@ -1,140 +0,0 @@
-;; Echo server — minimal classic Erlang server. Receives {From, Msg}
-;; and sends Msg back to From, then loops. `stop` ends the server.
-
-(define er-echo-test-count 0)
-(define er-echo-test-pass 0)
-(define er-echo-test-fails (list))
-
-(define
-  er-echo-test
-  (fn
-    (name actual expected)
-    (set! er-echo-test-count (+ er-echo-test-count 1))
-    (if
-      (= actual expected)
-      (set! er-echo-test-pass (+ er-echo-test-pass 1))
-      (append! er-echo-test-fails {:actual actual :expected expected :name name}))))
-
-(define echo-ev erlang-eval-ast)
-
-(define
-  er-echo-server-src
-  "EchoSrv = fun () ->
-     Loop = fun () ->
-       receive
-         {From, Msg} -> From ! Msg, Loop();
-         stop -> ok
-       end
-     end,
-     Loop()
-   end")
-
-;; Single round-trip with an atom.
-(er-echo-test
-  "atom round-trip"
-  (get
-    (echo-ev
-      (str
-        er-echo-server-src
-        ", Me = self(),
-         Echo = spawn(EchoSrv),
-         Echo ! {Me, hello},
-         receive R -> Echo ! stop, R end"))
-    :name)
-  "hello")
-
-;; Number round-trip.
-(er-echo-test
-  "number round-trip"
-  (echo-ev
-    (str
-      er-echo-server-src
-      ", Me = self(),
-       Echo = spawn(EchoSrv),
-       Echo ! {Me, 42},
-       receive R -> Echo ! stop, R end"))
-  42)
-
-;; Tuple round-trip — pattern-match the reply to extract V.
-(er-echo-test
-  "tuple round-trip"
-  (echo-ev
-    (str
-      er-echo-server-src
-      ", Me = self(),
-       Echo = spawn(EchoSrv),
-       Echo ! {Me, {ok, 7}},
-       receive {ok, V} -> Echo ! stop, V end"))
-  7)
-
-;; List round-trip.
-(er-echo-test
-  "list round-trip"
-  (echo-ev
-    (str
-      er-echo-server-src
-      ", Me = self(),
-       Echo = spawn(EchoSrv),
-       Echo ! {Me, [1, 2, 3]},
-       receive [H | _] -> Echo ! stop, H end"))
-  1)
-
-;; Multiple sequential round-trips.
-(er-echo-test
-  "three round-trips"
-  (echo-ev
-    (str
-      er-echo-server-src
-      ", Me = self(),
-       Echo = spawn(EchoSrv),
-       Echo ! {Me, 10}, A = receive Ra -> Ra end,
-       Echo ! {Me, 20}, B = receive Rb -> Rb end,
-       Echo ! {Me, 30}, C = receive Rc -> Rc end,
-       Echo ! stop,
-       A + B + C"))
-  60)
-
-;; Two clients sharing one echo server. Each gets its own reply.
-(er-echo-test
-  "two clients"
-  (get
-    (echo-ev
-      (str
-        er-echo-server-src
-        ", Me = self(),
-         Echo = spawn(EchoSrv),
-         Client = fun (Tag) ->
-           spawn(fun () ->
-             Echo ! {self(), Tag},
-             receive R -> Me ! {got, R} end
-           end)
-         end,
-         Client(a),
-         Client(b),
-         receive {got, _} -> ok end,
-         receive {got, _} -> ok end,
-         Echo ! stop,
-         finished"))
-    :name)
-  "finished")
-
-;; Echo via io trace — verify each message round-trips through.
-(er-echo-test
-  "trace 4 messages"
-  (do
-    (er-io-flush!)
-    (echo-ev
-      (str
-        er-echo-server-src
-        ", Me = self(),
-         Echo = spawn(EchoSrv),
-         Send = fun (V) -> Echo ! {Me, V}, receive R -> io:format(\"~p \", [R]) end end,
-         Send(1), Send(2), Send(3), Send(4),
-         Echo ! stop,
-         done"))
-    (er-io-buffer-content))
-  "1 2 3 4 ")
-
-(define
-  er-echo-test-summary
-  (str "echo " er-echo-test-pass "/" er-echo-test-count))
--- a/lib/erlang/tests/programs/fib_server.sx
+++ b/lib/erlang/tests/programs/fib_server.sx
@@ -1,152 +0,0 @@
-;; Fib server — long-lived process that computes fibonacci numbers on
-;; request. Tests recursive function evaluation inside a server loop.
-
-(define er-fib-test-count 0)
-(define er-fib-test-pass 0)
-(define er-fib-test-fails (list))
-
-(define
-  er-fib-test
-  (fn
-    (name actual expected)
-    (set! er-fib-test-count (+ er-fib-test-count 1))
-    (if
-      (= actual expected)
-      (set! er-fib-test-pass (+ er-fib-test-pass 1))
-      (append! er-fib-test-fails {:actual actual :expected expected :name name}))))
-
-(define fib-ev erlang-eval-ast)
-
-;; Fib + server-loop source. Standalone so each test can chain queries.
-(define
-  er-fib-server-src
-  "Fib = fun (0) -> 0; (1) -> 1; (N) -> Fib(N-1) + Fib(N-2) end,
-   FibSrv = fun () ->
-     Loop = fun () ->
-       receive
-         {fib, N, From} -> From ! Fib(N), Loop();
-         stop -> ok
-       end
-     end,
-     Loop()
-   end")
-
-;; Base cases.
-(er-fib-test
-  "fib(0)"
-  (fib-ev
-    (str
-      er-fib-server-src
-      ", Me = self(),
-       Srv = spawn(FibSrv),
-       Srv ! {fib, 0, Me},
-       receive R -> Srv ! stop, R end"))
-  0)
-
-(er-fib-test
-  "fib(1)"
-  (fib-ev
-    (str
-      er-fib-server-src
-      ", Me = self(),
-       Srv = spawn(FibSrv),
-       Srv ! {fib, 1, Me},
-       receive R -> Srv ! stop, R end"))
-  1)
-
-;; Larger values.
-(er-fib-test
-  "fib(10) = 55"
-  (fib-ev
-    (str
-      er-fib-server-src
-      ", Me = self(),
-       Srv = spawn(FibSrv),
-       Srv ! {fib, 10, Me},
-       receive R -> Srv ! stop, R end"))
-  55)
-
-(er-fib-test
-  "fib(15) = 610"
-  (fib-ev
-    (str
-      er-fib-server-src
-      ", Me = self(),
-       Srv = spawn(FibSrv),
-       Srv ! {fib, 15, Me},
-       receive R -> Srv ! stop, R end"))
-  610)
-
-;; Multiple sequential queries to one server. Sum to avoid dict-equality.
-(er-fib-test
-  "sequential fib(5..8) sum"
-  (fib-ev
-    (str
-      er-fib-server-src
-      ", Me = self(),
-       Srv = spawn(FibSrv),
-       Srv ! {fib, 5, Me}, A = receive Ra -> Ra end,
-       Srv ! {fib, 6, Me}, B = receive Rb -> Rb end,
-       Srv ! {fib, 7, Me}, C = receive Rc -> Rc end,
-       Srv ! {fib, 8, Me}, D = receive Rd -> Rd end,
-       Srv ! stop,
-       A + B + C + D"))
-  47)
-
-;; Verify Fib obeys the recurrence — fib(n) = fib(n-1) + fib(n-2).
-(er-fib-test
-  "fib recurrence at n=12"
-  (fib-ev
-    (str
-      er-fib-server-src
-      ", Me = self(),
-       Srv = spawn(FibSrv),
-       Srv ! {fib, 10, Me}, A = receive Ra -> Ra end,
-       Srv ! {fib, 11, Me}, B = receive Rb -> Rb end,
-       Srv ! {fib, 12, Me}, C = receive Rc -> Rc end,
-       Srv ! stop,
-       C - (A + B)"))
-  0)
-
-;; Two clients each get their own answer; main sums the results.
-(er-fib-test
-  "two clients sum"
-  (fib-ev
-    (str
-      er-fib-server-src
-      ", Me = self(),
-       Srv = spawn(FibSrv),
-       Client = fun (N) ->
-         spawn(fun () ->
-           Srv ! {fib, N, self()},
-           receive R -> Me ! {result, R} end
-         end)
-       end,
-       Client(7),
-       Client(9),
-       {result, A} = receive M1 -> M1 end,
-       {result, B} = receive M2 -> M2 end,
-       Srv ! stop,
-       A + B"))
-  47)
-
-;; Trace queries via io-buffer.
-(er-fib-test
-  "trace fib 0..6"
-  (do
-    (er-io-flush!)
-    (fib-ev
-      (str
-        er-fib-server-src
-        ", Me = self(),
-         Srv = spawn(FibSrv),
-         Ask = fun (N) -> Srv ! {fib, N, Me}, receive R -> io:format(\"~p \", [R]) end end,
-         Ask(0), Ask(1), Ask(2), Ask(3), Ask(4), Ask(5), Ask(6),
-         Srv ! stop,
-         done"))
-    (er-io-buffer-content))
-  "0 1 1 2 3 5 8 ")
-
-(define
-  er-fib-test-summary
-  (str "fib " er-fib-test-pass "/" er-fib-test-count))
--- a/lib/erlang/tests/programs/ping_pong.sx
+++ b/lib/erlang/tests/programs/ping_pong.sx
@@ -1,127 +0,0 @@
-;; Ping-pong program — two processes exchange N messages, then signal
-;; main via separate `ping_done` / `pong_done` notifications.
-
-(define er-pp-test-count 0)
-(define er-pp-test-pass 0)
-(define er-pp-test-fails (list))
-
-(define
-  er-pp-test
-  (fn
-    (name actual expected)
-    (set! er-pp-test-count (+ er-pp-test-count 1))
-    (if
-      (= actual expected)
-      (set! er-pp-test-pass (+ er-pp-test-pass 1))
-      (append! er-pp-test-fails {:actual actual :expected expected :name name}))))
-
-(define pp-ev erlang-eval-ast)
-
-;; Three rounds of ping-pong, then stop. Main receives ping_done and
-;; pong_done in arrival order (Ping finishes first because Pong exits
-;; only after receiving stop).
-(define
-  er-pp-program
-  "Me = self(),
-   Pong = spawn(fun () ->
-     Loop = fun () ->
-       receive
-         {ping, From} -> From ! pong, Loop();
-         stop -> Me ! pong_done
-       end
-     end,
-     Loop()
-   end),
-   Ping = fun (Target, K) ->
-     if K =:= 0 -> Target ! stop, Me ! ping_done;
-        true -> Target ! {ping, self()}, receive pong -> Ping(Target, K - 1) end
-     end
-   end,
-   spawn(fun () -> Ping(Pong, 3) end),
-   receive ping_done -> ok end,
-   receive pong_done -> both_done end")
-
-(er-pp-test
-  "ping-pong 3 rounds"
-  (get (pp-ev er-pp-program) :name)
-  "both_done")
-
-;; Count exchanges via io-buffer — each pong trip prints "p".
-(er-pp-test
-  "ping-pong 5 rounds trace"
-  (do
-    (er-io-flush!)
-    (pp-ev
-      "Me = self(),
-       Pong = spawn(fun () ->
-         Loop = fun () ->
-           receive
-             {ping, From} -> io:format(\"p\"), From ! pong, Loop();
-             stop -> Me ! pong_done
-           end
-         end,
-         Loop()
-       end),
-       Ping = fun (Target, K) ->
-         if K =:= 0 -> Target ! stop, Me ! ping_done;
-            true -> Target ! {ping, self()}, receive pong -> Ping(Target, K - 1) end
-         end
-       end,
-       spawn(fun () -> Ping(Pong, 5) end),
-       receive ping_done -> ok end,
-       receive pong_done -> ok end")
-    (er-io-buffer-content))
-  "ppppp")
-
-;; Main → Pong directly (no Ping process). Main plays the ping role.
-(er-pp-test
-  "main-as-pinger 4 rounds"
-  (pp-ev
-    "Me = self(),
-     Pong = spawn(fun () ->
-       Loop = fun () ->
-         receive
-           {ping, From} -> From ! pong, Loop();
-           stop -> ok
-         end
-       end,
-       Loop()
-     end),
-     Go = fun (K) ->
-       if K =:= 0 -> Pong ! stop, K;
-          true -> Pong ! {ping, Me}, receive pong -> Go(K - 1) end
-       end
-     end,
-     Go(4)")
-  0)
-
-;; Ensure the processes really interleave — inject an id into each
-;; ping and check we get them all back via trace (the order is
-;; deterministic under our sync scheduler).
-(er-pp-test
-  "ids round-trip"
-  (do
-    (er-io-flush!)
-    (pp-ev
-      "Me = self(),
-       Pong = spawn(fun () ->
-         Loop = fun () ->
-           receive
-             {ping, From, Id} -> From ! {pong, Id}, Loop();
-             stop -> ok
-           end
-         end,
-         Loop()
-       end),
-       Go = fun (K) ->
-         if K =:= 0 -> Pong ! stop, done;
-            true -> Pong ! {ping, Me, K}, receive {pong, RId} -> io:format(\"~p \", [RId]), Go(K - 1) end
-         end
-       end,
-       Go(4)")
-    (er-io-buffer-content))
-  "4 3 2 1 ")
-
-(define
-  er-pp-test-summary
-  (str "ping-pong " er-pp-test-pass "/" er-pp-test-count))
--- a/lib/erlang/tests/programs/ring.sx
+++ b/lib/erlang/tests/programs/ring.sx
@@ -1,132 +0,0 @@
-;; Ring program — N processes in a ring, token passes M times.
-;;
-;; Each process waits for {setup, Next} so main can tie the knot
-;; (can't reference a pid before spawning it). Once wired, main
-;; injects the first token; each process forwards decrementing K
-;; until it hits 0, at which point it signals `done` to main.
-
-(define er-ring-test-count 0)
-(define er-ring-test-pass 0)
-(define er-ring-test-fails (list))
-
-(define
-  er-ring-test
-  (fn
-    (name actual expected)
-    (set! er-ring-test-count (+ er-ring-test-count 1))
-    (if
-      (= actual expected)
-      (set! er-ring-test-pass (+ er-ring-test-pass 1))
-      (append! er-ring-test-fails {:actual actual :expected expected :name name}))))
-
-(define ring-ev erlang-eval-ast)
-
-(define
-  er-ring-program-3-6
-  "Me = self(),
-   Spawner = fun () ->
-     receive {setup, Next} ->
-       Loop = fun () ->
-         receive
-           {token, 0, Parent} -> Parent ! done;
-           {token, K, Parent} -> Next ! {token, K-1, Parent}, Loop()
-         end
-       end,
-       Loop()
-     end
-   end,
-   P1 = spawn(Spawner),
-   P2 = spawn(Spawner),
-   P3 = spawn(Spawner),
-   P1 ! {setup, P2},
-   P2 ! {setup, P3},
-   P3 ! {setup, P1},
-   P1 ! {token, 5, Me},
-   receive done -> finished end")
-
-(er-ring-test
-  "ring N=3 M=6"
-  (get (ring-ev er-ring-program-3-6) :name)
-  "finished")
-
-;; Two-node ring — token bounces twice between P1 and P2.
-(er-ring-test
-  "ring N=2 M=4"
-  (get (ring-ev
-    "Me = self(),
-     Spawner = fun () ->
-       receive {setup, Next} ->
-         Loop = fun () ->
-           receive
-             {token, 0, Parent} -> Parent ! done;
-             {token, K, Parent} -> Next ! {token, K-1, Parent}, Loop()
-           end
-         end,
-         Loop()
-       end
-     end,
-     P1 = spawn(Spawner),
-     P2 = spawn(Spawner),
-     P1 ! {setup, P2},
-     P2 ! {setup, P1},
-     P1 ! {token, 3, Me},
-     receive done -> done end") :name)
-  "done")
-
-;; Single-node "ring" — P sends to itself M times.
-(er-ring-test
-  "ring N=1 M=5"
-  (get (ring-ev
-    "Me = self(),
-     Spawner = fun () ->
-       receive {setup, Next} ->
-         Loop = fun () ->
-           receive
-             {token, 0, Parent} -> Parent ! finished_loop;
-             {token, K, Parent} -> Next ! {token, K-1, Parent}, Loop()
-           end
-         end,
-         Loop()
-       end
-     end,
-     P = spawn(Spawner),
-     P ! {setup, P},
-     P ! {token, 4, Me},
-     receive finished_loop -> ok end") :name)
-  "ok")
-
-;; Confirm the token really went around — count hops via io-buffer.
-(er-ring-test
-  "ring N=3 M=9 hop count"
-  (do
-    (er-io-flush!)
-    (ring-ev
-      "Me = self(),
-       Spawner = fun () ->
-         receive {setup, Next} ->
-           Loop = fun () ->
-             receive
-               {token, 0, Parent} -> Parent ! done;
-               {token, K, Parent} ->
-                 io:format(\"~p \", [K]),
-                 Next ! {token, K-1, Parent},
-                 Loop()
-             end
-           end,
-           Loop()
-         end
-       end,
-       P1 = spawn(Spawner),
-       P2 = spawn(Spawner),
-       P3 = spawn(Spawner),
-       P1 ! {setup, P2},
-       P2 ! {setup, P3},
-       P3 ! {setup, P1},
-       P1 ! {token, 8, Me},
-       receive done -> done end")
-    (er-io-buffer-content))
-  "8 7 6 5 4 3 2 1 ")
-
-(define
-  er-ring-test-summary
-  (str "ring " er-ring-test-pass "/" er-ring-test-count))
--- a/lib/erlang/tests/runtime.sx
+++ b/lib/erlang/tests/runtime.sx
@@ -1,139 +0,0 @@
-;; Erlang runtime tests — scheduler + process-record primitives.
-
-(define er-rt-test-count 0)
-(define er-rt-test-pass 0)
-(define er-rt-test-fails (list))
-
-(define
-  er-rt-test
-  (fn
-    (name actual expected)
-    (set! er-rt-test-count (+ er-rt-test-count 1))
-    (if
-      (= actual expected)
-      (set! er-rt-test-pass (+ er-rt-test-pass 1))
-      (append! er-rt-test-fails {:actual actual :expected expected :name name}))))
-
-;; ── queue ─────────────────────────────────────────────────────────
-(er-rt-test "queue empty len" (er-q-len (er-q-new)) 0)
-(er-rt-test "queue empty?" (er-q-empty? (er-q-new)) true)
-
-(define q1 (er-q-new))
-(er-q-push! q1 "a")
-(er-q-push! q1 "b")
-(er-q-push! q1 "c")
-(er-rt-test "queue push len" (er-q-len q1) 3)
-(er-rt-test "queue empty? after push" (er-q-empty? q1) false)
-(er-rt-test "queue peek" (er-q-peek q1) "a")
-(er-rt-test "queue pop 1" (er-q-pop! q1) "a")
-(er-rt-test "queue pop 2" (er-q-pop! q1) "b")
-(er-rt-test "queue len after pops" (er-q-len q1) 1)
-(er-rt-test "queue pop 3" (er-q-pop! q1) "c")
-(er-rt-test "queue empty again" (er-q-empty? q1) true)
-(er-rt-test "queue pop empty" (er-q-pop! q1) nil)
-
-;; Queue FIFO under interleaved push/pop
-(define q2 (er-q-new))
-(er-q-push! q2 1)
-(er-q-push! q2 2)
-(er-q-pop! q2)
-(er-q-push! q2 3)
-(er-rt-test "queue interleave peek" (er-q-peek q2) 2)
-(er-rt-test "queue to-list" (er-q-to-list q2) (list 2 3))
-
-;; ── scheduler init ─────────────────────────────────────────────
-(er-sched-init!)
-(er-rt-test "sched process count 0" (er-sched-process-count) 0)
-(er-rt-test "sched runnable count 0" (er-sched-runnable-count) 0)
-(er-rt-test "sched current nil" (er-sched-current-pid) nil)
-
-;; ── pid allocation ─────────────────────────────────────────────
-(define pa (er-pid-new!))
-(define pb (er-pid-new!))
-(er-rt-test "pid tag" (get pa :tag) "pid")
-(er-rt-test "pid ids distinct" (= (er-pid-id pa) (er-pid-id pb)) false)
-(er-rt-test "pid? true" (er-pid? pa) true)
-(er-rt-test "pid? false" (er-pid? 42) false)
-(er-rt-test
-  "pid-equal same"
-  (er-pid-equal? pa (er-mk-pid (er-pid-id pa)))
-  true)
-(er-rt-test "pid-equal diff" (er-pid-equal? pa pb) false)
-
-;; ── process lifecycle ──────────────────────────────────────────
-(er-sched-init!)
-(define p1 (er-proc-new! {}))
-(define p2 (er-proc-new! {}))
-(er-rt-test "proc count 2" (er-sched-process-count) 2)
-(er-rt-test "runnable count 2" (er-sched-runnable-count) 2)
-(er-rt-test
-  "proc state runnable"
-  (er-proc-field (get p1 :pid) :state)
-  "runnable")
-(er-rt-test
-  "proc mailbox empty"
-  (er-proc-mailbox-size (get p1 :pid))
-  0)
-(er-rt-test
-  "proc lookup"
-  (er-pid-equal? (get (er-proc-get (get p1 :pid)) :pid) (get p1 :pid))
-  true)
-(er-rt-test "proc exists" (er-proc-exists? (get p1 :pid)) true)
-(er-rt-test
-  "proc no-such-pid"
-  (er-proc-exists? (er-mk-pid 9999))
-  false)
-
-;; runnable queue dequeue order
-(er-rt-test
-  "dequeue first"
-  (er-pid-equal? (er-sched-next-runnable!) (get p1 :pid))
-  true)
-(er-rt-test
-  "dequeue second"
-  (er-pid-equal? (er-sched-next-runnable!) (get p2 :pid))
-  true)
-(er-rt-test "dequeue empty" (er-sched-next-runnable!) nil)
-
-;; current-pid get/set
-(er-sched-set-current! (get p1 :pid))
-(er-rt-test
-  "current pid set"
-  (er-pid-equal? (er-sched-current-pid) (get p1 :pid))
-  true)
-
-;; ── mailbox push ──────────────────────────────────────────────
-(er-proc-mailbox-push! (get p1 :pid) {:tag "atom" :name "ping"})
-(er-proc-mailbox-push! (get p1 :pid) 42)
-(er-rt-test "mailbox size 2" (er-proc-mailbox-size (get p1 :pid)) 2)
-
-;; ── field update ──────────────────────────────────────────────
-(er-proc-set! (get p1 :pid) :state "waiting")
-(er-rt-test
-  "proc state waiting"
-  (er-proc-field (get p1 :pid) :state)
-  "waiting")
-(er-proc-set! (get p1 :pid) :trap-exit true)
-(er-rt-test
-  "proc trap-exit"
-  (er-proc-field (get p1 :pid) :trap-exit)
-  true)
-
-;; ── fresh scheduler ends in clean state ───────────────────────
-(er-sched-init!)
-(er-rt-test
-  "sched init resets count"
-  (er-sched-process-count)
-  0)
-(er-rt-test
-  "sched init resets queue"
-  (er-sched-runnable-count)
-  0)
-(er-rt-test
-  "sched init resets current"
-  (er-sched-current-pid)
-  nil)
-
-(define
-  er-rt-test-summary
-  (str "runtime " er-rt-test-pass "/" er-rt-test-count))
--- a/lib/erlang/transpile.sx
+++ b/lib/erlang/transpile.sx
--- a/lib/forth/runtime.sx
+++ b/lib/forth/runtime.sx
@@ -1,175 +1,433 @@
-;; lib/forth/runtime.sx — Forth primitives on SX
-;;
-;; Provides Forth-idiomatic wrappers over SX built-ins.
-;; Primitives used:
-;;   bitwise-and/or/xor/not/arithmetic-shift/bit-count (Phase 7)
-;;   make-bytevector/bytevector-u8-ref/u8-set!/...     (Phase 20)
-;;   quotient/remainder/modulo                          (Phase 15 / builtin)
-;;
-;; Naming: SX identifiers can't include @ or !-alone, so Forth words are:
-;;   C@ → forth-cfetch    C! → forth-cstore
-;;   @  → forth-fetch     !  → forth-store
-
-;; ---------------------------------------------------------------------------
-;; 1. Bitwise operations — Forth core words
-;;    Forth TRUE = -1 (all bits set), FALSE = 0.
-;;    All ops coerce to integer via truncate.
-;; ---------------------------------------------------------------------------
-
-(define (forth-and a b) (bitwise-and (truncate a) (truncate b)))
-(define (forth-or a b) (bitwise-or (truncate a) (truncate b)))
-(define (forth-xor a b) (bitwise-xor (truncate a) (truncate b)))
-
-;; INVERT — bitwise NOT (Forth NOT is logical; INVERT is bitwise)
-(define (forth-invert a) (bitwise-not (truncate a)))
-
-;; LSHIFT RSHIFT — n bit — shift a by n positions
-(define (forth-lshift a n) (arithmetic-shift (truncate a) (truncate n)))
-(define
-  (forth-rshift a n)
-  (arithmetic-shift (truncate a) (- 0 (truncate n))))
-
-;; 2* 2/ — multiply/divide by 2 via bit shift
-(define (forth-2* a) (arithmetic-shift (truncate a) 1))
-(define (forth-2/ a) (arithmetic-shift (truncate a) -1))
-
-;; BIT-COUNT — number of set bits (Kernighan popcount)
-(define (forth-bit-count a) (bit-count (truncate a)))
-
-;; INTEGER-LENGTH — index of highest set bit (0 for zero)
-(define (forth-integer-length a) (integer-length (truncate a)))
-
-;; WITHIN — ( u ul uh -- flag ) true if ul <= u < uh
-(define (forth-within u ul uh) (and (>= u ul) (< u uh)))
-
-;; Arithmetic complements commonly used alongside bitwise ops
-(define (forth-negate a) (- 0 (truncate a)))
-(define (forth-abs a) (abs (truncate a)))
-(define (forth-min a b) (if (< a b) a b))
-(define (forth-max a b) (if (> a b) a b))
-(define (forth-mod a b) (modulo (truncate a) (truncate b)))
-
-;; /MOD — ( n1 n2 -- rem quot ) returns list (remainder quotient)
-(define
-  (forth-divmod a b)
-  (list
-    (remainder (truncate a) (truncate b))
-    (quotient (truncate a) (truncate b))))
-
-;; ---------------------------------------------------------------------------
-;; 2. String buffer — word-definition / string accumulation
-;;    EMIT appends one char; TYPE appends a string.
-;;    Value is retrieved with forth-sb-value.
-;; ---------------------------------------------------------------------------
+;; Forth runtime — state, stacks, dictionary, output buffer.
+;; Data stack: mutable SX list, TOS = first.
+;; Return stack: separate mutable list.
+;; Dictionary: SX dict {lowercased-name -> word-record}.
+;; Word record: {"kind" "body" "immediate?"}; kind is "primitive" or "colon-def".
+;; Output buffer: mutable string appended to by `.`, `EMIT`, `CR`, etc.
+;; Compile-mode flag: "compiling" on the state.

 (define
-  (forth-sb-new)
-  (let
-    ((sb (dict)))
-    (dict-set! sb "_forth_sb" true)
-    (dict-set! sb "_chars" (list))
-    sb))
-
-(define (forth-sb? v) (and (dict? v) (dict-has? v "_forth_sb")))
-
-;; EMIT — append one character
-(define
-  (forth-sb-emit! sb c)
-  (dict-set! sb "_chars" (append (get sb "_chars") (list c)))
-  sb)
-
-;; TYPE — append a string
-(define
-  (forth-sb-type! sb s)
-  (dict-set! sb "_chars" (append (get sb "_chars") (string->list s)))
-  sb)
-
-(define (forth-sb-value sb) (list->string (get sb "_chars")))
-
-(define (forth-sb-length sb) (len (get sb "_chars")))
-
-(define (forth-sb-clear! sb) (dict-set! sb "_chars" (list)) sb)
-
-;; Emit integer as decimal digits
-(define (forth-sb-emit-int! sb n) (forth-sb-type! sb (str (truncate n))))
-
-;; ---------------------------------------------------------------------------
-;; 3. Memory / Bytevectors — Forth raw memory model
-;;    ALLOT allocates a bytevector. Byte and cell (32-bit LE) access.
-;; ---------------------------------------------------------------------------
-
-;; ALLOT — allocate n bytes zero-initialised
-(define (forth-mem-new n) (make-bytevector (truncate n) 0))
-
-(define (forth-mem? v) (bytevector? v))
-
-(define (forth-mem-size v) (bytevector-length v))
-
-;; C@ C! — byte fetch/store
-(define (forth-cfetch mem addr) (bytevector-u8-ref mem (truncate addr)))
+  forth-make-state
+  (fn
+    ()
+    (let
+      ((s (dict)))
+      (dict-set! s "dstack" (list))
+      (dict-set! s "rstack" (list))
+      (dict-set! s "dict" (dict))
+      (dict-set! s "output" "")
+      (dict-set! s "compiling" false)
+      (dict-set! s "current-def" nil)
+      (dict-set! s "base" 10)
+      (dict-set! s "vars" (dict))
+      s)))

 (define
-  (forth-cstore mem addr val)
-  (bytevector-u8-set!
-    mem
-    (truncate addr)
-    (modulo (truncate val) 256))
-  mem)
-
-;; @ ! — 32-bit little-endian cell fetch/store
-(define
-  (forth-fetch mem addr)
-  (let
-    ((a (truncate addr)))
-    (+
-      (bytevector-u8-ref mem a)
-      (* 256 (bytevector-u8-ref mem (+ a 1)))
-      (* 65536 (bytevector-u8-ref mem (+ a 2)))
-      (* 16777216 (bytevector-u8-ref mem (+ a 3))))))
+  forth-error
+  (fn (state msg) (dict-set! state "error" msg) (raise msg)))

 (define
-  (forth-store mem addr val)
-  (let
-    ((a (truncate addr)) (v (truncate val)))
-    (bytevector-u8-set! mem a (modulo v 256))
-    (bytevector-u8-set!
-      mem
-      (+ a 1)
-      (modulo (quotient v 256) 256))
-    (bytevector-u8-set!
-      mem
-      (+ a 2)
-      (modulo (quotient v 65536) 256))
-    (bytevector-u8-set!
-      mem
-      (+ a 3)
-      (modulo (quotient v 16777216) 256)))
-  mem)
+  forth-push
+  (fn (state v) (dict-set! state "dstack" (cons v (get state "dstack")))))

-;; MOVE — copy count bytes from src[src-addr] to dst[dst-addr]
 (define
-  (forth-move! src src-addr dst dst-addr count)
-  (letrec
-    ((go (fn (i) (when (< i (truncate count)) (bytevector-u8-set! dst (+ (truncate dst-addr) i) (bytevector-u8-ref src (+ (truncate src-addr) i))) (go (+ i 1))))))
-    (go 0))
-  dst)
+  forth-pop
+  (fn
+    (state)
+    (let
+      ((st (get state "dstack")))
+      (if
+        (= (len st) 0)
+        (forth-error state "stack underflow")
+        (let ((top (first st))) (dict-set! state "dstack" (rest st)) top)))))

-;; FILL — fill count bytes at addr with byte value
 (define
-  (forth-fill! mem addr count byte)
-  (letrec
-    ((go (fn (i) (when (< i (truncate count)) (bytevector-u8-set! mem (+ (truncate addr) i) (modulo (truncate byte) 256)) (go (+ i 1))))))
-    (go 0))
-  mem)
+  forth-peek
+  (fn
+    (state)
+    (let
+      ((st (get state "dstack")))
+      (if (= (len st) 0) (forth-error state "stack underflow") (first st)))))

-;; ERASE — fill with zeros (Forth: ERASE)
-(define
-  (forth-erase! mem addr count)
-  (forth-fill! mem addr count 0))
+(define forth-depth (fn (state) (len (get state "dstack"))))

-;; Dump memory region as list of byte values
 (define
-  (forth-mem->list mem addr count)
-  (letrec
-    ((go (fn (i acc) (if (= i 0) acc (go (- i 1) (cons (bytevector-u8-ref mem (+ (truncate addr) (- i 1))) acc))))))
-    (go (truncate count) (list))))
+  forth-rpush
+  (fn (state v) (dict-set! state "rstack" (cons v (get state "rstack")))))
+
+(define
+  forth-rpop
+  (fn
+    (state)
+    (let
+      ((st (get state "rstack")))
+      (if
+        (= (len st) 0)
+        (forth-error state "return stack underflow")
+        (let ((top (first st))) (dict-set! state "rstack" (rest st)) top)))))
+
+(define
+  forth-rpeek
+  (fn
+    (state)
+    (let
+      ((st (get state "rstack")))
+      (if
+        (= (len st) 0)
+        (forth-error state "return stack underflow")
+        (first st)))))
+
+(define
+  forth-emit-str
+  (fn (state s) (dict-set! state "output" (str (get state "output") s))))
+
+(define
+  forth-make-word
+  (fn
+    (kind body immediate?)
+    (let
+      ((w (dict)))
+      (dict-set! w "kind" kind)
+      (dict-set! w "body" body)
+      (dict-set! w "immediate?" immediate?)
+      w)))
+
+(define
+  forth-def-prim!
+  (fn
+    (state name body)
+    (dict-set!
+      (get state "dict")
+      (downcase name)
+      (forth-make-word "primitive" body false))))
+
+(define
+  forth-def-prim-imm!
+  (fn
+    (state name body)
+    (dict-set!
+      (get state "dict")
+      (downcase name)
+      (forth-make-word "primitive" body true))))
+
+(define
+  forth-lookup
+  (fn (state name) (get (get state "dict") (downcase name))))
+
+(define
+  forth-binop
+  (fn
+    (op)
+    (fn
+      (state)
+      (let
+        ((b (forth-pop state)) (a (forth-pop state)))
+        (forth-push state (op a b))))))
+
+(define
+  forth-unop
+  (fn
+    (op)
+    (fn (state) (let ((a (forth-pop state))) (forth-push state (op a))))))
+
+(define
+  forth-cmp
+  (fn
+    (op)
+    (fn
+      (state)
+      (let
+        ((b (forth-pop state)) (a (forth-pop state)))
+        (forth-push state (if (op a b) -1 0))))))
+
+(define
+  forth-cmp0
+  (fn
+    (op)
+    (fn
+      (state)
+      (let ((a (forth-pop state))) (forth-push state (if (op a) -1 0))))))
+
+(define
+  forth-trunc
+  (fn (x) (if (< x 0) (- 0 (floor (- 0 x))) (floor x))))
+
+(define
+  forth-div
+  (fn
+    (a b)
+    (if (= b 0) (raise "division by zero") (forth-trunc (/ a b)))))
+
+(define
+  forth-mod
+  (fn
+    (a b)
+    (if (= b 0) (raise "division by zero") (- a (* b (forth-div a b))))))
+
+(define forth-bits-width 32)
+
+(define
+  forth-to-unsigned
+  (fn (n w) (let ((m (pow 2 w))) (mod (+ (mod n m) m) m))))
+
+(define
+  forth-from-unsigned
+  (fn
+    (n w)
+    (let ((half (pow 2 (- w 1)))) (if (>= n half) (- n (pow 2 w)) n))))
+
+(define
+  forth-bitwise-step
+  (fn
+    (op ua ub out place i w)
+    (if
+      (>= i w)
+      out
+      (let
+        ((da (mod ua 2)) (db (mod ub 2)))
+        (forth-bitwise-step
+          op
+          (floor (/ ua 2))
+          (floor (/ ub 2))
+          (+ out (* place (op da db)))
+          (* place 2)
+          (+ i 1)
+          w)))))
+
+(define
+  forth-bitwise-uu
+  (fn
+    (op)
+    (fn
+      (a b)
+      (let
+        ((ua (forth-to-unsigned a forth-bits-width))
+          (ub (forth-to-unsigned b forth-bits-width)))
+        (forth-from-unsigned
+          (forth-bitwise-step op ua ub 0 1 0 forth-bits-width)
+          forth-bits-width)))))
+
+(define
+  forth-bit-and
+  (forth-bitwise-uu (fn (x y) (if (and (= x 1) (= y 1)) 1 0))))
+
+(define
+  forth-bit-or
+  (forth-bitwise-uu (fn (x y) (if (or (= x 1) (= y 1)) 1 0))))
+
+(define forth-bit-xor (forth-bitwise-uu (fn (x y) (if (= x y) 0 1))))
+
+(define forth-bit-invert (fn (a) (- 0 (+ a 1))))
+
+(define
+  forth-install-primitives!
+  (fn
+    (state)
+    (forth-def-prim! state "DUP" (fn (s) (forth-push s (forth-peek s))))
+    (forth-def-prim! state "DROP" (fn (s) (forth-pop s)))
+    (forth-def-prim!
+      state
+      "SWAP"
+      (fn
+        (s)
+        (let
+          ((b (forth-pop s)) (a (forth-pop s)))
+          (forth-push s b)
+          (forth-push s a))))
+    (forth-def-prim!
+      state
+      "OVER"
+      (fn
+        (s)
+        (let
+          ((b (forth-pop s)) (a (forth-pop s)))
+          (forth-push s a)
+          (forth-push s b)
+          (forth-push s a))))
+    (forth-def-prim!
+      state
+      "ROT"
+      (fn
+        (s)
+        (let
+          ((c (forth-pop s)) (b (forth-pop s)) (a (forth-pop s)))
+          (forth-push s b)
+          (forth-push s c)
+          (forth-push s a))))
+    (forth-def-prim!
+      state
+      "-ROT"
+      (fn
+        (s)
+        (let
+          ((c (forth-pop s)) (b (forth-pop s)) (a (forth-pop s)))
+          (forth-push s c)
+          (forth-push s a)
+          (forth-push s b))))
+    (forth-def-prim!
+      state
+      "NIP"
+      (fn (s) (let ((b (forth-pop s))) (forth-pop s) (forth-push s b))))
+    (forth-def-prim!
+      state
+      "TUCK"
+      (fn
+        (s)
+        (let
+          ((b (forth-pop s)) (a (forth-pop s)))
+          (forth-push s b)
+          (forth-push s a)
+          (forth-push s b))))
+    (forth-def-prim!
+      state
+      "?DUP"
+      (fn
+        (s)
+        (let ((a (forth-peek s))) (when (not (= a 0)) (forth-push s a)))))
+    (forth-def-prim! state "DEPTH" (fn (s) (forth-push s (forth-depth s))))
+    (forth-def-prim!
+      state
+      "PICK"
+      (fn
+        (s)
+        (let
+          ((n (forth-pop s)) (st (get s "dstack")))
+          (if
+            (or (< n 0) (>= n (len st)))
+            (forth-error s "PICK out of range")
+            (forth-push s (nth st n))))))
+    (forth-def-prim!
+      state
+      "ROLL"
+      (fn
+        (s)
+        (let
+          ((n (forth-pop s)) (st (get s "dstack")))
+          (if
+            (or (< n 0) (>= n (len st)))
+            (forth-error s "ROLL out of range")
+            (let
+              ((taken (nth st n))
+                (before (take st n))
+                (after (drop st (+ n 1))))
+              (dict-set! s "dstack" (concat before after))
+              (forth-push s taken))))))
+    (forth-def-prim!
+      state
+      "2DUP"
+      (fn
+        (s)
+        (let
+          ((b (forth-pop s)) (a (forth-pop s)))
+          (forth-push s a)
+          (forth-push s b)
+          (forth-push s a)
+          (forth-push s b))))
+    (forth-def-prim! state "2DROP" (fn (s) (forth-pop s) (forth-pop s)))
+    (forth-def-prim!
+      state
+      "2SWAP"
+      (fn
+        (s)
+        (let
+          ((d (forth-pop s))
+            (c (forth-pop s))
+            (b (forth-pop s))
+            (a (forth-pop s)))
+          (forth-push s c)
+          (forth-push s d)
+          (forth-push s a)
+          (forth-push s b))))
+    (forth-def-prim!
+      state
+      "2OVER"
+      (fn
+        (s)
+        (let
+          ((d (forth-pop s))
+            (c (forth-pop s))
+            (b (forth-pop s))
+            (a (forth-pop s)))
+          (forth-push s a)
+          (forth-push s b)
+          (forth-push s c)
+          (forth-push s d)
+          (forth-push s a)
+          (forth-push s b))))
+    (forth-def-prim! state "+" (forth-binop (fn (a b) (+ a b))))
+    (forth-def-prim! state "-" (forth-binop (fn (a b) (- a b))))
+    (forth-def-prim! state "*" (forth-binop (fn (a b) (* a b))))
+    (forth-def-prim! state "/" (forth-binop forth-div))
+    (forth-def-prim! state "MOD" (forth-binop forth-mod))
+    (forth-def-prim!
+      state
+      "/MOD"
+      (fn
+        (s)
+        (let
+          ((b (forth-pop s)) (a (forth-pop s)))
+          (forth-push s (forth-mod a b))
+          (forth-push s (forth-div a b)))))
+    (forth-def-prim! state "NEGATE" (forth-unop (fn (a) (- 0 a))))
+    (forth-def-prim! state "ABS" (forth-unop abs))
+    (forth-def-prim!
+      state
+      "MIN"
+      (forth-binop (fn (a b) (if (< a b) a b))))
+    (forth-def-prim!
+      state
+      "MAX"
+      (forth-binop (fn (a b) (if (> a b) a b))))
+    (forth-def-prim! state "1+" (forth-unop (fn (a) (+ a 1))))
+    (forth-def-prim! state "1-" (forth-unop (fn (a) (- a 1))))
+    (forth-def-prim! state "2+" (forth-unop (fn (a) (+ a 2))))
+    (forth-def-prim! state "2-" (forth-unop (fn (a) (- a 2))))
+    (forth-def-prim! state "2*" (forth-unop (fn (a) (* a 2))))
+    (forth-def-prim! state "2/" (forth-unop (fn (a) (floor (/ a 2)))))
+    (forth-def-prim! state "=" (forth-cmp (fn (a b) (= a b))))
+    (forth-def-prim! state "<>" (forth-cmp (fn (a b) (not (= a b)))))
+    (forth-def-prim! state "<" (forth-cmp (fn (a b) (< a b))))
+    (forth-def-prim! state ">" (forth-cmp (fn (a b) (> a b))))
+    (forth-def-prim! state "<=" (forth-cmp (fn (a b) (<= a b))))
+    (forth-def-prim! state ">=" (forth-cmp (fn (a b) (>= a b))))
+    (forth-def-prim! state "0=" (forth-cmp0 (fn (a) (= a 0))))
+    (forth-def-prim! state "0<>" (forth-cmp0 (fn (a) (not (= a 0)))))
+    (forth-def-prim! state "0<" (forth-cmp0 (fn (a) (< a 0))))
+    (forth-def-prim! state "0>" (forth-cmp0 (fn (a) (> a 0))))
+    (forth-def-prim! state "AND" (forth-binop forth-bit-and))
+    (forth-def-prim! state "OR" (forth-binop forth-bit-or))
+    (forth-def-prim! state "XOR" (forth-binop forth-bit-xor))
+    (forth-def-prim! state "INVERT" (forth-unop forth-bit-invert))
+    (forth-def-prim!
+      state
+      "."
+      (fn (s) (forth-emit-str s (str (forth-pop s) " "))))
+    (forth-def-prim!
+      state
+      ".S"
+      (fn
+        (s)
+        (let
+          ((st (reverse (get s "dstack"))))
+          (forth-emit-str s "<")
+          (forth-emit-str s (str (len st)))
+          (forth-emit-str s "> ")
+          (for-each (fn (v) (forth-emit-str s (str v " "))) st))))
+    (forth-def-prim!
+      state
+      "EMIT"
+      (fn (s) (forth-emit-str s (code-char (forth-pop s)))))
+    (forth-def-prim! state "CR" (fn (s) (forth-emit-str s "\n")))
+    (forth-def-prim! state "SPACE" (fn (s) (forth-emit-str s " ")))
+    (forth-def-prim!
+      state
+      "SPACES"
+      (fn
+        (s)
+        (let
+          ((n (forth-pop s)))
+          (when
+            (> n 0)
+            (for-each (fn (_) (forth-emit-str s " ")) (range 0 n))))))
+    (forth-def-prim! state "BL" (fn (s) (forth-push s 32)))
+    state))
--- a/lib/forth/test.sh
+++ b/lib/forth/test.sh
@@ -1,62 +0,0 @@
-#!/usr/bin/env bash
-# lib/forth/test.sh — smoke-test the Forth runtime layer.
-
-set -uo pipefail
-cd "$(git rev-parse --show-toplevel)"
-
-SX_SERVER="${SX_SERVER:-hosts/ocaml/_build/default/bin/sx_server.exe}"
-if [ ! -x "$SX_SERVER" ]; then
-  SX_SERVER="/root/rose-ash/hosts/ocaml/_build/default/bin/sx_server.exe"
-fi
-if [ ! -x "$SX_SERVER" ]; then
-  echo "ERROR: sx_server.exe not found."
-  exit 1
-fi
-
-TMPFILE=$(mktemp); trap "rm -f $TMPFILE" EXIT
-
-cat > "$TMPFILE" << 'EPOCHS'
-(epoch 1)
-(load "lib/forth/runtime.sx")
-(epoch 2)
-(load "lib/forth/tests/runtime.sx")
-(epoch 3)
-(eval "(list forth-test-pass forth-test-fail)")
-EPOCHS
-
-OUTPUT=$(timeout 60 "$SX_SERVER" < "$TMPFILE" 2>/dev/null)
-
-LINE=$(echo "$OUTPUT" | awk '/^\(ok-len 3 / {getline; print; exit}')
-if [ -z "$LINE" ]; then
-  LINE=$(echo "$OUTPUT" | grep -E '^\(ok 3 \([0-9]+ [0-9]+\)\)' | tail -1 \
-          | sed -E 's/^\(ok 3 //; s/\)$//')
-fi
-if [ -z "$LINE" ]; then
-  echo "ERROR: could not extract summary"
-  echo "$OUTPUT" | tail -20
-  exit 1
-fi
-
-P=$(echo "$LINE" | sed -E 's/^\(([0-9]+) ([0-9]+)\).*/\1/')
-F=$(echo "$LINE" | sed -E 's/^\(([0-9]+) ([0-9]+)\).*/\2/')
-TOTAL=$((P + F))
-
-if [ "$F" -eq 0 ]; then
-  echo "ok $P/$TOTAL lib/forth tests passed"
-else
-  echo "FAIL $P/$TOTAL passed, $F failed"
-  TMPFILE2=$(mktemp)
-  cat > "$TMPFILE2" << 'EPOCHS2'
-(epoch 1)
-(load "lib/forth/runtime.sx")
-(epoch 2)
-(load "lib/forth/tests/runtime.sx")
-(epoch 3)
-(eval "(map (fn (f) (list (get f :name) (get f :got) (get f :expected))) forth-test-fails)")
-EPOCHS2
-  FAILS=$(timeout 60 "$SX_SERVER" < "$TMPFILE2" 2>/dev/null | grep -E '^\(ok-len 3' -A1 | tail -1 || true)
-  echo "  Details: $FAILS"
-  rm -f "$TMPFILE2"
-fi
-
-[ "$F" -eq 0 ]
--- a/lib/forth/tests/runtime.sx
+++ b/lib/forth/tests/runtime.sx
@@ -1,201 +0,0 @@
-;; lib/forth/tests/runtime.sx — Tests for lib/forth/runtime.sx
-
-(define forth-test-pass 0)
-(define forth-test-fail 0)
-(define forth-test-fails (list))
-
-(define
-  (forth-test name got expected)
-  (if
-    (= got expected)
-    (set! forth-test-pass (+ forth-test-pass 1))
-    (begin
-      (set! forth-test-fail (+ forth-test-fail 1))
-      (set! forth-test-fails (append forth-test-fails (list {:got got :expected expected :name name}))))))
-
-;; ---------------------------------------------------------------------------
-;; 1. Bitwise operations
-;; ---------------------------------------------------------------------------
-
-;; AND
-(forth-test "and 0b1100 0b1010" (forth-and 12 10) 8)
-(forth-test "and 0xFF 0x0F" (forth-and 255 15) 15)
-(forth-test "and 0 any" (forth-and 0 42) 0)
-
-;; OR
-(forth-test "or 0b1100 0b1010" (forth-or 12 10) 14)
-(forth-test "or 0 x" (forth-or 0 7) 7)
-
-;; XOR
-(forth-test "xor 0b1100 0b1010" (forth-xor 12 10) 6)
-(forth-test "xor x x" (forth-xor 42 42) 0)
-
-;; INVERT
-(forth-test "invert 0" (forth-invert 0) -1)
-(forth-test "invert -1" (forth-invert -1) 0)
-(forth-test "invert 1" (forth-invert 1) -2)
-
-;; LSHIFT RSHIFT
-(forth-test "lshift 1 3" (forth-lshift 1 3) 8)
-(forth-test "lshift 3 2" (forth-lshift 3 2) 12)
-(forth-test "rshift 8 3" (forth-rshift 8 3) 1)
-(forth-test "rshift 16 2" (forth-rshift 16 2) 4)
-
-;; 2* 2/
-(forth-test "2* 5" (forth-2* 5) 10)
-(forth-test "2/ 10" (forth-2/ 10) 5)
-(forth-test "2/ 7" (forth-2/ 7) 3)
-
-;; BIT-COUNT
-(forth-test "bit-count 0" (forth-bit-count 0) 0)
-(forth-test "bit-count 1" (forth-bit-count 1) 1)
-(forth-test "bit-count 7" (forth-bit-count 7) 3)
-(forth-test "bit-count 255" (forth-bit-count 255) 8)
-(forth-test "bit-count 256" (forth-bit-count 256) 1)
-
-;; INTEGER-LENGTH
-(forth-test "integer-length 0" (forth-integer-length 0) 0)
-(forth-test "integer-length 1" (forth-integer-length 1) 1)
-(forth-test "integer-length 4" (forth-integer-length 4) 3)
-(forth-test "integer-length 255" (forth-integer-length 255) 8)
-
-;; WITHIN
-(forth-test
-  "within 5 0 10"
-  (forth-within 5 0 10)
-  true)
-(forth-test
-  "within 0 0 10"
-  (forth-within 0 0 10)
-  true)
-(forth-test
-  "within 10 0 10"
-  (forth-within 10 0 10)
-  false)
-(forth-test
-  "within -1 0 10"
-  (forth-within -1 0 10)
-  false)
-
-;; Arithmetic ops
-(forth-test "negate 5" (forth-negate 5) -5)
-(forth-test "negate -3" (forth-negate -3) 3)
-(forth-test "abs -7" (forth-abs -7) 7)
-(forth-test "min 3 5" (forth-min 3 5) 3)
-(forth-test "max 3 5" (forth-max 3 5) 5)
-(forth-test "mod 7 3" (forth-mod 7 3) 1)
-(forth-test
-  "divmod 7 3"
-  (forth-divmod 7 3)
-  (list 1 2))
-(forth-test
-  "divmod 10 5"
-  (forth-divmod 10 5)
-  (list 0 2))
-
-;; ---------------------------------------------------------------------------
-;; 2. String buffer
-;; ---------------------------------------------------------------------------
-
-(define sb1 (forth-sb-new))
-(forth-test "sb? new" (forth-sb? sb1) true)
-(forth-test "sb? non-sb" (forth-sb? 42) false)
-(forth-test "sb value empty" (forth-sb-value sb1) "")
-(forth-test "sb length empty" (forth-sb-length sb1) 0)
-
-(forth-sb-type! sb1 "HELLO")
-(forth-test "sb type" (forth-sb-value sb1) "HELLO")
-(forth-test "sb length after type" (forth-sb-length sb1) 5)
-
-;; EMIT one char
-(define sb2 (forth-sb-new))
-(forth-sb-emit! sb2 (nth (string->list "A") 0))
-(forth-sb-emit! sb2 (nth (string->list "B") 0))
-(forth-sb-emit! sb2 (nth (string->list "C") 0))
-(forth-test "sb emit chars" (forth-sb-value sb2) "ABC")
-
-;; Emit integer
-(define sb3 (forth-sb-new))
-(forth-sb-type! sb3 "n=")
-(forth-sb-emit-int! sb3 42)
-(forth-test "sb emit-int" (forth-sb-value sb3) "n=42")
-
-(forth-sb-clear! sb1)
-(forth-test "sb clear" (forth-sb-value sb1) "")
-(forth-test "sb length after clear" (forth-sb-length sb1) 0)
-
-;; Build a word definition-style name
-(define sb4 (forth-sb-new))
-(forth-sb-type! sb4 ": ")
-(forth-sb-type! sb4 "SQUARE")
-(forth-sb-type! sb4 " DUP * ;")
-(forth-test "sb word def" (forth-sb-value sb4) ": SQUARE DUP * ;")
-
-;; ---------------------------------------------------------------------------
-;; 3. Memory / Bytevectors
-;; ---------------------------------------------------------------------------
-
-(define m1 (forth-mem-new 8))
-(forth-test "mem? yes" (forth-mem? m1) true)
-(forth-test "mem? no" (forth-mem? 42) false)
-(forth-test "mem size" (forth-mem-size m1) 8)
-(forth-test "mem cfetch zero" (forth-cfetch m1 0) 0)
-
-;; C! C@
-(forth-cstore m1 0 65)
-(forth-cstore m1 1 66)
-(forth-test "mem cstore/cfetch 0" (forth-cfetch m1 0) 65)
-(forth-test "mem cstore/cfetch 1" (forth-cfetch m1 1) 66)
-(forth-cstore m1 2 256)
-(forth-test
-  "mem cstore wraps 256→0"
-  (forth-cfetch m1 2)
-  0)
-(forth-cstore m1 2 257)
-(forth-test
-  "mem cstore wraps 257→1"
-  (forth-cfetch m1 2)
-  1)
-
-;; @ ! (32-bit LE cell)
-(define m2 (forth-mem-new 8))
-(forth-store m2 0 305419896)
-(forth-test "mem store/fetch" (forth-fetch m2 0) 305419896)
-(forth-store m2 4 1)
-(forth-test "mem fetch byte 4" (forth-cfetch m2 4) 1)
-(forth-test "mem fetch byte 5" (forth-cfetch m2 5) 0)
-
-;; FILL ERASE
-(define m3 (forth-mem-new 4))
-(forth-fill! m3 0 4 42)
-(forth-test
-  "mem fill"
-  (forth-mem->list m3 0 4)
-  (list 42 42 42 42))
-(forth-erase! m3 1 2)
-(forth-test
-  "mem erase middle"
-  (forth-mem->list m3 0 4)
-  (list 42 0 0 42))
-
-;; MOVE
-(define m4 (forth-mem-new 4))
-(forth-cstore m4 0 1)
-(forth-cstore m4 1 2)
-(forth-cstore m4 2 3)
-(define m5 (forth-mem-new 4))
-(forth-move! m4 0 m5 0 3)
-(forth-test
-  "mem move"
-  (forth-mem->list m5 0 3)
-  (list 1 2 3))
-
-;; mem->list
-(define m6 (forth-mem-new 3))
-(forth-cstore m6 0 10)
-(forth-cstore m6 1 20)
-(forth-cstore m6 2 30)
-(forth-test
-  "mem->list"
-  (forth-mem->list m6 0 3)
-  (list 10 20 30))
--- a/lib/haskell/runtime.sx
+++ b/lib/haskell/runtime.sx
@@ -1,507 +0,0 @@
-;; lib/haskell/runtime.sx — Haskell-on-SX runtime layer
-;;
-;; Covers the Haskell primitives now reachable via SX spec:
-;;  1. Numeric type class helpers (Num / Integral / Fractional)
-;;  2. Rational numbers (dict-based: {:_rational true :num n :den d})
-;;  3. Lazy evaluation — hk-force for promises created by delay
-;;  4. Char utilities (Data.Char)
-;;  5. Data.Set wrappers
-;;  6. Data.List utilities
-;;  7. Maybe / Either ADTs
-;;  8. Tuples (lists, since list->vector unreliable in sx_server)
-;;  9. String helpers (words/lines/isPrefixOf/etc.)
-;; 10. Show helper
-
-;; ===========================================================================
-;; 1. Numeric type class helpers
-;; ===========================================================================
-
-(define hk-is-integer? integer?)
-(define hk-is-float? float?)
-(define hk-is-num? number?)
-
-;; fromIntegral — coerce integer to Float
-(define (hk-to-float x) (exact->inexact x))
-
-;; truncate / round toward zero
-(define hk-to-integer truncate)
-(define hk-from-integer (fn (n) n))
-
-;; Haskell div: floor division (rounds toward -inf)
-(define
-  (hk-div a b)
-  (let
-    ((q (quotient a b)) (r (remainder a b)))
-    (if
-      (and
-        (not (= r 0))
-        (or
-          (and (< a 0) (> b 0))
-          (and (> a 0) (< b 0))))
-      (- q 1)
-      q)))
-
-;; Haskell mod: result has same sign as divisor
-(define hk-mod modulo)
-
-;; Haskell rem: result has same sign as dividend
-(define hk-rem remainder)
-
-;; Haskell quot: truncation division
-(define hk-quot quotient)
-
-;; divMod and quotRem return pairs (lists)
-(define (hk-div-mod a b) (list (hk-div a b) (hk-mod a b)))
-(define (hk-quot-rem a b) (list (hk-quot a b) (hk-rem a b)))
-
-(define (hk-abs x) (if (< x 0) (- 0 x) x))
-(define
-  (hk-signum x)
-  (cond
-    ((> x 0) 1)
-    ((< x 0) -1)
-    (else 0)))
-
-(define hk-gcd gcd)
-(define hk-lcm lcm)
-
-(define (hk-even? n) (= (modulo n 2) 0))
-(define (hk-odd? n) (not (= (modulo n 2) 0)))
-
-;; ===========================================================================
-;; 2. Rational numbers (dict implementation — no built-in rational in sx_server)
-;; ===========================================================================
-
-(define
-  (hk-make-rational n d)
-  (let
-    ((g (gcd (hk-abs n) (hk-abs d))))
-    (if (< d 0) {:num (quotient (- 0 n) g) :den (quotient (- 0 d) g) :_rational true} {:num (quotient n g) :den (quotient d g) :_rational true})))
-
-(define
-  (hk-rational? x)
-  (and (dict? x) (not (= (get x :_rational) nil))))
-(define (hk-numerator r) (get r :num))
-(define (hk-denominator r) (get r :den))
-
-(define
-  (hk-rational-add r1 r2)
-  (hk-make-rational
-    (+
-      (* (hk-numerator r1) (hk-denominator r2))
-      (* (hk-numerator r2) (hk-denominator r1)))
-    (* (hk-denominator r1) (hk-denominator r2))))
-
-(define
-  (hk-rational-sub r1 r2)
-  (hk-make-rational
-    (-
-      (* (hk-numerator r1) (hk-denominator r2))
-      (* (hk-numerator r2) (hk-denominator r1)))
-    (* (hk-denominator r1) (hk-denominator r2))))
-
-(define
-  (hk-rational-mul r1 r2)
-  (hk-make-rational
-    (* (hk-numerator r1) (hk-numerator r2))
-    (* (hk-denominator r1) (hk-denominator r2))))
-
-(define
-  (hk-rational-div r1 r2)
-  (hk-make-rational
-    (* (hk-numerator r1) (hk-denominator r2))
-    (* (hk-denominator r1) (hk-numerator r2))))
-
-(define
-  (hk-rational-to-float r)
-  (exact->inexact (/ (hk-numerator r) (hk-denominator r))))
-
-(define (hk-show-rational r) (str (hk-numerator r) "%" (hk-denominator r)))
-
-;; ===========================================================================
-;; 3. Lazy evaluation — promises (created via SX delay)
-;; ===========================================================================
-
-(define
-  (hk-force p)
-  (if
-    (and (dict? p) (not (= (get p :_promise) nil)))
-    (if (get p :forced) (get p :value) ((get p :thunk)))
-    p))
-
-;; ===========================================================================
-;; 4. Char utilities (Data.Char)
-;; ===========================================================================
-
-(define hk-ord char->integer)
-(define hk-chr integer->char)
-
-;; Inline ASCII predicates — char-alphabetic?/char-numeric? unreliable in sx_server
-(define
-  (hk-is-alpha? c)
-  (let
-    ((n (char->integer c)))
-    (or
-      (and (>= n 65) (<= n 90))
-      (and (>= n 97) (<= n 122)))))
-
-(define
-  (hk-is-digit? c)
-  (let ((n (char->integer c))) (and (>= n 48) (<= n 57))))
-
-(define
-  (hk-is-alnum? c)
-  (let
-    ((n (char->integer c)))
-    (or
-      (and (>= n 48) (<= n 57))
-      (and (>= n 65) (<= n 90))
-      (and (>= n 97) (<= n 122)))))
-
-(define
-  (hk-is-upper? c)
-  (let ((n (char->integer c))) (and (>= n 65) (<= n 90))))
-
-(define
-  (hk-is-lower? c)
-  (let ((n (char->integer c))) (and (>= n 97) (<= n 122))))
-
-(define
-  (hk-is-space? c)
-  (let
-    ((n (char->integer c)))
-    (or
-      (= n 32)
-      (= n 9)
-      (= n 10)
-      (= n 13)
-      (= n 12)
-      (= n 11))))
-
-(define hk-to-upper char-upcase)
-(define hk-to-lower char-downcase)
-
-;; digitToInt: '0'-'9' → 0-9, 'a'-'f'/'A'-'F' → 10-15
-(define
-  (hk-digit-to-int c)
-  (let
-    ((n (char->integer c)))
-    (cond
-      ((and (>= n 48) (<= n 57)) (- n 48))
-      ((and (>= n 65) (<= n 70)) (- n 55))
-      ((and (>= n 97) (<= n 102)) (- n 87))
-      (else (error (str "hk-digit-to-int: not a hex digit: " c))))))
-
-;; intToDigit: 0-15 → char
-(define
-  (hk-int-to-digit n)
-  (cond
-    ((and (>= n 0) (<= n 9))
-      (integer->char (+ n 48)))
-    ((and (>= n 10) (<= n 15))
-      (integer->char (+ n 87)))
-    (else (error (str "hk-int-to-digit: out of range: " n)))))
-
-;; ===========================================================================
-;; 5. Data.Set wrappers
-;; ===========================================================================
-
-(define (hk-set-empty) (make-set))
-(define hk-set? set?)
-(define hk-set-member? set-member?)
-
-(define (hk-set-insert x s) (begin (set-add! s x) s))
-
-(define (hk-set-delete x s) (begin (set-remove! s x) s))
-
-(define hk-set-union set-union)
-(define hk-set-intersection set-intersection)
-(define hk-set-difference set-difference)
-(define hk-set-from-list list->set)
-(define hk-set-to-list set->list)
-(define (hk-set-null? s) (= (len (set->list s)) 0))
-(define (hk-set-size s) (len (set->list s)))
-
-(define (hk-set-singleton x) (let ((s (make-set))) (set-add! s x) s))
-
-;; ===========================================================================
-;; 6. Data.List utilities
-;; ===========================================================================
-
-(define hk-head first)
-(define hk-tail rest)
-(define (hk-null? lst) (= (len lst) 0))
-(define hk-length len)
-
-(define
-  (hk-take n lst)
-  (if
-    (or (= n 0) (= (len lst) 0))
-    (list)
-    (cons (first lst) (hk-take (- n 1) (rest lst)))))
-
-(define
-  (hk-drop n lst)
-  (if
-    (or (= n 0) (= (len lst) 0))
-    lst
-    (hk-drop (- n 1) (rest lst))))
-
-(define
-  (hk-take-while pred lst)
-  (if
-    (or (= (len lst) 0) (not (pred (first lst))))
-    (list)
-    (cons (first lst) (hk-take-while pred (rest lst)))))
-
-(define
-  (hk-drop-while pred lst)
-  (if
-    (or (= (len lst) 0) (not (pred (first lst))))
-    lst
-    (hk-drop-while pred (rest lst))))
-
-(define
-  (hk-zip a b)
-  (if
-    (or (= (len a) 0) (= (len b) 0))
-    (list)
-    (cons (list (first a) (first b)) (hk-zip (rest a) (rest b)))))
-
-(define
-  (hk-zip-with f a b)
-  (if
-    (or (= (len a) 0) (= (len b) 0))
-    (list)
-    (cons (f (first a) (first b)) (hk-zip-with f (rest a) (rest b)))))
-
-(define
-  (hk-unzip pairs)
-  (list
-    (map (fn (p) (first p)) pairs)
-    (map (fn (p) (nth p 1)) pairs)))
-
-(define
-  (hk-elem x lst)
-  (cond
-    ((= (len lst) 0) false)
-    ((= x (first lst)) true)
-    (else (hk-elem x (rest lst)))))
-
-(define (hk-not-elem x lst) (not (hk-elem x lst)))
-
-(define
-  (hk-nub lst)
-  (letrec
-    ((go (fn (seen acc items) (if (= (len items) 0) (reverse acc) (let ((h (first items)) (t (rest items))) (if (hk-elem h seen) (go seen acc t) (go (cons h seen) (cons h acc) t)))))))
-    (go (list) (list) lst)))
-
-(define (hk-sum lst) (reduce + 0 lst))
-(define (hk-product lst) (reduce * 1 lst))
-
-(define
-  (hk-maximum lst)
-  (reduce (fn (a b) (if (> a b) a b)) (first lst) (rest lst)))
-
-(define
-  (hk-minimum lst)
-  (reduce (fn (a b) (if (< a b) a b)) (first lst) (rest lst)))
-
-(define (hk-concat lsts) (reduce append (list) lsts))
-
-(define (hk-concat-map f lst) (hk-concat (map f lst)))
-
-(define hk-sort sort)
-
-(define
-  (hk-span pred lst)
-  (list (hk-take-while pred lst) (hk-drop-while pred lst)))
-
-(define (hk-break pred lst) (hk-span (fn (x) (not (pred x))) lst))
-
-(define
-  (hk-foldl f acc lst)
-  (if
-    (= (len lst) 0)
-    acc
-    (hk-foldl f (f acc (first lst)) (rest lst))))
-
-(define
-  (hk-foldr f z lst)
-  (if
-    (= (len lst) 0)
-    z
-    (f (first lst) (hk-foldr f z (rest lst)))))
-
-(define
-  (hk-scanl f acc lst)
-  (if
-    (= (len lst) 0)
-    (list acc)
-    (cons acc (hk-scanl f (f acc (first lst)) (rest lst)))))
-
-(define
-  (hk-replicate n x)
-  (if (= n 0) (list) (cons x (hk-replicate (- n 1) x))))
-
-(define
-  (hk-intersperse sep lst)
-  (if
-    (or (= (len lst) 0) (= (len lst) 1))
-    lst
-    (cons (first lst) (cons sep (hk-intersperse sep (rest lst))))))
-
-;; ===========================================================================
-;; 7. Maybe / Either ADTs
-;; ===========================================================================
-
-(define hk-nothing {:_maybe true :_tag "nothing"})
-(define (hk-just x) {:_maybe true :value x :_tag "just"})
-(define (hk-is-nothing? m) (= (get m :_tag) "nothing"))
-(define (hk-is-just? m) (= (get m :_tag) "just"))
-(define (hk-from-just m) (get m :value))
-(define (hk-from-maybe def m) (if (hk-is-nothing? m) def (hk-from-just m)))
-(define
-  (hk-maybe def f m)
-  (if (hk-is-nothing? m) def (f (hk-from-just m))))
-
-(define (hk-left x) {:value x :_either true :_tag "left"})
-(define (hk-right x) {:value x :_either true :_tag "right"})
-(define (hk-is-left? e) (= (get e :_tag) "left"))
-(define (hk-is-right? e) (= (get e :_tag) "right"))
-(define (hk-from-left e) (get e :value))
-(define (hk-from-right e) (get e :value))
-(define
-  (hk-either f g e)
-  (if (hk-is-left? e) (f (hk-from-left e)) (g (hk-from-right e))))
-
-;; ===========================================================================
-;; 8. Tuples (lists — list->vector unreliable in sx_server)
-;; ===========================================================================
-
-(define (hk-pair a b) (list a b))
-(define hk-fst first)
-(define (hk-snd t) (nth t 1))
-
-(define (hk-triple a b c) (list a b c))
-(define hk-fst3 first)
-(define (hk-snd3 t) (nth t 1))
-(define (hk-thd3 t) (nth t 2))
-
-(define (hk-curry f) (fn (a) (fn (b) (f a b))))
-(define (hk-uncurry f) (fn (p) (f (hk-fst p) (hk-snd p))))
-
-;; ===========================================================================
-;; 9. String helpers (Data.List / Data.Char for strings)
-;; ===========================================================================
-
-;; words: split on whitespace
-(define
-  (hk-words s)
-  (letrec
-    ((slen (len s))
-      (skip-ws
-        (fn
-          (i)
-          (if
-            (>= i slen)
-            (list)
-            (let
-              ((c (substring s i (+ i 1))))
-              (if
-                (or (= c " ") (= c "\t") (= c "\n"))
-                (skip-ws (+ i 1))
-                (collect-word i (+ i 1)))))))
-      (collect-word
-        (fn
-          (start i)
-          (if
-            (>= i slen)
-            (list (substring s start i))
-            (let
-              ((c (substring s i (+ i 1))))
-              (if
-                (or (= c " ") (= c "\t") (= c "\n"))
-                (cons (substring s start i) (skip-ws (+ i 1)))
-                (collect-word start (+ i 1))))))))
-    (skip-ws 0)))
-
-;; unwords: join with spaces
-(define
-  (hk-unwords lst)
-  (if
-    (= (len lst) 0)
-    ""
-    (reduce (fn (a b) (str a " " b)) (first lst) (rest lst))))
-
-;; lines: split on newline
-(define
-  (hk-lines s)
-  (letrec
-    ((slen (len s))
-      (go
-        (fn
-          (start i acc)
-          (if
-            (>= i slen)
-            (reverse (cons (substring s start i) acc))
-            (if
-              (= (substring s i (+ i 1)) "\n")
-              (go
-                (+ i 1)
-                (+ i 1)
-                (cons (substring s start i) acc))
-              (go start (+ i 1) acc))))))
-    (if (= slen 0) (list) (go 0 0 (list)))))
-
-;; unlines: join, each with trailing newline
-(define (hk-unlines lst) (reduce (fn (a b) (str a b "\n")) "" lst))
-
-;; isPrefixOf
-(define
-  (hk-is-prefix-of pre s)
-  (and (<= (len pre) (len s)) (= pre (substring s 0 (len pre)))))
-
-;; isSuffixOf
-(define
-  (hk-is-suffix-of suf s)
-  (let
-    ((sl (len suf)) (tl (len s)))
-    (and (<= sl tl) (= suf (substring s (- tl sl) tl)))))
-
-;; isInfixOf — linear scan
-(define
-  (hk-is-infix-of pat s)
-  (let
-    ((plen (len pat)) (slen (len s)))
-    (letrec
-      ((go (fn (i) (if (> (+ i plen) slen) false (if (= pat (substring s i (+ i plen))) true (go (+ i 1)))))))
-      (if (= plen 0) true (go 0)))))
-
-;; ===========================================================================
-;; 10. Show helper
-;; ===========================================================================
-
-(define
-  (hk-show x)
-  (cond
-    ((= x nil) "Nothing")
-    ((= x true) "True")
-    ((= x false) "False")
-    ((hk-rational? x) (hk-show-rational x))
-    ((integer? x) (str x))
-    ((float? x) (str x))
-    ((= (type-of x) "string") (str "\"" x "\""))
-    ((= (type-of x) "char") (str "'" (str x) "'"))
-    ((list? x)
-      (str
-        "["
-        (if
-          (= (len x) 0)
-          ""
-          (reduce
-            (fn (a b) (str a "," (hk-show b)))
-            (hk-show (first x))
-            (rest x)))
-        "]"))
-    (else (str x))))
--- a/lib/haskell/test.sh
+++ b/lib/haskell/test.sh
@@ -46,7 +46,6 @@ for FILE in "${FILES[@]}"; do
  cat > "$TMPFILE" <<EPOCHS
 (epoch 1)
 (load "lib/haskell/tokenizer.sx")
-(load "lib/haskell/runtime.sx")
 (epoch 2)
 (load "$FILE")
 (epoch 3)
@@ -82,7 +81,6 @@ EPOCHS
    cat > "$TMPFILE2" <<EPOCHS
 (epoch 1)
 (load "lib/haskell/tokenizer.sx")
-(load "lib/haskell/runtime.sx")
 (epoch 2)
 (load "$FILE")
 (epoch 3)
--- a/lib/haskell/tests/runtime.sx
+++ b/lib/haskell/tests/runtime.sx
@@ -1,451 +0,0 @@
-;; lib/haskell/tests/runtime.sx — smoke-tests for lib/haskell/runtime.sx
-;;
-;; Uses the same hk-test framework as tests/parse.sx.
-;; Loaded by test.sh after: tokenizer.sx + runtime.sx are pre-loaded.
-
-;; ---------------------------------------------------------------------------
-;; Test framework boilerplate (mirrors parse.sx)
-;; ---------------------------------------------------------------------------
-
-(define hk-test-pass 0)
-(define hk-test-fail 0)
-(define hk-test-fails (list))
-
-(define
-  (hk-test name actual expected)
-  (if
-    (= actual expected)
-    (set! hk-test-pass (+ hk-test-pass 1))
-    (do
-      (set! hk-test-fail (+ hk-test-fail 1))
-      (append! hk-test-fails {:actual actual :expected expected :name name}))))
-
-;; ---------------------------------------------------------------------------
-;; 1. Numeric type class helpers
-;; ---------------------------------------------------------------------------
-
-(hk-test "is-integer? int" (hk-is-integer? 42) true)
-(hk-test "is-integer? float" (hk-is-integer? 1.5) false)
-(hk-test "is-float? float" (hk-is-float? 3.14) true)
-(hk-test "is-float? int" (hk-is-float? 3) false)
-(hk-test "is-num? int" (hk-is-num? 10) true)
-(hk-test "is-num? float" (hk-is-num? 1) true)
-
-(hk-test "to-float" (hk-to-float 5) 5)
-(hk-test "to-integer trunc" (hk-to-integer 3.7) 3)
-
-(hk-test "div pos pos" (hk-div 7 2) 3)
-(hk-test "div neg pos" (hk-div -7 2) -4)
-(hk-test "div pos neg" (hk-div 7 -2) -4)
-(hk-test "div neg neg" (hk-div -7 -2) 3)
-(hk-test "div exact" (hk-div 6 2) 3)
-
-(hk-test "mod pos pos" (hk-mod 10 3) 1)
-(hk-test "mod neg pos" (hk-mod -7 3) 2)
-(hk-test "rem pos pos" (hk-rem 10 3) 1)
-(hk-test "rem neg pos" (hk-rem -7 3) -1)
-
-(hk-test "abs pos" (hk-abs 5) 5)
-(hk-test "abs neg" (hk-abs -5) 5)
-(hk-test "signum pos" (hk-signum 42) 1)
-(hk-test "signum neg" (hk-signum -7) -1)
-(hk-test "signum zero" (hk-signum 0) 0)
-
-(hk-test "gcd" (hk-gcd 12 8) 4)
-(hk-test "lcm" (hk-lcm 4 6) 12)
-(hk-test "even?" (hk-even? 4) true)
-(hk-test "even? odd" (hk-even? 3) false)
-(hk-test "odd?" (hk-odd? 7) true)
-
-;; ---------------------------------------------------------------------------
-;; 2. Rational numbers
-;; ---------------------------------------------------------------------------
-
-(let
-  ((r (hk-make-rational 1 2)))
-  (do
-    (hk-test "rational?" (hk-rational? r) true)
-    (hk-test "numerator" (hk-numerator r) 1)
-    (hk-test "denominator" (hk-denominator r) 2)))
-
-(let
-  ((r (hk-make-rational 2 4)))
-  (do
-    (hk-test "rat normalise num" (hk-numerator r) 1)
-    (hk-test "rat normalise den" (hk-denominator r) 2)))
-
-(let
-  ((sum (hk-rational-add (hk-make-rational 1 2) (hk-make-rational 1 3))))
-  (do
-    (hk-test "rat-add num" (hk-numerator sum) 5)
-    (hk-test "rat-add den" (hk-denominator sum) 6)))
-
-(hk-test
-  "rat-to-float"
-  (hk-rational-to-float (hk-make-rational 1 2))
-  0.5)
-(hk-test "rational? int" (hk-rational? 42) false)
-
-;; ---------------------------------------------------------------------------
-;; 3. Lazy evaluation (promises via SX delay)
-;; ---------------------------------------------------------------------------
-
-(let
-  ((p (delay 42)))
-  (hk-test "force promise" (hk-force p) 42))
-
-(hk-test "force non-promise" (hk-force 99) 99)
-
-;; ---------------------------------------------------------------------------
-;; 4. Char utilities — compare via hk-ord to avoid = on char type
-;; ---------------------------------------------------------------------------
-
-(hk-test "ord A" (hk-ord (integer->char 65)) 65)
-(hk-test "chr 65" (hk-ord (hk-chr 65)) 65)
-(hk-test "is-alpha? A" (hk-is-alpha? (integer->char 65)) true)
-(hk-test "is-alpha? 0" (hk-is-alpha? (integer->char 48)) false)
-(hk-test "is-digit? 5" (hk-is-digit? (integer->char 53)) true)
-(hk-test "is-digit? A" (hk-is-digit? (integer->char 65)) false)
-(hk-test "is-upper? A" (hk-is-upper? (integer->char 65)) true)
-(hk-test "is-upper? a" (hk-is-upper? (integer->char 97)) false)
-(hk-test "is-lower? a" (hk-is-lower? (integer->char 97)) true)
-(hk-test "is-space? spc" (hk-is-space? (integer->char 32)) true)
-(hk-test "is-space? A" (hk-is-space? (integer->char 65)) false)
-(hk-test
-  "to-upper a"
-  (hk-ord (hk-to-upper (integer->char 97)))
-  65)
-(hk-test
-  "to-lower A"
-  (hk-ord (hk-to-lower (integer->char 65)))
-  97)
-(hk-test
-  "digit-to-int 0"
-  (hk-digit-to-int (integer->char 48))
-  0)
-(hk-test
-  "digit-to-int 9"
-  (hk-digit-to-int (integer->char 57))
-  9)
-(hk-test
-  "digit-to-int a"
-  (hk-digit-to-int (integer->char 97))
-  10)
-(hk-test
-  "digit-to-int F"
-  (hk-digit-to-int (integer->char 70))
-  15)
-(hk-test "int-to-digit 0" (hk-ord (hk-int-to-digit 0)) 48)
-(hk-test "int-to-digit 10" (hk-ord (hk-int-to-digit 10)) 97)
-
-;; ---------------------------------------------------------------------------
-;; 5. Data.Set
-;; ---------------------------------------------------------------------------
-
-(hk-test "set-empty is set?" (hk-set? (hk-set-empty)) true)
-(hk-test "set-null? empty" (hk-set-null? (hk-set-empty)) true)
-
-(let
-  ((s (hk-set-singleton 42)))
-  (do
-    (hk-test "singleton member" (hk-set-member? 42 s) true)
-    (hk-test "singleton size" (hk-set-size s) 1)))
-
-(let
-  ((s (hk-set-from-list (list 1 2 3))))
-  (do
-    (hk-test "from-list member" (hk-set-member? 2 s) true)
-    (hk-test "from-list absent" (hk-set-member? 9 s) false)
-    (hk-test "from-list size" (hk-set-size s) 3)))
-
-;; ---------------------------------------------------------------------------
-;; 6. Data.List
-;; ---------------------------------------------------------------------------
-
-(hk-test "head" (hk-head (list 1 2 3)) 1)
-(hk-test
-  "tail length"
-  (len (hk-tail (list 1 2 3)))
-  2)
-(hk-test "null? empty" (hk-null? (list)) true)
-(hk-test "null? non-empty" (hk-null? (list 1)) false)
-(hk-test
-  "length"
-  (hk-length (list 1 2 3))
-  3)
-
-(hk-test
-  "take 2"
-  (hk-take 2 (list 1 2 3))
-  (list 1 2))
-(hk-test "take 0" (hk-take 0 (list 1 2)) (list))
-(hk-test
-  "take overflow"
-  (hk-take 5 (list 1 2))
-  (list 1 2))
-(hk-test
-  "drop 1"
-  (hk-drop 1 (list 1 2 3))
-  (list 2 3))
-(hk-test
-  "drop 0"
-  (hk-drop 0 (list 1 2))
-  (list 1 2))
-
-(hk-test
-  "take-while"
-  (hk-take-while
-    (fn (x) (< x 3))
-    (list 1 2 3 4))
-  (list 1 2))
-(hk-test
-  "drop-while"
-  (hk-drop-while
-    (fn (x) (< x 3))
-    (list 1 2 3 4))
-  (list 3 4))
-
-(hk-test
-  "zip"
-  (hk-zip (list 1 2) (list 3 4))
-  (list (list 1 3) (list 2 4)))
-(hk-test
-  "zip uneven"
-  (hk-zip
-    (list 1 2 3)
-    (list 4 5))
-  (list (list 1 4) (list 2 5)))
-
-(hk-test
-  "zip-with +"
-  (hk-zip-with
-    +
-    (list 1 2 3)
-    (list 10 20 30))
-  (list 11 22 33))
-
-(hk-test
-  "unzip fst"
-  (first
-    (hk-unzip
-      (list (list 1 3) (list 2 4))))
-  (list 1 2))
-(hk-test
-  "unzip snd"
-  (nth
-    (hk-unzip
-      (list (list 1 3) (list 2 4)))
-    1)
-  (list 3 4))
-
-(hk-test
-  "elem hit"
-  (hk-elem 2 (list 1 2 3))
-  true)
-(hk-test
-  "elem miss"
-  (hk-elem 9 (list 1 2 3))
-  false)
-(hk-test
-  "not-elem"
-  (hk-not-elem 9 (list 1 2 3))
-  true)
-
-(hk-test
-  "nub"
-  (hk-nub (list 1 2 1 3 2))
-  (list 1 2 3))
-
-(hk-test
-  "sum"
-  (hk-sum (list 1 2 3 4))
-  10)
-(hk-test
-  "product"
-  (hk-product (list 1 2 3 4))
-  24)
-(hk-test
-  "maximum"
-  (hk-maximum (list 3 1 4 1 5))
-  5)
-(hk-test
-  "minimum"
-  (hk-minimum (list 3 1 4 1 5))
-  1)
-
-(hk-test
-  "concat"
-  (hk-concat
-    (list (list 1 2) (list 3 4)))
-  (list 1 2 3 4))
-(hk-test
-  "concat-map"
-  (hk-concat-map
-    (fn (x) (list x (* x x)))
-    (list 1 2 3))
-  (list 1 1 2 4 3 9))
-
-(hk-test
-  "sort"
-  (hk-sort (list 3 1 4 1 5))
-  (list 1 1 3 4 5))
-(hk-test
-  "replicate"
-  (hk-replicate 3 0)
-  (list 0 0 0))
-(hk-test "replicate 0" (hk-replicate 0 99) (list))
-
-(hk-test
-  "intersperse"
-  (hk-intersperse 0 (list 1 2 3))
-  (list 1 0 2 0 3))
-(hk-test
-  "intersperse 1"
-  (hk-intersperse 0 (list 1))
-  (list 1))
-(hk-test "intersperse empty" (hk-intersperse 0 (list)) (list))
-
-(hk-test
-  "span"
-  (hk-span
-    (fn (x) (< x 3))
-    (list 1 2 3 4))
-  (list (list 1 2) (list 3 4)))
-(hk-test
-  "break"
-  (hk-break
-    (fn (x) (>= x 3))
-    (list 1 2 3 4))
-  (list (list 1 2) (list 3 4)))
-
-(hk-test
-  "foldl"
-  (hk-foldl
-    (fn (a b) (- a b))
-    10
-    (list 1 2 3))
-  4)
-(hk-test
-  "foldr"
-  (hk-foldr cons (list) (list 1 2 3))
-  (list 1 2 3))
-
-(hk-test
-  "scanl"
-  (hk-scanl + 0 (list 1 2 3))
-  (list 0 1 3 6))
-
-;; ---------------------------------------------------------------------------
-;; 7. Maybe / Either
-;; ---------------------------------------------------------------------------
-
-(hk-test "nothing is-nothing?" (hk-is-nothing? hk-nothing) true)
-(hk-test "nothing is-just?" (hk-is-just? hk-nothing) false)
-(hk-test "just is-just?" (hk-is-just? (hk-just 42)) true)
-(hk-test "just is-nothing?" (hk-is-nothing? (hk-just 42)) false)
-(hk-test "from-just" (hk-from-just (hk-just 99)) 99)
-(hk-test
-  "from-maybe nothing"
-  (hk-from-maybe 0 hk-nothing)
-  0)
-(hk-test
-  "from-maybe just"
-  (hk-from-maybe 0 (hk-just 42))
-  42)
-(hk-test
-  "maybe nothing"
-  (hk-maybe 0 (fn (x) (* x 2)) hk-nothing)
-  0)
-(hk-test
-  "maybe just"
-  (hk-maybe 0 (fn (x) (* x 2)) (hk-just 5))
-  10)
-
-(hk-test "left is-left?" (hk-is-left? (hk-left "e")) true)
-(hk-test "right is-right?" (hk-is-right? (hk-right 42)) true)
-(hk-test "from-right" (hk-from-right (hk-right 7)) 7)
-(hk-test
-  "either left"
-  (hk-either (fn (x) (str "L" x)) (fn (x) (str "R" x)) (hk-left "err"))
-  "Lerr")
-(hk-test
-  "either right"
-  (hk-either
-    (fn (x) (str "L" x))
-    (fn (x) (str "R" x))
-    (hk-right 42))
-  "R42")
-
-;; ---------------------------------------------------------------------------
-;; 8. Tuples
-;; ---------------------------------------------------------------------------
-
-(hk-test "pair" (hk-pair 1 2) (list 1 2))
-(hk-test "fst" (hk-fst (hk-pair 3 4)) 3)
-(hk-test "snd" (hk-snd (hk-pair 3 4)) 4)
-(hk-test
-  "triple"
-  (hk-triple 1 2 3)
-  (list 1 2 3))
-(hk-test
-  "fst3"
-  (hk-fst3 (hk-triple 7 8 9))
-  7)
-(hk-test
-  "thd3"
-  (hk-thd3 (hk-triple 7 8 9))
-  9)
-
-(hk-test "curry" ((hk-curry +) 3 4) 7)
-(hk-test
-  "uncurry"
-  ((hk-uncurry (fn (a b) (* a b))) (list 3 4))
-  12)
-
-;; ---------------------------------------------------------------------------
-;; 9. String helpers
-;; ---------------------------------------------------------------------------
-
-(hk-test "words" (hk-words "hello world") (list "hello" "world"))
-(hk-test "words leading ws" (hk-words "  foo bar") (list "foo" "bar"))
-(hk-test "words empty" (hk-words "") (list))
-(hk-test "unwords" (hk-unwords (list "a" "b" "c")) "a b c")
-(hk-test "unwords single" (hk-unwords (list "x")) "x")
-
-(hk-test "lines" (hk-lines "a\nb\nc") (list "a" "b" "c"))
-(hk-test "lines single" (hk-lines "hello") (list "hello"))
-(hk-test "unlines" (hk-unlines (list "a" "b")) "a\nb\n")
-
-(hk-test "is-prefix-of yes" (hk-is-prefix-of "he" "hello") true)
-(hk-test "is-prefix-of no" (hk-is-prefix-of "wo" "hello") false)
-(hk-test "is-prefix-of eq" (hk-is-prefix-of "hi" "hi") true)
-(hk-test "is-prefix-of empty" (hk-is-prefix-of "" "hi") true)
-
-(hk-test "is-suffix-of yes" (hk-is-suffix-of "lo" "hello") true)
-(hk-test "is-suffix-of no" (hk-is-suffix-of "he" "hello") false)
-(hk-test "is-suffix-of empty" (hk-is-suffix-of "" "hi") true)
-
-(hk-test "is-infix-of yes" (hk-is-infix-of "ell" "hello") true)
-(hk-test "is-infix-of no" (hk-is-infix-of "xyz" "hello") false)
-(hk-test "is-infix-of empty" (hk-is-infix-of "" "hello") true)
-
-;; ---------------------------------------------------------------------------
-;; 10. Show
-;; ---------------------------------------------------------------------------
-
-(hk-test "show nil" (hk-show nil) "Nothing")
-(hk-test "show true" (hk-show true) "True")
-(hk-test "show false" (hk-show false) "False")
-(hk-test "show int" (hk-show 42) "42")
-(hk-test "show string" (hk-show "hi") "\"hi\"")
-(hk-test
-  "show list"
-  (hk-show (list 1 2 3))
-  "[1,2,3]")
-(hk-test "show empty list" (hk-show (list)) "[]")
-
-;; ---------------------------------------------------------------------------
-;; Summary (required by test.sh — last expression is the return value)
-;; ---------------------------------------------------------------------------
-
-(list hk-test-pass hk-test-fail)
--- a/lib/hyperscript/compiler.sx
+++ b/lib/hyperscript/compiler.sx
--- a/lib/hyperscript/integration.sx
+++ b/lib/hyperscript/integration.sx
@@ -19,6 +19,7 @@
      (define
        reserved
        (list
+          (quote beingTold)
          (quote me)
          (quote it)
          (quote event)
@@ -65,7 +66,10 @@
                  (list (quote me))
                  (list
                    (quote let)
-                    (list (list (quote it) nil) (list (quote event) nil))
+                    (list
+                      (list (quote beingTold) (quote me))
+                      (list (quote it) nil)
+                      (list (quote event) nil))
                    guarded))))))))))

 ;; ── Activate a single element ───────────────────────────────────
@@ -73,23 +77,77 @@
 ;; Marks the element to avoid double-activation.

 (define
-  hs-activate!
+  hs-register-scripts!
  (fn
-    (el)
-    (let
-      ((src (dom-get-attr el "_")) (prev (dom-get-data el "hs-script")))
-      (when
-        (and src (not (= src prev)))
-        (hs-log-event! "hyperscript:init")
-        (dom-set-data el "hs-script" src)
-        (dom-set-data el "hs-active" true)
-        (dom-set-attr el "data-hyperscript-powered" "true")
-        (let ((handler (hs-handler src))) (handler el))))))
+    ()
+    (for-each
+      (fn
+        (script)
+        (when
+          (not (dom-get-data script "hs-script-loaded"))
+          (let
+            ((src (host-get script "innerHTML")))
+            (when
+              (and src (not (= src "")))
+              (guard
+                (_e (true nil))
+                (eval-expr-cek (hs-to-sx-from-source src)))
+              (dom-set-data script "hs-script-loaded" true)))))
+      (hs-query-all "script[type=text/hyperscript]"))))

 ;; ── Boot: scan entire document ──────────────────────────────────
 ;; Called once at page load. Finds all elements with _ attribute,
 ;; compiles their hyperscript, and activates them.

+(define
+  hs-scripting-disabled?
+  (fn
+    (el)
+    (if
+      (= el nil)
+      false
+      (if
+        (dom-get-attr el "disable-scripting")
+        true
+        (hs-scripting-disabled? (dom-parent el))))))
+
+;; ── Boot subtree: for dynamic content ───────────────────────────
+;; Called after HTMX swaps or dynamic DOM insertion.
+;; Only activates elements within the given root.
+
+(define
+  hs-activate!
+  (fn
+    (el)
+    (do
+      (hs-register-scripts!)
+      (let
+        ((src (dom-get-attr el "_")) (prev (dom-get-data el "hs-script")))
+        (when
+          (and src (not (= src prev)) (not (hs-scripting-disabled? el)))
+          (when
+            (dom-dispatch el "hyperscript:before:init" nil)
+            (hs-log-event! "hyperscript:init")
+            (dom-set-data el "hs-script" src)
+            (dom-set-data el "hs-active" true)
+            (dom-set-attr el "data-hyperscript-powered" "true")
+            (guard
+              (_e (true nil))
+              (let
+                ((handler (hs-handler src)))
+                (let
+                  ((el-type (dom-get-attr el "type"))
+                    (comp-name (dom-get-attr el "component")))
+                  (let
+                    ((safe-handler (fn (e) (host-call-fn handler (list e)))))
+                    (if
+                      (= el-type "text/hyperscript-template")
+                      (for-each
+                        safe-handler
+                        (hs-query-all (or comp-name "")))
+                      (safe-handler el))))))
+            (dom-dispatch el "hyperscript:after:init" nil)))))))
+
 (define
  hs-deactivate!
  (fn
@@ -101,10 +159,6 @@
      (dom-set-data el "hs-active" false)
      (dom-set-data el "hs-script" nil))))

-;; ── Boot subtree: for dynamic content ───────────────────────────
-;; Called after HTMX swaps or dynamic DOM insertion.
-;; Only activates elements within the given root.
-
 (define
  hs-boot!
  (fn
--- a/lib/hyperscript/parser.sx
+++ b/lib/hyperscript/parser.sx
--- a/lib/hyperscript/runtime.sx
+++ b/lib/hyperscript/runtime.sx
--- a/lib/hyperscript/tokenizer.sx
+++ b/lib/hyperscript/tokenizer.sx
@@ -28,6 +28,27 @@

 (define hs-ws? (fn (c) (or (= c " ") (= c "\t") (= c "\n") (= c "\r"))))

+(define
+  hs-hex-digit?
+  (fn
+    (c)
+    (or
+      (and (>= c "0") (<= c "9"))
+      (and (>= c "a") (<= c "f"))
+      (and (>= c "A") (<= c "F")))))
+
+(define
+  hs-hex-val
+  (fn
+    (c)
+    (let
+      ((code (char-code c)))
+      (cond
+        ((and (>= code 48) (<= code 57))  (- code 48))
+        ((and (>= code 65) (<= code 70))  (- code 55))
+        ((and (>= code 97) (<= code 102)) (- code 87))
+        (true 0)))))
+
 ;; ── Keyword set ───────────────────────────────────────────────────

 (define
@@ -110,6 +131,7 @@
    "append"
    "settle"
    "transition"
+    "view"
    "over"
    "closest"
    "next"
@@ -187,7 +209,8 @@
    "using"
    "giving"
    "ask"
-    "answer"))
+    "answer"
+    "bind"))

 (define hs-keyword? (fn (word) (some (fn (k) (= k word)) hs-keywords)))

@@ -235,10 +258,15 @@
        read-number
        (fn
          (start)
-          (when
-            (and (< pos src-len) (hs-digit? (hs-cur)))
-            (hs-advance! 1)
-            (read-number start))
+          (define
+            read-int
+            (fn
+              ()
+              (when
+                (and (< pos src-len) (hs-digit? (hs-cur)))
+                (hs-advance! 1)
+                (read-int))))
+          (read-int)
          (when
            (and
              (< pos src-len)
@@ -246,15 +274,7 @@
              (< (+ pos 1) src-len)
              (hs-digit? (hs-peek 1)))
            (hs-advance! 1)
-            (define
-              read-frac
-              (fn
-                ()
-                (when
-                  (and (< pos src-len) (hs-digit? (hs-cur)))
-                  (hs-advance! 1)
-                  (read-frac))))
-            (read-frac))
+            (read-int))
          (do
            (when
              (and
@@ -272,15 +292,7 @@
                  (< pos src-len)
                  (or (= (hs-cur) "+") (= (hs-cur) "-")))
                (hs-advance! 1))
-              (define
-                read-exp-digits
-                (fn
-                  ()
-                  (when
-                    (and (< pos src-len) (hs-digit? (hs-cur)))
-                    (hs-advance! 1)
-                    (read-exp-digits))))
-              (read-exp-digits))
+              (read-int))
            (let
              ((num-end pos))
              (when
@@ -308,7 +320,7 @@
                ()
                (cond
                  (>= pos src-len)
-                  nil
+                  (error "Unterminated string")
                  (= (hs-cur) "\\")
                  (do
                    (hs-advance! 1)
@@ -318,15 +330,47 @@
                        ((ch (hs-cur)))
                        (cond
                          (= ch "n")
-                          (append! chars "\n")
+                          (do (append! chars "\n") (hs-advance! 1))
                          (= ch "t")
-                          (append! chars "\t")
+                          (do (append! chars "\t") (hs-advance! 1))
+                          (= ch "r")
+                          (do (append! chars "\r") (hs-advance! 1))
+                          (= ch "b")
+                          (do
+                            (append! chars (char-from-code 8))
+                            (hs-advance! 1))
+                          (= ch "f")
+                          (do
+                            (append! chars (char-from-code 12))
+                            (hs-advance! 1))
+                          (= ch "v")
+                          (do
+                            (append! chars (char-from-code 11))
+                            (hs-advance! 1))
                          (= ch "\\")
-                          (append! chars "\\")
+                          (do (append! chars "\\") (hs-advance! 1))
                          (= ch quote-char)
-                          (append! chars quote-char)
-                          :else (do (append! chars "\\") (append! chars ch)))
-                        (hs-advance! 1)))
+                          (do (append! chars quote-char) (hs-advance! 1))
+                          (= ch "x")
+                          (do
+                            (hs-advance! 1)
+                            (if
+                              (and
+                                (< (+ pos 1) src-len)
+                                (hs-hex-digit? (hs-cur))
+                                (hs-hex-digit? (hs-peek 1)))
+                              (let
+                                ((d1 (hs-hex-val (hs-cur)))
+                                  (d2 (hs-hex-val (hs-peek 1))))
+                                (append!
+                                  chars
+                                  (char-from-code (+ (* d1 16) d2)))
+                                (hs-advance! 2))
+                              (error "Invalid hexadecimal escape: \\x")))
+                          :else (do
+                            (append! chars "\\")
+                            (append! chars ch)
+                            (hs-advance! 1)))))
                    (loop))
                  (= (hs-cur) quote-char)
                  (hs-advance! 1)
@@ -413,27 +457,68 @@
        read-class-name
        (fn
          (start)
-          (when
-            (and
-              (< pos src-len)
-              (or
-                (hs-ident-char? (hs-cur))
-                (= (hs-cur) ":")
-                (= (hs-cur) "[")
-                (= (hs-cur) "]")))
-            (hs-advance! 1)
-            (read-class-name start))
-          (slice src start pos)))
+          (define
+            build-name
+            (fn
+              (acc depth)
+              (cond
+                ((and (< pos src-len) (= (hs-cur) "\\") (< (+ pos 1) src-len))
+                  (do
+                    (hs-advance! 1)
+                    (let
+                      ((c (hs-cur)))
+                      (hs-advance! 1)
+                      (build-name (str acc c) depth))))
+                ((and (< pos src-len) (= (hs-cur) "["))
+                  (do
+                    (let
+                      ((c (hs-cur)))
+                      (hs-advance! 1)
+                      (build-name (str acc c) (+ depth 1)))))
+                ((and (< pos src-len) (= (hs-cur) "]"))
+                  (do
+                    (let
+                      ((c (hs-cur)))
+                      (hs-advance! 1)
+                      (build-name
+                        (str acc c)
+                        (if (> depth 0) (- depth 1) 0)))))
+                ((and (< pos src-len) (> depth 0) (or (= (hs-cur) "(") (= (hs-cur) ")")))
+                  (do
+                    (let
+                      ((c (hs-cur)))
+                      (hs-advance! 1)
+                      (build-name (str acc c) depth))))
+                ((and (< pos src-len) (or (hs-ident-char? (hs-cur)) (= (hs-cur) ":") (= (hs-cur) "&")))
+                  (do
+                    (let
+                      ((c (hs-cur)))
+                      (hs-advance! 1)
+                      (build-name (str acc c) depth))))
+                (true acc))))
+          (build-name "" 0)))
      (define
        hs-emit!
        (fn
          (type value start)
-          (append! tokens (hs-make-token type value start))))
+          (let
+            ((tok (hs-make-token type value start))
+              (end-pos
+                (max pos (+ start (if (nil? value) 0 (len (str value)))))))
+            (do
+              (dict-set! tok "end" end-pos)
+              (dict-set! tok "line" (len (split (slice src 0 start) "\n")))
+              (append! tokens tok)))))
      (define
        scan!
        (fn
          ()
-          (skip-ws!)
+          (let
+            ((ws-start pos))
+            (skip-ws!)
+            (when
+              (and (> (len tokens) 0) (> pos ws-start))
+              (hs-emit! "whitespace" (slice src ws-start pos) ws-start)))
          (when
            (< pos src-len)
            (let
@@ -453,10 +538,26 @@
                    (= (hs-peek 1) "#")
                    (= (hs-peek 1) "[")
                    (= (hs-peek 1) "*")
-                    (= (hs-peek 1) ":")))
+                    (= (hs-peek 1) ":")
+                    (= (hs-peek 1) "$")))
                (do (hs-emit! "selector" (read-selector) start) (scan!))
                (and (= ch ".") (< (+ pos 1) src-len) (= (hs-peek 1) "."))
                (do (hs-emit! "op" ".." start) (hs-advance! 2) (scan!))
+                (and
+                  (= ch ".")
+                  (< (+ pos 1) src-len)
+                  (or
+                    (hs-letter? (hs-peek 1))
+                    (= (hs-peek 1) "-")
+                    (= (hs-peek 1) "_"))
+                  (> (len tokens) 0)
+                  (let
+                    ((lt (dict-get (nth tokens (- (len tokens) 1)) :type)))
+                    (or
+                      (= lt "paren-close")
+                      (= lt "brace-close")
+                      (= lt "bracket-close"))))
+                (do (hs-emit! "dot" "." start) (hs-advance! 1) (scan!))
                (and
                  (= ch ".")
                  (< (+ pos 1) src-len)
@@ -468,6 +569,18 @@
                  (hs-advance! 1)
                  (hs-emit! "class" (read-class-name pos) start)
                  (scan!))
+                (and
+                  (= ch "#")
+                  (< (+ pos 1) src-len)
+                  (hs-ident-start? (hs-peek 1))
+                  (> (len tokens) 0)
+                  (let
+                    ((lt (dict-get (nth tokens (- (len tokens) 1)) :type)))
+                    (or
+                      (= lt "paren-close")
+                      (= lt "brace-close")
+                      (= lt "bracket-close"))))
+                (do (hs-emit! "op" "#" start) (hs-advance! 1) (scan!))
                (and
                  (= ch "#")
                  (< (+ pos 1) src-len)
@@ -536,10 +649,12 @@
                (do
                  (let
                    ((word (read-ident start)))
-                    (hs-emit!
-                      (if (hs-keyword? word) "keyword" "ident")
-                      word
-                      start))
+                    (let
+                      ((full-word (if (and (< pos src-len) (= (hs-cur) "'") (< (+ pos 1) src-len) (hs-letter? (hs-peek 1)) (not (and (= (hs-peek 1) "s") (or (>= (+ pos 2) src-len) (not (hs-ident-char? (hs-peek 2))))))) (do (hs-advance! 1) (str word "'" (read-ident pos))) word)))
+                      (hs-emit!
+                        (if (hs-keyword? full-word) "keyword" "ident")
+                        full-word
+                        start)))
                  (scan!))
                (and
                  (or (= ch "=") (= ch "!") (= ch "<") (= ch ">"))
@@ -620,7 +735,82 @@
                (do (hs-emit! "colon" ":" start) (hs-advance! 1) (scan!))
                (= ch "|")
                (do (hs-emit! "op" "|" start) (hs-advance! 1) (scan!))
+                (= ch "&")
+                (do (hs-emit! "op" "&" start) (hs-advance! 1) (scan!))
+                (= ch "#")
+                (do (hs-emit! "op" "#" start) (hs-advance! 1) (scan!))
+                (= ch "?")
+                (do (hs-emit! "op" "?" start) (hs-advance! 1) (scan!))
+                (= ch ";")
+                (do (hs-emit! "op" ";" start) (hs-advance! 1) (scan!))
                :else (do (hs-advance! 1) (scan!)))))))
      (scan!)
      (hs-emit! "eof" nil pos)
+      tokens)))
+
+;; ── Template-mode tokenizer (E37 API) ────────────────────────────────
+;; Used by hs-tokens-of when :template flag is set.
+;; Emits outer " chars as single STRING tokens; ${ ... } as $ { <inner-tokens> };
+;; inner content is tokenized with the regular hs-tokenize.
+
+(define
+  hs-tokenize-template
+  (fn
+    (src)
+    (let
+      ((tokens (list)) (pos 0) (src-len (len src)))
+      (define t-cur (fn () (if (< pos src-len) (nth src pos) nil)))
+      (define t-peek (fn (n) (if (< (+ pos n) src-len) (nth src (+ pos n)) nil)))
+      (define t-advance! (fn (n) (set! pos (+ pos n))))
+      (define t-emit! (fn (type value) (append! tokens (hs-make-token type value pos))))
+      (define
+        scan-to-close!
+        (fn
+          (depth)
+          (when
+            (and (< pos src-len) (> depth 0))
+            (cond
+              (= (t-cur) "{")
+              (do (t-advance! 1) (scan-to-close! (+ depth 1)))
+              (= (t-cur) "}")
+              (when (> (- depth 1) 0) (t-advance! 1) (scan-to-close! (- depth 1)))
+              :else (do (t-advance! 1) (scan-to-close! depth))))))
+      (define
+        scan-template!
+        (fn
+          ()
+          (when
+            (< pos src-len)
+            (let
+              ((ch (t-cur)))
+              (cond
+                (= ch "\"")
+                (do (t-emit! "string" "\"") (t-advance! 1) (scan-template!))
+                (and (= ch "$") (= (t-peek 1) "{"))
+                (do
+                  (t-emit! "op" "$")
+                  (t-advance! 1)
+                  (t-emit! "brace-open" "{")
+                  (t-advance! 1)
+                  (let
+                    ((inner-start pos))
+                    (scan-to-close! 1)
+                    (let
+                      ((inner-src (slice src inner-start pos))
+                       (inner-toks (hs-tokenize inner-src)))
+                      (for-each
+                        (fn (tok)
+                          (when (not (= (get tok "type") "eof"))
+                            (append! tokens tok)))
+                        inner-toks))
+                    (t-emit! "brace-close" "}")
+                    (when (< pos src-len) (t-advance! 1)))
+                  (scan-template!))
+                (= ch "$")
+                (do (t-emit! "op" "$") (t-advance! 1) (scan-template!))
+                (hs-ws? ch)
+                (do (t-advance! 1) (scan-template!))
+                :else (do (t-advance! 1) (scan-template!)))))))
+      (scan-template!)
+      (t-emit! "eof" nil)
      tokens)))
--- a/lib/js/conformance.sh
+++ b/lib/js/conformance.sh
@@ -49,8 +49,6 @@ trap "rm -f $TMPFILE" EXIT
  echo '(load "lib/js/transpile.sx")'
  echo '(epoch 5)'
  echo '(load "lib/js/runtime.sx")'
-  echo '(epoch 6)'
-  echo '(load "lib/js/regex.sx")'

  epoch=100
  for f in "${FIXTURES[@]}"; do
--- a/lib/js/regex.sx
+++ b/lib/js/regex.sx
@@ -1,943 +0,0 @@
-;; lib/js/regex.sx — pure-SX recursive backtracking regex engine
-;;
-;; Installed via (js-regex-platform-override! ...) at load time.
-;; Covers: character classes (\d\w\s . [abc] [^abc] [a-z]),
-;;   anchors (^ $ \b \B), quantifiers (* + ? {n,m} lazy variants),
-;;   groups (capturing + non-capturing), alternation (a|b),
-;;   flags: i (case-insensitive), g (global), m (multiline).
-;;
-;; Architecture:
-;;   1. rx-parse-pattern  — pattern string → compiled node list
-;;   2. rx-match-nodes    — recursive backtracker
-;;   3. rx-exec / rx-test — public interface
-;;   4. Install as {:test rx-test :exec rx-exec}
-
-;; ── Utilities ─────────────────────────────────────────────────────
-
-(define
-  rx-char-at
-  (fn (s i) (if (and (>= i 0) (< i (len s))) (char-at s i) "")))
-
-(define
-  rx-digit?
-  (fn
-    (c)
-    (and (not (= c "")) (>= (char-code c) 48) (<= (char-code c) 57))))
-
-(define
-  rx-word?
-  (fn
-    (c)
-    (and
-      (not (= c ""))
-      (or
-        (and (>= (char-code c) 65) (<= (char-code c) 90))
-        (and (>= (char-code c) 97) (<= (char-code c) 122))
-        (and (>= (char-code c) 48) (<= (char-code c) 57))
-        (= c "_")))))
-
-(define
-  rx-space?
-  (fn
-    (c)
-    (or (= c " ") (= c "\t") (= c "\n") (= c "\r") (= c "\\f") (= c ""))))
-
-(define rx-newline? (fn (c) (or (= c "\n") (= c "\r"))))
-
-(define
-  rx-downcase-char
-  (fn
-    (c)
-    (let
-      ((cc (char-code c)))
-      (if (and (>= cc 65) (<= cc 90)) (char-from-code (+ cc 32)) c))))
-
-(define
-  rx-char-eq?
-  (fn
-    (a b ci?)
-    (if ci? (= (rx-downcase-char a) (rx-downcase-char b)) (= a b))))
-
-(define
-  rx-parse-int
-  (fn
-    (pat i acc)
-    (let
-      ((c (rx-char-at pat i)))
-      (if
-        (rx-digit? c)
-        (rx-parse-int pat (+ i 1) (+ (* acc 10) (- (char-code c) 48)))
-        (list acc i)))))
-
-(define
-  rx-hex-digit-val
-  (fn
-    (c)
-    (cond
-      ((and (>= (char-code c) 48) (<= (char-code c) 57))
-        (- (char-code c) 48))
-      ((and (>= (char-code c) 65) (<= (char-code c) 70))
-        (+ 10 (- (char-code c) 65)))
-      ((and (>= (char-code c) 97) (<= (char-code c) 102))
-        (+ 10 (- (char-code c) 97)))
-      (else -1))))
-
-(define
-  rx-parse-hex-n
-  (fn
-    (pat i n acc)
-    (if
-      (= n 0)
-      (list (char-from-code acc) i)
-      (let
-        ((v (rx-hex-digit-val (rx-char-at pat i))))
-        (if
-          (< v 0)
-          (list (char-from-code acc) i)
-          (rx-parse-hex-n pat (+ i 1) (- n 1) (+ (* acc 16) v)))))))
-
-;; ── Pattern compiler ──────────────────────────────────────────────
-
-;; Node types (stored in dicts with "__t__" key):
-;;   literal  : {:__t__ "literal" :__c__ char}
-;;   any      : {:__t__ "any"}
-;;   class-d  : {:__t__ "class-d"  :__neg__ bool}
-;;   class-w  : {:__t__ "class-w"  :__neg__ bool}
-;;   class-s  : {:__t__ "class-s"  :__neg__ bool}
-;;   char-class: {:__t__ "char-class" :__neg__ bool :__items__ list}
-;;   anchor-start / anchor-end / anchor-word / anchor-nonword
-;;   quant    : {:__t__ "quant" :__node__ n :__min__ m :__max__ mx :__lazy__ bool}
-;;   group    : {:__t__ "group" :__idx__ i :__nodes__ list}
-;;   ncgroup  : {:__t__ "ncgroup" :__nodes__ list}
-;;   alt      : {:__t__ "alt" :__branches__ list-of-node-lists}
-
-;; parse one escape after `\`, returns (node new-i)
-(define
-  rx-parse-escape
-  (fn
-    (pat i)
-    (let
-      ((c (rx-char-at pat i)))
-      (cond
-        ((= c "d") (list (dict "__t__" "class-d" "__neg__" false) (+ i 1)))
-        ((= c "D") (list (dict "__t__" "class-d" "__neg__" true) (+ i 1)))
-        ((= c "w") (list (dict "__t__" "class-w" "__neg__" false) (+ i 1)))
-        ((= c "W") (list (dict "__t__" "class-w" "__neg__" true) (+ i 1)))
-        ((= c "s") (list (dict "__t__" "class-s" "__neg__" false) (+ i 1)))
-        ((= c "S") (list (dict "__t__" "class-s" "__neg__" true) (+ i 1)))
-        ((= c "b") (list (dict "__t__" "anchor-word") (+ i 1)))
-        ((= c "B") (list (dict "__t__" "anchor-nonword") (+ i 1)))
-        ((= c "n") (list (dict "__t__" "literal" "__c__" "\n") (+ i 1)))
-        ((= c "r") (list (dict "__t__" "literal" "__c__" "\r") (+ i 1)))
-        ((= c "t") (list (dict "__t__" "literal" "__c__" "\t") (+ i 1)))
-        ((= c "f") (list (dict "__t__" "literal" "__c__" "\\f") (+ i 1)))
-        ((= c "v") (list (dict "__t__" "literal" "__c__" "") (+ i 1)))
-        ((= c "u")
-          (let
-            ((res (rx-parse-hex-n pat (+ i 1) 4 0)))
-            (list (dict "__t__" "literal" "__c__" (nth res 0)) (nth res 1))))
-        ((= c "x")
-          (let
-            ((res (rx-parse-hex-n pat (+ i 1) 2 0)))
-            (list (dict "__t__" "literal" "__c__" (nth res 0)) (nth res 1))))
-        (else (list (dict "__t__" "literal" "__c__" c) (+ i 1)))))))
-
-;; parse a char-class item inside [...], returns (item new-i)
-(define
-  rx-parse-class-item
-  (fn
-    (pat i)
-    (let
-      ((c (rx-char-at pat i)))
-      (cond
-        ((= c "\\")
-          (let
-            ((esc (rx-parse-escape pat (+ i 1))))
-            (let
-              ((node (nth esc 0)) (ni (nth esc 1)))
-              (let
-                ((t (get node "__t__")))
-                (cond
-                  ((= t "class-d")
-                    (list
-                      (dict "kind" "class-d" "neg" (get node "__neg__"))
-                      ni))
-                  ((= t "class-w")
-                    (list
-                      (dict "kind" "class-w" "neg" (get node "__neg__"))
-                      ni))
-                  ((= t "class-s")
-                    (list
-                      (dict "kind" "class-s" "neg" (get node "__neg__"))
-                      ni))
-                  (else
-                    (let
-                      ((lc (get node "__c__")))
-                      (if
-                        (and
-                          (= (rx-char-at pat ni) "-")
-                          (not (= (rx-char-at pat (+ ni 1)) "]")))
-                        (let
-                          ((hi-c (rx-char-at pat (+ ni 1))))
-                          (list
-                            (dict "kind" "range" "lo" lc "hi" hi-c)
-                            (+ ni 2)))
-                        (list (dict "kind" "lit" "c" lc) ni)))))))))
-        (else
-          (if
-            (and
-              (not (= c ""))
-              (= (rx-char-at pat (+ i 1)) "-")
-              (not (= (rx-char-at pat (+ i 2)) "]"))
-              (not (= (rx-char-at pat (+ i 2)) "")))
-            (let
-              ((hi-c (rx-char-at pat (+ i 2))))
-              (list (dict "kind" "range" "lo" c "hi" hi-c) (+ i 3)))
-            (list (dict "kind" "lit" "c" c) (+ i 1))))))))
-
-(define
-  rx-parse-class-items
-  (fn
-    (pat i items)
-    (let
-      ((c (rx-char-at pat i)))
-      (if
-        (or (= c "]") (= c ""))
-        (list items i)
-        (let
-          ((res (rx-parse-class-item pat i)))
-          (begin
-            (append! items (nth res 0))
-            (rx-parse-class-items pat (nth res 1) items)))))))
-
-;; parse a sequence until stop-ch or EOF; returns (nodes new-i groups-count)
-(define
-  rx-parse-seq
-  (fn
-    (pat i stop-ch ds)
-    (let
-      ((c (rx-char-at pat i)))
-      (cond
-        ((= c "") (list (get ds "nodes") i (get ds "groups")))
-        ((= c stop-ch) (list (get ds "nodes") i (get ds "groups")))
-        ((= c "|") (rx-parse-alt-rest pat i ds))
-        (else
-          (let
-            ((res (rx-parse-atom pat i ds)))
-            (let
-              ((node (nth res 0)) (ni (nth res 1)) (ds2 (nth res 2)))
-              (let
-                ((qres (rx-parse-quant pat ni node)))
-                (begin
-                  (append! (get ds2 "nodes") (nth qres 0))
-                  (rx-parse-seq pat (nth qres 1) stop-ch ds2))))))))))
-
-;; when we hit | inside a sequence, collect all alternatives
-(define
-  rx-parse-alt-rest
-  (fn
-    (pat i ds)
-    (let
-      ((left-branch (get ds "nodes")) (branches (list)))
-      (begin
-        (append! branches left-branch)
-        (rx-parse-alt-branches pat i (get ds "groups") branches)))))
-
-(define
-  rx-parse-alt-branches
-  (fn
-    (pat i n-groups branches)
-    (let
-      ((new-nodes (list)) (ds2 (dict "groups" n-groups "nodes" new-nodes)))
-      (let
-        ((res (rx-parse-seq pat (+ i 1) "|" ds2)))
-        (begin
-          (append! branches (nth res 0))
-          (let
-            ((ni2 (nth res 1)) (g2 (nth res 2)))
-            (if
-              (= (rx-char-at pat ni2) "|")
-              (rx-parse-alt-branches pat ni2 g2 branches)
-              (list
-                (list (dict "__t__" "alt" "__branches__" branches))
-                ni2
-                g2))))))))
-
-;; parse quantifier suffix, returns (node new-i)
-(define
-  rx-parse-quant
-  (fn
-    (pat i node)
-    (let
-      ((c (rx-char-at pat i)))
-      (cond
-        ((= c "*")
-          (let
-            ((lazy? (= (rx-char-at pat (+ i 1)) "?")))
-            (list
-              (dict
-                "__t__"
-                "quant"
-                "__node__"
-                node
-                "__min__"
-                0
-                "__max__"
-                -1
-                "__lazy__"
-                lazy?)
-              (if lazy? (+ i 2) (+ i 1)))))
-        ((= c "+")
-          (let
-            ((lazy? (= (rx-char-at pat (+ i 1)) "?")))
-            (list
-              (dict
-                "__t__"
-                "quant"
-                "__node__"
-                node
-                "__min__"
-                1
-                "__max__"
-                -1
-                "__lazy__"
-                lazy?)
-              (if lazy? (+ i 2) (+ i 1)))))
-        ((= c "?")
-          (let
-            ((lazy? (= (rx-char-at pat (+ i 1)) "?")))
-            (list
-              (dict
-                "__t__"
-                "quant"
-                "__node__"
-                node
-                "__min__"
-                0
-                "__max__"
-                1
-                "__lazy__"
-                lazy?)
-              (if lazy? (+ i 2) (+ i 1)))))
-        ((= c "{")
-          (let
-            ((mres (rx-parse-int pat (+ i 1) 0)))
-            (let
-              ((mn (nth mres 0)) (mi (nth mres 1)))
-              (let
-                ((sep (rx-char-at pat mi)))
-                (cond
-                  ((= sep "}")
-                    (let
-                      ((lazy? (= (rx-char-at pat (+ mi 1)) "?")))
-                      (list
-                        (dict
-                          "__t__"
-                          "quant"
-                          "__node__"
-                          node
-                          "__min__"
-                          mn
-                          "__max__"
-                          mn
-                          "__lazy__"
-                          lazy?)
-                        (if lazy? (+ mi 2) (+ mi 1)))))
-                  ((= sep ",")
-                    (let
-                      ((c2 (rx-char-at pat (+ mi 1))))
-                      (if
-                        (= c2 "}")
-                        (let
-                          ((lazy? (= (rx-char-at pat (+ mi 2)) "?")))
-                          (list
-                            (dict
-                              "__t__"
-                              "quant"
-                              "__node__"
-                              node
-                              "__min__"
-                              mn
-                              "__max__"
-                              -1
-                              "__lazy__"
-                              lazy?)
-                            (if lazy? (+ mi 3) (+ mi 2))))
-                        (let
-                          ((mxres (rx-parse-int pat (+ mi 1) 0)))
-                          (let
-                            ((mx (nth mxres 0)) (mxi (nth mxres 1)))
-                            (let
-                              ((lazy? (= (rx-char-at pat (+ mxi 1)) "?")))
-                              (list
-                                (dict
-                                  "__t__"
-                                  "quant"
-                                  "__node__"
-                                  node
-                                  "__min__"
-                                  mn
-                                  "__max__"
-                                  mx
-                                  "__lazy__"
-                                  lazy?)
-                                (if lazy? (+ mxi 2) (+ mxi 1)))))))))
-                  (else (list node i)))))))
-        (else (list node i))))))
-
-;; parse one atom, returns (node new-i new-ds)
-(define
-  rx-parse-atom
-  (fn
-    (pat i ds)
-    (let
-      ((c (rx-char-at pat i)))
-      (cond
-        ((= c ".") (list (dict "__t__" "any") (+ i 1) ds))
-        ((= c "^") (list (dict "__t__" "anchor-start") (+ i 1) ds))
-        ((= c "$") (list (dict "__t__" "anchor-end") (+ i 1) ds))
-        ((= c "\\")
-          (let
-            ((esc (rx-parse-escape pat (+ i 1))))
-            (list (nth esc 0) (nth esc 1) ds)))
-        ((= c "[")
-          (let
-            ((neg? (= (rx-char-at pat (+ i 1)) "^")))
-            (let
-              ((start (if neg? (+ i 2) (+ i 1))) (items (list)))
-              (let
-                ((res (rx-parse-class-items pat start items)))
-                (let
-                  ((ci (nth res 1)))
-                  (list
-                    (dict
-                      "__t__"
-                      "char-class"
-                      "__neg__"
-                      neg?
-                      "__items__"
-                      items)
-                    (+ ci 1)
-                    ds))))))
-        ((= c "(")
-          (let
-            ((c2 (rx-char-at pat (+ i 1))))
-            (if
-              (and (= c2 "?") (= (rx-char-at pat (+ i 2)) ":"))
-              (let
-                ((inner-nodes (list))
-                  (inner-ds
-                    (dict "groups" (get ds "groups") "nodes" inner-nodes)))
-                (let
-                  ((res (rx-parse-seq pat (+ i 3) ")" inner-ds)))
-                  (list
-                    (dict "__t__" "ncgroup" "__nodes__" (nth res 0))
-                    (+ (nth res 1) 1)
-                    (dict "groups" (nth res 2) "nodes" (get ds "nodes")))))
-              (let
-                ((gidx (+ (get ds "groups") 1)) (inner-nodes (list)))
-                (let
-                  ((inner-ds (dict "groups" gidx "nodes" inner-nodes)))
-                  (let
-                    ((res (rx-parse-seq pat (+ i 1) ")" inner-ds)))
-                    (list
-                      (dict
-                        "__t__"
-                        "group"
-                        "__idx__"
-                        gidx
-                        "__nodes__"
-                        (nth res 0))
-                      (+ (nth res 1) 1)
-                      (dict "groups" (nth res 2) "nodes" (get ds "nodes")))))))))
-        (else (list (dict "__t__" "literal" "__c__" c) (+ i 1) ds))))))
-
-;; top-level compile
-(define
-  rx-compile
-  (fn
-    (pattern)
-    (let
-      ((nodes (list)) (ds (dict "groups" 0 "nodes" nodes)))
-      (let
-        ((res (rx-parse-seq pattern 0 "" ds)))
-        (dict "nodes" (nth res 0) "ngroups" (nth res 2))))))
-
-;; ── Matcher ───────────────────────────────────────────────────────
-
-;; Match a char-class item against character c
-(define
-  rx-item-matches?
-  (fn
-    (item c ci?)
-    (let
-      ((kind (get item "kind")))
-      (cond
-        ((= kind "lit") (rx-char-eq? c (get item "c") ci?))
-        ((= kind "range")
-          (let
-            ((lo (if ci? (rx-downcase-char (get item "lo")) (get item "lo")))
-              (hi
-                (if ci? (rx-downcase-char (get item "hi")) (get item "hi")))
-              (dc (if ci? (rx-downcase-char c) c)))
-            (and
-              (>= (char-code dc) (char-code lo))
-              (<= (char-code dc) (char-code hi)))))
-        ((= kind "class-d")
-          (let ((m (rx-digit? c))) (if (get item "neg") (not m) m)))
-        ((= kind "class-w")
-          (let ((m (rx-word? c))) (if (get item "neg") (not m) m)))
-        ((= kind "class-s")
-          (let ((m (rx-space? c))) (if (get item "neg") (not m) m)))
-        (else false)))))
-
-(define
-  rx-class-items-any?
-  (fn
-    (items c ci?)
-    (if
-      (empty? items)
-      false
-      (if
-        (rx-item-matches? (first items) c ci?)
-        true
-        (rx-class-items-any? (rest items) c ci?)))))
-
-(define
-  rx-class-matches?
-  (fn
-    (node c ci?)
-    (let
-      ((neg? (get node "__neg__")) (items (get node "__items__")))
-      (let
-        ((hit (rx-class-items-any? items c ci?)))
-        (if neg? (not hit) hit)))))
-
-;; Word boundary check
-(define
-  rx-is-word-boundary?
-  (fn
-    (s i slen)
-    (let
-      ((before (if (> i 0) (rx-word? (char-at s (- i 1))) false))
-        (after (if (< i slen) (rx-word? (char-at s i)) false)))
-      (not (= before after)))))
-
-;; ── Core matcher ──────────────────────────────────────────────────
-;;
-;; rx-match-nodes : nodes s i slen ci? mi? groups → end-pos or -1
-;;
-;; Matches `nodes` starting at position `i` in string `s`.
-;; Returns the position after the last character consumed, or -1 on failure.
-;; Mutates `groups` dict to record captures.
-
-(define
-  rx-match-nodes
-  (fn
-    (nodes s i slen ci? mi? groups)
-    (if
-      (empty? nodes)
-      i
-      (let
-        ((node (first nodes)) (rest-nodes (rest nodes)))
-        (let
-          ((t (get node "__t__")))
-          (cond
-            ((= t "literal")
-              (if
-                (and
-                  (< i slen)
-                  (rx-char-eq? (char-at s i) (get node "__c__") ci?))
-                (rx-match-nodes rest-nodes s (+ i 1) slen ci? mi? groups)
-                -1))
-            ((= t "any")
-              (if
-                (and (< i slen) (not (rx-newline? (char-at s i))))
-                (rx-match-nodes rest-nodes s (+ i 1) slen ci? mi? groups)
-                -1))
-            ((= t "class-d")
-              (let
-                ((m (and (< i slen) (rx-digit? (char-at s i)))))
-                (if
-                  (if (get node "__neg__") (not m) m)
-                  (rx-match-nodes rest-nodes s (+ i 1) slen ci? mi? groups)
-                  -1)))
-            ((= t "class-w")
-              (let
-                ((m (and (< i slen) (rx-word? (char-at s i)))))
-                (if
-                  (if (get node "__neg__") (not m) m)
-                  (rx-match-nodes rest-nodes s (+ i 1) slen ci? mi? groups)
-                  -1)))
-            ((= t "class-s")
-              (let
-                ((m (and (< i slen) (rx-space? (char-at s i)))))
-                (if
-                  (if (get node "__neg__") (not m) m)
-                  (rx-match-nodes rest-nodes s (+ i 1) slen ci? mi? groups)
-                  -1)))
-            ((= t "char-class")
-              (if
-                (and (< i slen) (rx-class-matches? node (char-at s i) ci?))
-                (rx-match-nodes rest-nodes s (+ i 1) slen ci? mi? groups)
-                -1))
-            ((= t "anchor-start")
-              (if
-                (or
-                  (= i 0)
-                  (and mi? (rx-newline? (rx-char-at s (- i 1)))))
-                (rx-match-nodes rest-nodes s i slen ci? mi? groups)
-                -1))
-            ((= t "anchor-end")
-              (if
-                (or (= i slen) (and mi? (rx-newline? (rx-char-at s i))))
-                (rx-match-nodes rest-nodes s i slen ci? mi? groups)
-                -1))
-            ((= t "anchor-word")
-              (if
-                (rx-is-word-boundary? s i slen)
-                (rx-match-nodes rest-nodes s i slen ci? mi? groups)
-                -1))
-            ((= t "anchor-nonword")
-              (if
-                (not (rx-is-word-boundary? s i slen))
-                (rx-match-nodes rest-nodes s i slen ci? mi? groups)
-                -1))
-            ((= t "group")
-              (let
-                ((gidx (get node "__idx__"))
-                  (inner (get node "__nodes__")))
-                (let
-                  ((g-end (rx-match-nodes inner s i slen ci? mi? groups)))
-                  (if
-                    (>= g-end 0)
-                    (begin
-                      (dict-set!
-                        groups
-                        (js-to-string gidx)
-                        (substring s i g-end))
-                      (let
-                        ((final-end (rx-match-nodes rest-nodes s g-end slen ci? mi? groups)))
-                        (if
-                          (>= final-end 0)
-                          final-end
-                          (begin
-                            (dict-set! groups (js-to-string gidx) nil)
-                            -1))))
-                    -1))))
-            ((= t "ncgroup")
-              (let
-                ((inner (get node "__nodes__")))
-                (rx-match-nodes
-                  (append inner rest-nodes)
-                  s
-                  i
-                  slen
-                  ci?
-                  mi?
-                  groups)))
-            ((= t "alt")
-              (let
-                ((branches (get node "__branches__")))
-                (rx-try-branches branches rest-nodes s i slen ci? mi? groups)))
-            ((= t "quant")
-              (let
-                ((inner-node (get node "__node__"))
-                  (mn (get node "__min__"))
-                  (mx (get node "__max__"))
-                  (lazy? (get node "__lazy__")))
-                (if
-                  lazy?
-                  (rx-quant-lazy
-                    inner-node
-                    mn
-                    mx
-                    rest-nodes
-                    s
-                    i
-                    slen
-                    ci?
-                    mi?
-                    groups
-                    0)
-                  (rx-quant-greedy
-                    inner-node
-                    mn
-                    mx
-                    rest-nodes
-                    s
-                    i
-                    slen
-                    ci?
-                    mi?
-                    groups
-                    0))))
-            (else -1)))))))
-
-(define
-  rx-try-branches
-  (fn
-    (branches rest-nodes s i slen ci? mi? groups)
-    (if
-      (empty? branches)
-      -1
-      (let
-        ((res (rx-match-nodes (append (first branches) rest-nodes) s i slen ci? mi? groups)))
-        (if
-          (>= res 0)
-          res
-          (rx-try-branches (rest branches) rest-nodes s i slen ci? mi? groups))))))
-
-;; Greedy: expand as far as possible, then try rest from the longest match
-;; Strategy: recurse forward (extend first); only try rest when extension fails
-(define
-  rx-quant-greedy
-  (fn
-    (inner-node mn mx rest-nodes s i slen ci? mi? groups count)
-    (let
-      ((can-extend (and (< i slen) (or (= mx -1) (< count mx)))))
-      (if
-        can-extend
-        (let
-          ((ni (rx-match-one inner-node s i slen ci? mi? groups)))
-          (if
-            (>= ni 0)
-            (let
-              ((res (rx-quant-greedy inner-node mn mx rest-nodes s ni slen ci? mi? groups (+ count 1))))
-              (if
-                (>= res 0)
-                res
-                (if
-                  (>= count mn)
-                  (rx-match-nodes rest-nodes s i slen ci? mi? groups)
-                  -1)))
-            (if
-              (>= count mn)
-              (rx-match-nodes rest-nodes s i slen ci? mi? groups)
-              -1)))
-        (if
-          (>= count mn)
-          (rx-match-nodes rest-nodes s i slen ci? mi? groups)
-          -1)))))
-
-;; Lazy: try rest first, extend only if rest fails
-(define
-  rx-quant-lazy
-  (fn
-    (inner-node mn mx rest-nodes s i slen ci? mi? groups count)
-    (if
-      (>= count mn)
-      (let
-        ((res (rx-match-nodes rest-nodes s i slen ci? mi? groups)))
-        (if
-          (>= res 0)
-          res
-          (if
-            (and (< i slen) (or (= mx -1) (< count mx)))
-            (let
-              ((ni (rx-match-one inner-node s i slen ci? mi? groups)))
-              (if
-                (>= ni 0)
-                (rx-quant-lazy
-                  inner-node
-                  mn
-                  mx
-                  rest-nodes
-                  s
-                  ni
-                  slen
-                  ci?
-                  mi?
-                  groups
-                  (+ count 1))
-                -1))
-            -1)))
-      (if
-        (< i slen)
-        (let
-          ((ni (rx-match-one inner-node s i slen ci? mi? groups)))
-          (if
-            (>= ni 0)
-            (rx-quant-lazy
-              inner-node
-              mn
-              mx
-              rest-nodes
-              s
-              ni
-              slen
-              ci?
-              mi?
-              groups
-              (+ count 1))
-            -1))
-        -1))))
-
-;; Match a single node at position i, return new pos or -1
-(define
-  rx-match-one
-  (fn
-    (node s i slen ci? mi? groups)
-    (rx-match-nodes (list node) s i slen ci? mi? groups)))
-
-;; ── Engine entry points ───────────────────────────────────────────
-
-;; Try matching at exactly position i. Returns result dict or nil.
-(define
-  rx-try-at
-  (fn
-    (compiled s i slen ci? mi?)
-    (let
-      ((nodes (get compiled "nodes")) (ngroups (get compiled "ngroups")))
-      (let
-        ((groups (dict)))
-        (let
-          ((end (rx-match-nodes nodes s i slen ci? mi? groups)))
-          (if
-            (>= end 0)
-            (dict "start" i "end" end "groups" groups "ngroups" ngroups)
-            nil))))))
-
-;; Find first match scanning from search-start.
-(define
-  rx-find-from
-  (fn
-    (compiled s search-start slen ci? mi?)
-    (if
-      (> search-start slen)
-      nil
-      (let
-        ((res (rx-try-at compiled s search-start slen ci? mi?)))
-        (if
-          res
-          res
-          (rx-find-from compiled s (+ search-start 1) slen ci? mi?))))))
-
-;; Build exec result dict from raw match result
-(define
-  rx-build-exec-result
-  (fn
-    (s match-res)
-    (let
-      ((start (get match-res "start"))
-        (end (get match-res "end"))
-        (groups (get match-res "groups"))
-        (ngroups (get match-res "ngroups")))
-      (let
-        ((matched (substring s start end))
-          (caps (rx-build-captures groups ngroups 1)))
-        (dict "match" matched "index" start "input" s "groups" caps)))))
-
-(define
-  rx-build-captures
-  (fn
-    (groups ngroups idx)
-    (if
-      (> idx ngroups)
-      (list)
-      (let
-        ((cap (get groups (js-to-string idx))))
-        (cons
-          (if (= cap nil) :js-undefined cap)
-          (rx-build-captures groups ngroups (+ idx 1)))))))
-
-;; ── Public interface ──────────────────────────────────────────────
-
-;; Lazy compile: build NFA on first use, cache under "__compiled__"
-(define
-  rx-ensure-compiled!
-  (fn
-    (rx)
-    (if
-      (dict-has? rx "__compiled__")
-      (get rx "__compiled__")
-      (let
-        ((c (rx-compile (get rx "source"))))
-        (begin (dict-set! rx "__compiled__" c) c)))))
-
-(define
-  rx-test
-  (fn
-    (rx s)
-    (let
-      ((compiled (rx-ensure-compiled! rx))
-        (ci? (get rx "ignoreCase"))
-        (mi? (get rx "multiline"))
-        (slen (len s)))
-      (let
-        ((start (if (get rx "global") (let ((li (get rx "lastIndex"))) (if (number? li) li 0)) 0)))
-        (let
-          ((res (rx-find-from compiled s start slen ci? mi?)))
-          (if
-            (get rx "global")
-            (begin
-              (dict-set! rx "lastIndex" (if res (get res "end") 0))
-              (if res true false))
-            (if res true false)))))))
-
-(define
-  rx-exec
-  (fn
-    (rx s)
-    (let
-      ((compiled (rx-ensure-compiled! rx))
-        (ci? (get rx "ignoreCase"))
-        (mi? (get rx "multiline"))
-        (slen (len s)))
-      (let
-        ((start (if (get rx "global") (let ((li (get rx "lastIndex"))) (if (number? li) li 0)) 0)))
-        (let
-          ((res (rx-find-from compiled s start slen ci? mi?)))
-          (if
-            res
-            (begin
-              (when
-                (get rx "global")
-                (dict-set! rx "lastIndex" (get res "end")))
-              (rx-build-exec-result s res))
-            (begin
-              (when (get rx "global") (dict-set! rx "lastIndex" 0))
-              nil)))))))
-
-;; match-all for String.prototype.matchAll
-(define
-  js-regex-match-all
-  (fn
-    (rx s)
-    (let
-      ((compiled (rx-ensure-compiled! rx))
-        (ci? (get rx "ignoreCase"))
-        (mi? (get rx "multiline"))
-        (slen (len s))
-        (results (list)))
-      (rx-match-all-loop compiled s 0 slen ci? mi? results))))
-
-(define
-  rx-match-all-loop
-  (fn
-    (compiled s i slen ci? mi? results)
-    (if
-      (> i slen)
-      results
-      (let
-        ((res (rx-find-from compiled s i slen ci? mi?)))
-        (if
-          res
-          (begin
-            (append! results (rx-build-exec-result s res))
-            (let
-              ((next (get res "end")))
-              (rx-match-all-loop
-                compiled
-                s
-                (if (= next i) (+ i 1) next)
-                slen
-                ci?
-                mi?
-                results)))
-          results)))))
-
-;; ── Install platform ──────────────────────────────────────────────
-
-(js-regex-platform-override! "test" rx-test)
-(js-regex-platform-override! "exec" rx-exec)
--- a/lib/js/runtime.sx
+++ b/lib/js/runtime.sx
@@ -2032,15 +2032,7 @@
          (&rest args)
          (cond
            ((= (len args) 0) nil)
-            ((js-regex? (nth args 0))
-              (let
-                ((rx (nth args 0)))
-                (let
-                  ((impl (get __js_regex_platform__ "exec")))
-                  (if
-                    (js-undefined? impl)
-                    (js-regex-stub-exec rx s)
-                    (impl rx s)))))
+            ((js-regex? (nth args 0)) (js-regex-stub-exec (nth args 0) s))
            (else
              (let
                ((needle (js-to-string (nth args 0))))
@@ -2049,7 +2041,7 @@
                  (if
                    (= idx -1)
                    nil
-                    (let ((res (list))) (begin (append! res needle) res)))))))))
+                    (let ((res (list))) (append! res needle) res))))))))
      ((= name "at")
        (fn
          (i)
@@ -2107,20 +2099,6 @@
      ((= name "toWellFormed") (fn () s))
      (else js-undefined))))

-(define __js_tdz_sentinel__ (dict "__tdz__" true))
-
-(define js-tdz? (fn (v) (and (dict? v) (dict-has? v "__tdz__"))))
-
-(define
-  js-tdz-check
-  (fn
-    (name val)
-    (if
-      (js-tdz? val)
-      (raise
-        (TypeError (str "Cannot access '" name "' before initialization")))
-      val)))
-
 (define
  js-string-slice
  (fn
--- a/lib/js/stdlib.sx
+++ b/lib/js/stdlib.sx
@@ -1,239 +0,0 @@
-;; lib/js/stdlib.sx — Phase 22 JS additions
-;;
-;; Adds to lib/js/runtime.sx (already loaded):
-;;   1. Bitwise binary ops (js-bitand/bitor/bitxor/lshift/rshift/urshift/bitnot)
-;;   2. Map class (arbitrary-key hash map via list of pairs)
-;;   3. Set class (uniqueness collection via SX make-set)
-;;   4. RegExp constructor (wraps js-regex-new already in runtime)
-;;   5. Wires Map / Set / RegExp into js-global
-
-;; ---------------------------------------------------------------------------
-;; 1. Bitwise binary ops
-;;    JS coerces operands to 32-bit signed int before applying the op.
-;;    Use truncate (not js-num-to-int) since integer / 0 crashes the evaluator.
-;; ---------------------------------------------------------------------------
-
-(define
-  (js-bitand a b)
-  (bitwise-and (truncate (js-to-number a)) (truncate (js-to-number b))))
-
-(define
-  (js-bitor a b)
-  (bitwise-or (truncate (js-to-number a)) (truncate (js-to-number b))))
-
-(define
-  (js-bitxor a b)
-  (bitwise-xor (truncate (js-to-number a)) (truncate (js-to-number b))))
-
-;; << : left-shift by (b mod 32) positions
-(define
-  (js-lshift a b)
-  (arithmetic-shift
-    (truncate (js-to-number a))
-    (modulo (truncate (js-to-number b)) 32)))
-
-;; >> : arithmetic right-shift (sign-extending)
-(define
-  (js-rshift a b)
-  (arithmetic-shift
-    (truncate (js-to-number a))
-    (- 0 (modulo (truncate (js-to-number b)) 32))))
-
-;; >>> : logical right-shift (zero-extending)
-;;   Convert to uint32 first, then divide by 2^n.
-(define
-  (js-urshift a b)
-  (let
-    ((u32 (modulo (truncate (js-to-number a)) 4294967296))
-      (n (modulo (truncate (js-to-number b)) 32)))
-    (quotient u32 (arithmetic-shift 1 n))))
-
-;; ~ : bitwise NOT — equivalent to -(n+1) in 32-bit signed arithmetic
-(define (js-bitnot a) (bitwise-not (truncate (js-to-number a))))
-
-;; ---------------------------------------------------------------------------
-;; 2. Map class
-;;    Stored as {:__js_map__ true :size N :_pairs (list (list key val) ...)}
-;;    Mutation via dict-set! on the underlying dict.
-;; ---------------------------------------------------------------------------
-
-(define
-  (js-map-new)
-  (let
-    ((m (dict)))
-    (dict-set! m "__js_map__" true)
-    (dict-set! m "size" 0)
-    (dict-set! m "_pairs" (list))
-    m))
-
-(define (js-map? v) (and (dict? v) (dict-has? v "__js_map__")))
-
-;; Linear scan for key using ===; returns index or -1
-(define
-  (js-map-find-idx pairs k)
-  (letrec
-    ((go (fn (ps i) (cond ((= (len ps) 0) -1) ((js-strict-eq (first (first ps)) k) i) (else (go (rest ps) (+ i 1)))))))
-    (go pairs 0)))
-
-(define
-  (js-map-get m k)
-  (letrec
-    ((go (fn (ps) (if (= (len ps) 0) js-undefined (if (js-strict-eq (first (first ps)) k) (nth (first ps) 1) (go (rest ps)))))))
-    (go (get m "_pairs"))))
-
-;; Replace element at index i in list
-(define
-  (js-list-set-nth lst i newval)
-  (letrec
-    ((go (fn (ps j) (if (= (len ps) 0) (list) (cons (if (= j i) newval (first ps)) (go (rest ps) (+ j 1)))))))
-    (go lst 0)))
-
-;; Remove element at index i from list
-(define
-  (js-list-remove-nth lst i)
-  (letrec
-    ((go (fn (ps j) (if (= (len ps) 0) (list) (if (= j i) (go (rest ps) (+ j 1)) (cons (first ps) (go (rest ps) (+ j 1))))))))
-    (go lst 0)))
-
-(define
-  (js-map-set! m k v)
-  (let
-    ((pairs (get m "_pairs")) (idx (js-map-find-idx (get m "_pairs") k)))
-    (if
-      (= idx -1)
-      (begin
-        (dict-set! m "_pairs" (append pairs (list (list k v))))
-        (dict-set! m "size" (+ (get m "size") 1)))
-      (dict-set! m "_pairs" (js-list-set-nth pairs idx (list k v)))))
-  m)
-
-(define
-  (js-map-has m k)
-  (not (= (js-map-find-idx (get m "_pairs") k) -1)))
-
-(define
-  (js-map-delete! m k)
-  (let
-    ((idx (js-map-find-idx (get m "_pairs") k)))
-    (when
-      (not (= idx -1))
-      (dict-set! m "_pairs" (js-list-remove-nth (get m "_pairs") idx))
-      (dict-set! m "size" (- (get m "size") 1))))
-  m)
-
-(define
-  (js-map-clear! m)
-  (dict-set! m "_pairs" (list))
-  (dict-set! m "size" 0)
-  m)
-
-(define (js-map-keys m) (map first (get m "_pairs")))
-(define
-  (js-map-vals m)
-  (map (fn (p) (nth p 1)) (get m "_pairs")))
-(define (js-map-entries m) (get m "_pairs"))
-
-(define
-  (js-map-for-each m cb)
-  (for-each
-    (fn (p) (cb (nth p 1) (first p) m))
-    (get m "_pairs"))
-  js-undefined)
-
-;; Map method dispatch (called from js-object-method-call in runtime)
-(define
-  (js-map-method m name args)
-  (cond
-    ((= name "set")
-      (js-map-set! m (nth args 0) (nth args 1)))
-    ((= name "get") (js-map-get m (nth args 0)))
-    ((= name "has") (js-map-has m (nth args 0)))
-    ((= name "delete") (js-map-delete! m (nth args 0)))
-    ((= name "clear") (js-map-clear! m))
-    ((= name "keys") (js-map-keys m))
-    ((= name "values") (js-map-vals m))
-    ((= name "entries") (js-map-entries m))
-    ((= name "forEach") (js-map-for-each m (nth args 0)))
-    ((= name "toString") "[object Map]")
-    (else js-undefined)))
-
-(define Map {:__callable__ (fn (&rest args) (let ((m (js-map-new))) (when (and (> (len args) 0) (list? (nth args 0))) (for-each (fn (entry) (js-map-set! m (nth entry 0) (nth entry 1))) (nth args 0))) m)) :prototype {:entries (fn (&rest a) (js-map-entries (js-this))) :delete (fn (&rest a) (js-map-delete! (js-this) (nth a 0))) :get (fn (&rest a) (js-map-get (js-this) (nth a 0))) :values (fn (&rest a) (js-map-vals (js-this))) :toString (fn () "[object Map]") :has (fn (&rest a) (js-map-has (js-this) (nth a 0))) :set (fn (&rest a) (js-map-set! (js-this) (nth a 0) (nth a 1))) :forEach (fn (&rest a) (js-map-for-each (js-this) (nth a 0))) :clear (fn (&rest a) (js-map-clear! (js-this))) :keys (fn (&rest a) (js-map-keys (js-this)))}})
-
-;; ---------------------------------------------------------------------------
-;; 3. Set class
-;;    {:__js_set__ true :size N :_set <sx-set>}
-;;    Note: set-member?/set-add!/set-remove! all take (set item) order.
-;; ---------------------------------------------------------------------------
-
-(define
-  (js-set-new)
-  (let
-    ((s (dict)))
-    (dict-set! s "__js_set__" true)
-    (dict-set! s "size" 0)
-    (dict-set! s "_set" (make-set))
-    s))
-
-(define (js-set? v) (and (dict? v) (dict-has? v "__js_set__")))
-
-(define
-  (js-set-add! s v)
-  (let
-    ((sx (get s "_set")))
-    (when
-      (not (set-member? sx v))
-      (set-add! sx v)
-      (dict-set! s "size" (+ (get s "size") 1))))
-  s)
-
-(define (js-set-has s v) (set-member? (get s "_set") v))
-
-(define
-  (js-set-delete! s v)
-  (let
-    ((sx (get s "_set")))
-    (when
-      (set-member? sx v)
-      (set-remove! sx v)
-      (dict-set! s "size" (- (get s "size") 1))))
-  s)
-
-(define
-  (js-set-clear! s)
-  (dict-set! s "_set" (make-set))
-  (dict-set! s "size" 0)
-  s)
-
-(define (js-set-vals s) (set->list (get s "_set")))
-
-(define
-  (js-set-for-each s cb)
-  (for-each (fn (v) (cb v v s)) (set->list (get s "_set")))
-  js-undefined)
-
-(define Set {:__callable__ (fn (&rest args) (let ((s (js-set-new))) (when (and (> (len args) 0) (list? (nth args 0))) (for-each (fn (v) (js-set-add! s v)) (nth args 0))) s)) :prototype {:entries (fn (&rest a) (map (fn (v) (list v v)) (js-set-vals (js-this)))) :delete (fn (&rest a) (js-set-delete! (js-this) (nth a 0))) :values (fn (&rest a) (js-set-vals (js-this))) :add (fn (&rest a) (js-set-add! (js-this) (nth a 0))) :toString (fn () "[object Set]") :has (fn (&rest a) (js-set-has (js-this) (nth a 0))) :forEach (fn (&rest a) (js-set-for-each (js-this) (nth a 0))) :clear (fn (&rest a) (js-set-clear! (js-this))) :keys (fn (&rest a) (js-set-vals (js-this)))}})
-
-;; ---------------------------------------------------------------------------
-;; 4. RegExp constructor — callable lambda wrapping js-regex-new
-;; ---------------------------------------------------------------------------
-
-(define
-  RegExp
-  (fn
-    (&rest args)
-    (cond
-      ((= (len args) 0) (js-regex-new "" ""))
-      ((= (len args) 1)
-        (js-regex-new (js-to-string (nth args 0)) ""))
-      (else
-        (js-regex-new
-          (js-to-string (nth args 0))
-          (js-to-string (nth args 1)))))))
-
-;; ---------------------------------------------------------------------------
-;; 5. Wire new globals into js-global
-;; ---------------------------------------------------------------------------
-
-(dict-set! js-global "Map" Map)
-(dict-set! js-global "Set" Set)
-(dict-set! js-global "RegExp" RegExp)
--- a/lib/js/test.sh
+++ b/lib/js/test.sh
@@ -33,10 +33,6 @@ cat > "$TMPFILE" << 'EPOCHS'
 (load "lib/js/transpile.sx")
 (epoch 5)
 (load "lib/js/runtime.sx")
-(epoch 6)
-(load "lib/js/regex.sx")
-(epoch 7)
-(load "lib/js/stdlib.sx")

 ;; ── Phase 0: stubs still behave ─────────────────────────────────
 (epoch 10)
@@ -1327,166 +1323,6 @@ cat > "$TMPFILE" << 'EPOCHS'
 (epoch 3505)
 (eval "(js-eval \"var a = {length: 3, 0: 10, 1: 20, 2: 30}; var sum = 0; Array.prototype.forEach.call(a, function(x){sum += x;}); sum\")")

-;; ── Phase 12: Regex engine ────────────────────────────────────────
-;; Platform is installed (test key is a function, not undefined)
-(epoch 5000)
-(eval "(js-undefined? (get __js_regex_platform__ \"test\"))")
-(epoch 5001)
-(eval "(js-eval \"/foo/.test('hi foo bar')\")")
-(epoch 5002)
-(eval "(js-eval \"/foo/.test('hi bar')\")")
-;; Case-insensitive flag
-(epoch 5003)
-(eval "(js-eval \"/FOO/i.test('hello foo world')\")")
-;; Anchors
-(epoch 5004)
-(eval "(js-eval \"/^hello/.test('hello world')\")")
-(epoch 5005)
-(eval "(js-eval \"/^hello/.test('say hello')\")")
-(epoch 5006)
-(eval "(js-eval \"/world$/.test('hello world')\")")
-;; Character classes
-(epoch 5007)
-(eval "(js-eval \"/\\\\d+/.test('abc 123')\")")
-(epoch 5008)
-(eval "(js-eval \"/\\\\w+/.test('hello')\")")
-(epoch 5009)
-(eval "(js-eval \"/[abc]/.test('dog')\")")
-(epoch 5010)
-(eval "(js-eval \"/[abc]/.test('cat')\")")
-;; Quantifiers
-(epoch 5011)
-(eval "(js-eval \"/a*b/.test('b')\")")
-(epoch 5012)
-(eval "(js-eval \"/a+b/.test('b')\")")
-(epoch 5013)
-(eval "(js-eval \"/a{2,3}/.test('aa')\")")
-(epoch 5014)
-(eval "(js-eval \"/a{2,3}/.test('a')\")")
-;; Dot
-(epoch 5015)
-(eval "(js-eval \"/h.llo/.test('hello')\")")
-(epoch 5016)
-(eval "(js-eval \"/h.llo/.test('hllo')\")")
-;; exec result
-(epoch 5017)
-(eval "(js-eval \"var m = /foo(\\\\w+)/.exec('foobar'); m.match\")")
-(epoch 5018)
-(eval "(js-eval \"var m = /foo(\\\\w+)/.exec('foobar'); m.index\")")
-(epoch 5019)
-(eval "(js-eval \"var m = /foo(\\\\w+)/.exec('foobar'); m.groups[0]\")")
-;; Alternation
-(epoch 5020)
-(eval "(js-eval \"/cat|dog/.test('I have a dog')\")")
-(epoch 5021)
-(eval "(js-eval \"/cat|dog/.test('I have a fish')\")")
-;; Non-capturing group
-(epoch 5022)
-(eval "(js-eval \"/(?:foo)+/.test('foofoo')\")")
-;; Negated char class
-(epoch 5023)
-(eval "(js-eval \"/[^abc]/.test('d')\")")
-(epoch 5024)
-(eval "(js-eval \"/[^abc]/.test('a')\")")
-;; Range inside char class
-(epoch 5025)
-(eval "(js-eval \"/[a-z]+/.test('hello')\")")
-;; Word boundary
-(epoch 5026)
-(eval "(js-eval \"/\\\\bword\\\\b/.test('a word here')\")")
-(epoch 5027)
-(eval "(js-eval \"/\\\\bword\\\\b/.test('password')\")")
-;; Lazy quantifier
-(epoch 5028)
-(eval "(js-eval \"var m = /a+?/.exec('aaa'); m.match\")")
-;; Global flag exec
-(epoch 5029)
-(eval "(js-eval \"var r=/\\\\d+/g; r.exec('a1b2'); r.exec('a1b2').match\")")
-;; String.prototype.match with regex
-(epoch 5030)
-(eval "(js-eval \"'hello world'.match(/\\\\w+/).match\")")
-;; String.prototype.search
-(epoch 5031)
-(eval "(js-eval \"'hello world'.search(/world/)\")")
-;; String.prototype.replace with regex
-(epoch 5032)
-(eval "(js-eval \"'hello world'.replace(/world/, 'there')\")")
-;; multiline anchor
-(epoch 5033)
-(eval "(js-eval \"/^bar/m.test('foo\\nbar')\")")
-
-;; ── Phase 13: let/const TDZ infrastructure ───────────────────────
-;; The TDZ sentinel and checker are defined in runtime.sx.
-;; let/const bindings work normally after initialization.
-(epoch 5100)
-(eval "(js-eval \"let x = 5; x\")")
-(epoch 5101)
-(eval "(js-eval \"const y = 42; y\")")
-;; TDZ sentinel exists and is detectable
-(epoch 5102)
-(eval "(js-tdz? __js_tdz_sentinel__)")
-;; js-tdz-check passes through non-sentinel values
-(epoch 5103)
-(eval "(js-tdz-check \"x\" 42)")
-
-;; ── Phase 22: Bitwise ops ────────────────────────────────────────
-(epoch 6000)
-(eval "(js-bitand 5 3)")
-(epoch 6001)
-(eval "(js-bitor 5 3)")
-(epoch 6002)
-(eval "(js-bitxor 5 3)")
-(epoch 6003)
-(eval "(js-lshift 1 4)")
-(epoch 6004)
-(eval "(js-rshift 32 2)")
-(epoch 6005)
-(eval "(js-rshift -8 1)")
-(epoch 6006)
-(eval "(js-urshift 4294967292 2)")
-(epoch 6007)
-(eval "(js-bitnot 0)")
-
-;; ── Phase 22: Map ─────────────────────────────────────────────────
-(epoch 6010)
-(eval "(js-map? (js-map-new))")
-(epoch 6011)
-(eval "(get (js-map-set! (js-map-new) \"k\" 42) \"size\")")
-(epoch 6012)
-(eval "(let ((m (js-map-new))) (js-map-set! m \"a\" 1) (js-map-get m \"a\"))")
-(epoch 6013)
-(eval "(let ((m (js-map-new))) (js-map-set! m \"x\" 9) (js-map-has m \"x\"))")
-(epoch 6014)
-(eval "(let ((m (js-map-new))) (js-map-set! m \"x\" 9) (js-map-has m \"y\"))")
-(epoch 6015)
-(eval "(let ((m (js-map-new))) (js-map-set! m \"a\" 1) (js-map-set! m \"b\" 2) (get m \"size\"))")
-(epoch 6016)
-(eval "(let ((m (js-map-new))) (js-map-set! m \"a\" 1) (js-map-delete! m \"a\") (get m \"size\"))")
-(epoch 6017)
-(eval "(let ((m (js-map-new))) (js-map-set! m \"a\" 1) (js-map-set! m \"a\" 99) (js-map-get m \"a\"))")
-
-;; ── Phase 22: Set ─────────────────────────────────────────────────
-(epoch 6020)
-(eval "(js-set? (js-set-new))")
-(epoch 6021)
-(eval "(let ((s (js-set-new))) (js-set-add! s 1) (js-set-has s 1))")
-(epoch 6022)
-(eval "(let ((s (js-set-new))) (js-set-add! s 1) (js-set-has s 2))")
-(epoch 6023)
-(eval "(let ((s (js-set-new))) (js-set-add! s 1) (js-set-add! s 1) (get s \"size\"))")
-(epoch 6024)
-(eval "(let ((s (js-set-new))) (js-set-add! s 1) (js-set-add! s 2) (get s \"size\"))")
-(epoch 6025)
-(eval "(let ((s (js-set-new))) (js-set-add! s 1) (js-set-delete! s 1) (get s \"size\"))")
-
-;; ── Phase 22: RegExp constructor ──────────────────────────────────
-(epoch 6030)
-(eval "(js-regex? (RegExp \"ab\" \"i\"))")
-(epoch 6031)
-(eval "(get (RegExp \"hello\" \"gi\") \"global\")")
-(epoch 6032)
-(eval "(get (RegExp \"foo\" \"i\") \"ignoreCase\")")
-
 EPOCHS


@@ -2206,81 +2042,6 @@ check 3503 "indexOf.call arrLike"          '1'
 check 3504 "filter.call arrLike"           '"2,3"'
 check 3505 "forEach.call arrLike sum"      '60'

-# ── Phase 12: Regex engine ────────────────────────────────────────
-check 5000 "regex platform installed"           'false'
-check 5001 "/foo/ matches"                      'true'
-check 5002 "/foo/ no match"                     'false'
-check 5003 "/FOO/i case-insensitive"            'true'
-check 5004 "/^hello/ anchor match"              'true'
-check 5005 "/^hello/ anchor no-match"           'false'
-check 5006 "/world$/ end anchor"                'true'
-check 5007 "/\\d+/ digit class"                 'true'
-check 5008 "/\\w+/ word class"                  'true'
-check 5009 "/[abc]/ class no-match"             'false'
-check 5010 "/[abc]/ class match"                'true'
-check 5011 "/a*b/ zero-or-more"                 'true'
-check 5012 "/a+b/ one-or-more no-match"         'false'
-check 5013 "/a{2,3}/ quant match"               'true'
-check 5014 "/a{2,3}/ quant no-match"            'false'
-check 5015 "dot matches any"                    'true'
-check 5016 "dot requires char"                  'false'
-check 5017 "exec match string"                  '"foobar"'
-check 5018 "exec match index"                   '0'
-check 5019 "exec capture group"                 '"bar"'
-check 5020 "alternation cat|dog match"          'true'
-check 5021 "alternation cat|dog no-match"       'false'
-check 5022 "non-capturing group"                'true'
-check 5023 "negated class match"                'true'
-check 5024 "negated class no-match"             'false'
-check 5025 "range [a-z]+"                       'true'
-check 5026 "word boundary match"                'true'
-check 5027 "word boundary no-match"             'false'
-check 5028 "lazy quantifier"                    '"a"'
-check 5029 "global exec advances"               '"2"'
-check 5030 "String.match regex"                 '"hello"'
-check 5031 "String.search regex"                '6'
-check 5032 "String.replace regex"               '"hello there"'
-check 5033 "multiline anchor"                   'true'
-
-# ── Phase 13: let/const TDZ infrastructure ───────────────────────
-check 5100 "let binding initialized"            '5'
-check 5101 "const binding initialized"          '42'
-check 5102 "TDZ sentinel is detectable"         'true'
-check 5103 "tdz-check passes non-sentinel"      '42'
-
-# ── Phase 22: Bitwise ops ─────────────────────────────────────────
-check 6000 "bitand 5&3"     '1'
-check 6001 "bitor 5|3"      '7'
-check 6002 "bitxor 5^3"     '6'
-check 6003 "lshift 1<<4"    '16'
-check 6004 "rshift 32>>2"   '8'
-check 6005 "rshift -8>>1"   '-4'
-check 6006 "urshift >>>"     '1073741823'
-check 6007 "bitnot ~0"      '-1'
-
-# ── Phase 22: Map ─────────────────────────────────────────────────
-check 6010 "map? new map"          'true'
-check 6011 "map set→size 1"        '1'
-check 6012 "map get existing"      '1'
-check 6013 "map has key yes"       'true'
-check 6014 "map has key no"        'false'
-check 6015 "map size 2 entries"    '2'
-check 6016 "map delete→size 0"     '0'
-check 6017 "map set overwrites"    '99'
-
-# ── Phase 22: Set ─────────────────────────────────────────────────
-check 6020 "set? new set"          'true'
-check 6021 "set has after add"     'true'
-check 6022 "set has absent"        'false'
-check 6023 "set dedup size"        '1'
-check 6024 "set size 2"            '2'
-check 6025 "set delete→size 0"     '0'
-
-# ── Phase 22: RegExp ──────────────────────────────────────────────
-check 6030 "RegExp? result"        'true'
-check 6031 "RegExp global flag"    'true'
-check 6032 "RegExp ignoreCase"     'true'
-
 TOTAL=$((PASS + FAIL))
 if [ $FAIL -eq 0 ]; then
  echo "✓ $PASS/$TOTAL JS-on-SX tests passed"
--- a/lib/js/test262-runner.py
+++ b/lib/js/test262-runner.py
@@ -798,7 +798,6 @@ class ServerSession:
        self._run_and_collect(3, '(load "lib/js/parser.sx")', timeout=60.0)
        self._run_and_collect(4, '(load "lib/js/transpile.sx")', timeout=60.0)
        self._run_and_collect(5, '(load "lib/js/runtime.sx")', timeout=60.0)
-        self._run_and_collect(50, '(load "lib/js/regex.sx")', timeout=60.0)
        # Preload the stub harness — use precomputed SX cache when available
        # (huge win: ~15s js-eval HARNESS_STUB → ~0s load precomputed .sx).
        cache_rel = _harness_cache_rel_path()
--- a/lib/js/transpile.sx
+++ b/lib/js/transpile.sx
@@ -935,12 +935,12 @@

 (define
  js-transpile-var
-  (fn (kind decls) (cons (js-sym "begin") (js-vardecl-forms kind decls))))
+  (fn (kind decls) (cons (js-sym "begin") (js-vardecl-forms decls))))

 (define
  js-vardecl-forms
  (fn
-    (kind decls)
+    (decls)
    (cond
      ((empty? decls) (list))
      (else
@@ -953,7 +953,7 @@
                  (js-sym "define")
                  (js-sym (nth d 1))
                  (js-transpile (nth d 2)))
-                (js-vardecl-forms kind (rest decls))))
+                (js-vardecl-forms (rest decls))))
            ((js-tag? d "js-vardecl-obj")
              (let
                ((names (nth d 1))
@@ -964,7 +964,7 @@
                  (js-vardecl-obj-forms
                    names
                    tmp-sym
-                    (js-vardecl-forms kind (rest decls))))))
+                    (js-vardecl-forms (rest decls))))))
            ((js-tag? d "js-vardecl-arr")
              (let
                ((names (nth d 1))
@@ -976,7 +976,7 @@
                    names
                    tmp-sym
                    0
-                    (js-vardecl-forms kind (rest decls))))))
+                    (js-vardecl-forms (rest decls))))))
            (else (error "js-vardecl-forms: unexpected decl"))))))))

 (define
--- a/lib/lua/runtime.sx
+++ b/lib/lua/runtime.sx
@@ -123,7 +123,7 @@
              (fn
                (i)
                (if
-                  (not (= (get a (str i)) nil))
+                  (has? a (str i))
                  (begin (set! n i) (count-loop (+ i 1)))
                  n)))
            (count-loop 1))))
@@ -152,9 +152,7 @@
                  (cond
                    ((= (first f) "pos")
                      (begin
-                        (set!
-                          t
-                          (assoc t (str array-idx) (nth f 1)))
+                        (set! t (assoc t (str array-idx) (nth f 1)))
                        (set! array-idx (+ array-idx 1))))
                    ((= (first f) "kv")
                      (let
@@ -171,108 +169,3 @@
    (if (= t nil) nil (let ((v (get t (str k)))) (if (= v nil) nil v)))))

 (define lua-set! (fn (t k v) (assoc t (str k) v)))
-
-;; ---------------------------------------------------------------------------
-;; Helpers for stdlib
-;; ---------------------------------------------------------------------------
-
-;; Apply a char function to every character in a string
-(define (lua-str-map s fn) (list->string (map fn (string->list s))))
-
-;; Repeat string s n times
-(define
-  (lua-str-rep s n)
-  (letrec
-    ((go (fn (acc i) (if (= i 0) acc (go (str acc s) (- i 1))))))
-    (go "" n)))
-
-;; Force a promise created by delay
-(define
-  (lua-force p)
-  (if
-    (and (dict? p) (get p :_promise))
-    (if (get p :forced) (get p :value) ((get p :thunk)))
-    p))
-
-;; ---------------------------------------------------------------------------
-;; math — Lua math library
-;; ---------------------------------------------------------------------------
-
-(define math {:asin asin :floor floor :exp exp :huge 1e+308 :tan tan :sqrt sqrt :log log :abs abs :ceil ceil :sin sin :max (fn (a b) (if (> a b) a b)) :acos acos :min (fn (a b) (if (< a b) a b)) :cos cos :pi 3.14159 :atan atan})
-
-;; ---------------------------------------------------------------------------
-;; string — Lua string library
-;; ---------------------------------------------------------------------------
-
-(define
-  (lua-string-find s pat)
-  (let
-    ((m (regexp-match (make-regexp pat) s)))
-    (if (= m nil) nil (list (+ (get m :start) 1) (get m :end)))))
-
-(define
-  (lua-string-match s pat)
-  (let
-    ((m (regexp-match (make-regexp pat) s)))
-    (if
-      (= m nil)
-      nil
-      (let
-        ((groups (get m :groups)))
-        (if (= (len groups) 0) (get m :match) (first groups))))))
-
-(define
-  (lua-string-gmatch s pat)
-  (map (fn (m) (get m :match)) (regexp-match-all (make-regexp pat) s)))
-
-(define
-  (lua-string-gsub s pat repl)
-  (regexp-replace-all (make-regexp pat) s repl))
-
-(define string {:rep lua-str-rep :sub (fn (s i &rest j-args) (let ((slen (len s)) (j (if (= (len j-args) 0) -1 (first j-args)))) (let ((from (if (< i 0) (let ((r (+ slen i))) (if (< r 0) 0 r)) (- i 1))) (to (if (< j 0) (let ((r (+ slen j 1))) (if (< r 0) 0 r)) (if (> j slen) slen j)))) (if (> from to) "" (substring s from to))))) :len (fn (s) (len s)) :upper (fn (s) (lua-str-map s char-upcase)) :char (fn (&rest codes) (list->string (map (fn (c) (integer->char (truncate c))) codes))) :gmatch lua-string-gmatch :gsub lua-string-gsub :lower (fn (s) (lua-str-map s char-downcase)) :byte (fn (s &rest args) (char->integer (nth (string->list s) (- (if (= (len args) 0) 1 (first args)) 1)))) :match lua-string-match :find lua-string-find :reverse (fn (s) (list->string (reverse (string->list s))))})
-
-;; ---------------------------------------------------------------------------
-;; table — Lua table library
-;; ---------------------------------------------------------------------------
-
-(define
-  (lua-table-insert t v)
-  (assoc t (str (+ (lua-len t) 1)) v))
-
-(define
-  (lua-table-remove t &rest args)
-  (let
-    ((n (lua-len t))
-      (pos (if (= (len args) 0) (lua-len t) (first args))))
-    (letrec
-      ((slide (fn (t i) (if (< i n) (assoc (slide t (+ i 1)) (str i) (lua-get t (+ i 1))) (assoc t (str n) nil)))))
-      (slide t pos))))
-
-(define
-  (lua-table-concat t &rest args)
-  (let
-    ((sep (if (= (len args) 0) "" (first args)))
-      (n (lua-len t)))
-    (letrec
-      ((go (fn (acc i) (if (> i n) acc (go (str acc (if (= i 1) "" sep) (lua-to-string (lua-get t i))) (+ i 1))))))
-      (go "" 1))))
-
-(define
-  (lua-table-sort t)
-  (let
-    ((n (lua-len t)))
-    (letrec
-      ((collect (fn (i acc) (if (< i 1) acc (collect (- i 1) (cons (lua-get t i) acc)))))
-        (rebuild
-          (fn
-            (t i items)
-            (if
-              (= (len items) 0)
-              t
-              (rebuild
-                (assoc t (str i) (first items))
-                (+ i 1)
-                (rest items))))))
-      (rebuild t 1 (sort (collect n (list)))))))
-
-(define table {:sort lua-table-sort :concat lua-table-concat :insert lua-table-insert :remove lua-table-remove})
--- a/lib/lua/test.sh
+++ b/lib/lua/test.sh
@@ -633,116 +633,6 @@ check 482 "while i<5 count"                 '5'
 check 483 "repeat until i>=3"               '3'
 check 484 "for 1..100 sum"                  '5050'

-# ── Phase 3: stdlib — math, string, table ──────────────────────────────────
-
-cat >> "$TMPFILE" << 'EPOCHS2'
-
-;; ── math library ───────────────────────────────────────────────
-(epoch 500)
-(eval "(lua-eval-ast \"return math.abs(-7)\")")
-(epoch 501)
-(eval "(lua-eval-ast \"return math.floor(3.9)\")")
-(epoch 502)
-(eval "(lua-eval-ast \"return math.ceil(3.1)\")")
-(epoch 503)
-(eval "(lua-eval-ast \"return math.sqrt(9)\")")
-(epoch 504)
-(eval "(lua-eval-ast \"return math.sin(0)\")")
-(epoch 505)
-(eval "(lua-eval-ast \"return math.cos(0)\")")
-(epoch 506)
-(eval "(lua-eval-ast \"return math.max(3, 7)\")")
-(epoch 507)
-(eval "(lua-eval-ast \"return math.min(3, 7)\")")
-(epoch 508)
-(eval "(lua-eval-ast \"return math.pi > 3\")")
-(epoch 509)
-(eval "(lua-eval-ast \"return math.huge > 0\")")
-
-;; ── string library ─────────────────────────────────────────────
-(epoch 520)
-(eval "(lua-eval-ast \"return string.len(\\\"hello\\\")\")")
-(epoch 521)
-(eval "(lua-eval-ast \"return string.upper(\\\"hello\\\")\")")
-(epoch 522)
-(eval "(lua-eval-ast \"return string.lower(\\\"WORLD\\\")\")")
-(epoch 523)
-(eval "(lua-eval-ast \"return string.sub(\\\"hello\\\", 2, 4)\")")
-(epoch 524)
-(eval "(lua-eval-ast \"return string.rep(\\\"ab\\\", 3)\")")
-(epoch 525)
-(eval "(lua-eval-ast \"return string.reverse(\\\"hello\\\")\")")
-(epoch 526)
-(eval "(lua-eval-ast \"return string.byte(\\\"A\\\")\")")
-(epoch 527)
-(eval "(lua-eval-ast \"return string.char(72, 105)\")")
-(epoch 528)
-(eval "(lua-eval-ast \"return string.find(\\\"hello\\\", \\\"ll\\\")\")")
-(epoch 529)
-(eval "(lua-eval-ast \"return string.match(\\\"hello\\\", \\\"ell\\\")\")")
-(epoch 530)
-(eval "(lua-eval-ast \"return string.gsub(\\\"hello\\\", \\\"l\\\", \\\"r\\\")\")")
-
-;; ── table library ──────────────────────────────────────────────
-(epoch 540)
-(eval "(lua-eval-ast \"local t = {10, 20, 30} t = table.insert(t, 40) return t[4]\")")
-(epoch 541)
-(eval "(lua-eval-ast \"local t = {10, 20, 30} t = table.remove(t) return t[3]\")")
-(epoch 542)
-(eval "(lua-eval-ast \"local t = {\\\"a\\\", \\\"b\\\", \\\"c\\\"} return table.concat(t, \\\",\\\")\")")
-(epoch 543)
-(eval "(lua-eval-ast \"local t = {3, 1, 2} t = table.sort(t) return t[1]\")")
-(epoch 544)
-(eval "(lua-eval-ast \"local t = {3, 1, 2} t = table.sort(t) return t[3]\")")
-
-;; ── delay / force ──────────────────────────────────────────────
-(epoch 550)
-(eval "(lua-force (delay (+ 10 5)))")
-(epoch 551)
-(eval "(lua-force 42)")
-
-EPOCHS2
-
-OUTPUT2=$(timeout 30 "$SX_SERVER" < "$TMPFILE" 2>/dev/null)
-OUTPUT="$OUTPUT
-$OUTPUT2"
-
-# math
-check 500 "math.abs(-7)"         '7'
-check 501 "math.floor(3.9)"      '3'
-check 502 "math.ceil(3.1)"       '4'
-check 503 "math.sqrt(9)"         '3'
-check 504 "math.sin(0)"          '0'
-check 505 "math.cos(0)"          '1'
-check 506 "math.max(3,7)"        '7'
-check 507 "math.min(3,7)"        '3'
-check 508 "math.pi > 3"          'true'
-check 509 "math.huge > 0"        'true'
-
-# string
-check 520 "string.len"           '5'
-check 521 "string.upper"         '"HELLO"'
-check 522 "string.lower"         '"world"'
-check 523 "string.sub(2,4)"      '"ell"'
-check 524 "string.rep(ab,3)"     '"ababab"'
-check 525 "string.reverse"       '"olleh"'
-check 526 "string.byte(A)"       '65'
-check 527 "string.char(72,105)"  '"Hi"'
-check 528 "string.find ll"       '3'
-check 529 "string.match ell"     '"ell"'
-check 530 "string.gsub l->r"     '"herro"'
-
-# table
-check 540 "table.insert"         '40'
-check 541 "table.remove"         'nil'
-check 542 "table.concat ,"       '"a,b,c"'
-check 543 "table.sort [1]"       '1'
-check 544 "table.sort [3]"       '3'
-
-# delay/force
-check 550 "lua-force delay"      '15'
-check 551 "lua-force non-promise" '42'
-
 TOTAL=$((PASS + FAIL))
 if [ $FAIL -eq 0 ]; then
  echo "ok $PASS/$TOTAL Lua-on-SX tests passed"
--- a/lib/r7rs.sx
+++ b/lib/r7rs.sx
@@ -73,10 +73,7 @@

 (define string->symbol make-symbol)

-(define number->string
-  (let ((prim-n->s number->string))
-    (fn (n &rest r)
-      (if (= (len r) 0) (str n) (prim-n->s n (first r))))))
+(define number->string (fn (n) (str n)))

 (define
  string->number
--- a/lib/ruby/runtime.sx
+++ b/lib/ruby/runtime.sx
@@ -1,352 +0,0 @@
-;; lib/ruby/runtime.sx — Ruby primitives on SX
-;;
-;; Provides Ruby-idiomatic wrappers over SX built-ins.
-;; Primitives used:
-;;   call/cc                                          (core evaluator)
-;;   make-set/set-add!/set-member?/set-remove!/set->list (Phase 18)
-;;   make-regexp/regexp-match/regexp-match-all/...    (Phase 19)
-;;   make-bytevector/bytevector-u8-ref/...            (Phase 20)
-
-;; ---------------------------------------------------------------------------
-;; 0. Internal list helpers
-;; ---------------------------------------------------------------------------
-
-(define
-  (rb-list-set-nth lst i newval)
-  (letrec
-    ((go (fn (ps j) (if (= (len ps) 0) (list) (cons (if (= j i) newval (first ps)) (go (rest ps) (+ j 1)))))))
-    (go lst 0)))
-
-(define
-  (rb-list-remove-nth lst i)
-  (letrec
-    ((go (fn (ps j) (if (= (len ps) 0) (list) (if (= j i) (go (rest ps) (+ j 1)) (cons (first ps) (go (rest ps) (+ j 1))))))))
-    (go lst 0)))
-
-;; ---------------------------------------------------------------------------
-;; 1. Hash (mutable, any-key, dict-backed list-of-pairs)
-;; ---------------------------------------------------------------------------
-
-(define
-  (rb-hash-new)
-  (let
-    ((h (dict)))
-    (dict-set! h "_rb_hash" true)
-    (dict-set! h "_pairs" (list))
-    (dict-set! h "_size" 0)
-    h))
-
-(define (rb-hash? v) (and (dict? v) (dict-has? v "_rb_hash")))
-
-(define (rb-hash-size h) (get h "_size"))
-
-(define
-  (rb-hash-find-idx pairs k)
-  (letrec
-    ((go (fn (ps i) (cond ((= (len ps) 0) -1) ((= (first (first ps)) k) i) (else (go (rest ps) (+ i 1)))))))
-    (go pairs 0)))
-
-(define
-  (rb-hash-at h k)
-  (letrec
-    ((go (fn (ps) (if (= (len ps) 0) nil (if (= (first (first ps)) k) (nth (first ps) 1) (go (rest ps)))))))
-    (go (get h "_pairs"))))
-
-(define
-  (rb-hash-at-or h k default)
-  (if (rb-hash-has-key? h k) (rb-hash-at h k) default))
-
-(define
-  (rb-hash-at-put! h k v)
-  (let
-    ((pairs (get h "_pairs")) (idx (rb-hash-find-idx (get h "_pairs") k)))
-    (if
-      (= idx -1)
-      (begin
-        (dict-set! h "_pairs" (append pairs (list (list k v))))
-        (dict-set! h "_size" (+ (get h "_size") 1)))
-      (dict-set! h "_pairs" (rb-list-set-nth pairs idx (list k v)))))
-  h)
-
-(define
-  (rb-hash-has-key? h k)
-  (not (= (rb-hash-find-idx (get h "_pairs") k) -1)))
-
-(define
-  (rb-hash-delete! h k)
-  (let
-    ((idx (rb-hash-find-idx (get h "_pairs") k)))
-    (when
-      (not (= idx -1))
-      (dict-set! h "_pairs" (rb-list-remove-nth (get h "_pairs") idx))
-      (dict-set! h "_size" (- (get h "_size") 1))))
-  h)
-
-(define (rb-hash-keys h) (map first (get h "_pairs")))
-
-(define
-  (rb-hash-values h)
-  (map (fn (p) (nth p 1)) (get h "_pairs")))
-
-(define
-  (rb-hash-each h callback)
-  (for-each
-    (fn (p) (callback (first p) (nth p 1)))
-    (get h "_pairs")))
-
-(define (rb-hash->list h) (get h "_pairs"))
-
-(define
-  (rb-list->hash pairs)
-  (let
-    ((h (rb-hash-new)))
-    (for-each
-      (fn (p) (rb-hash-at-put! h (first p) (nth p 1)))
-      pairs)
-    h))
-
-(define
-  (rb-hash-merge h1 h2)
-  (let
-    ((result (rb-hash-new)))
-    (for-each
-      (fn (p) (rb-hash-at-put! result (first p) (nth p 1)))
-      (get h1 "_pairs"))
-    (for-each
-      (fn (p) (rb-hash-at-put! result (first p) (nth p 1)))
-      (get h2 "_pairs"))
-    result))
-
-;; ---------------------------------------------------------------------------
-;; 2. Set (uniqueness collection backed by SX make-set)
-;;    Note: set-member?/set-add!/set-remove! take (set item) order.
-;; ---------------------------------------------------------------------------
-
-(define
-  (rb-set-new)
-  (let
-    ((s (dict)))
-    (dict-set! s "_rb_set" true)
-    (dict-set! s "_set" (make-set))
-    (dict-set! s "_size" 0)
-    s))
-
-(define (rb-set? v) (and (dict? v) (dict-has? v "_rb_set")))
-
-(define (rb-set-size s) (get s "_size"))
-
-(define
-  (rb-set-add! s v)
-  (let
-    ((sx (get s "_set")))
-    (when
-      (not (set-member? sx v))
-      (set-add! sx v)
-      (dict-set! s "_size" (+ (get s "_size") 1))))
-  s)
-
-(define (rb-set-include? s v) (set-member? (get s "_set") v))
-
-(define
-  (rb-set-delete! s v)
-  (let
-    ((sx (get s "_set")))
-    (when
-      (set-member? sx v)
-      (set-remove! sx v)
-      (dict-set! s "_size" (- (get s "_size") 1))))
-  s)
-
-(define (rb-set->list s) (set->list (get s "_set")))
-
-(define
-  (rb-set-each s callback)
-  (for-each callback (set->list (get s "_set"))))
-
-(define
-  (rb-set-union s1 s2)
-  (let
-    ((result (rb-set-new)))
-    (for-each (fn (v) (rb-set-add! result v)) (rb-set->list s1))
-    (for-each (fn (v) (rb-set-add! result v)) (rb-set->list s2))
-    result))
-
-(define
-  (rb-set-intersection s1 s2)
-  (let
-    ((result (rb-set-new)))
-    (for-each
-      (fn (v) (when (rb-set-include? s2 v) (rb-set-add! result v)))
-      (rb-set->list s1))
-    result))
-
-(define
-  (rb-set-difference s1 s2)
-  (let
-    ((result (rb-set-new)))
-    (for-each
-      (fn (v) (when (not (rb-set-include? s2 v)) (rb-set-add! result v)))
-      (rb-set->list s1))
-    result))
-
-;; ---------------------------------------------------------------------------
-;; 3. Regexp (thin wrappers over Phase-19 make-regexp primitives)
-;; ---------------------------------------------------------------------------
-
-(define
-  (rb-regexp-new pattern flags)
-  (make-regexp pattern (if (= flags nil) "" flags)))
-
-(define (rb-regexp? v) (regexp? v))
-
-(define (rb-regexp-match rx str) (regexp-match rx str))
-
-(define (rb-regexp-match-all rx str) (regexp-match-all rx str))
-
-(define (rb-regexp-match? rx str) (not (= (regexp-match rx str) nil)))
-
-(define
-  (rb-regexp-replace rx str replacement)
-  (regexp-replace rx str replacement))
-
-(define
-  (rb-regexp-replace-all rx str replacement)
-  (regexp-replace-all rx str replacement))
-
-(define (rb-regexp-split rx str) (regexp-split rx str))
-
-;; ---------------------------------------------------------------------------
-;; 4. StringIO (write buffer + char-by-char read after rewind)
-;; ---------------------------------------------------------------------------
-
-(define
-  (rb-string-io-new)
-  (let
-    ((io (dict)))
-    (dict-set! io "_rb_string_io" true)
-    (dict-set! io "_buf" "")
-    (dict-set! io "_chars" (list))
-    (dict-set! io "_pos" 0)
-    io))
-
-(define (rb-string-io? v) (and (dict? v) (dict-has? v "_rb_string_io")))
-
-(define
-  (rb-string-io-write! io s)
-  (dict-set! io "_buf" (str (get io "_buf") s))
-  io)
-
-(define (rb-string-io-string io) (get io "_buf"))
-
-(define
-  (rb-string-io-rewind! io)
-  (dict-set! io "_chars" (string->list (get io "_buf")))
-  (dict-set! io "_pos" 0)
-  io)
-
-(define
-  (rb-string-io-eof? io)
-  (>= (get io "_pos") (len (get io "_chars"))))
-
-(define
-  (rb-string-io-read-char io)
-  (if
-    (rb-string-io-eof? io)
-    nil
-    (let
-      ((c (nth (get io "_chars") (get io "_pos"))))
-      (dict-set! io "_pos" (+ (get io "_pos") 1))
-      c)))
-
-(define
-  (rb-string-io-read io)
-  (letrec
-    ((go (fn (acc) (let ((c (rb-string-io-read-char io))) (if (= c nil) (list->string (reverse acc)) (go (cons c acc)))))))
-    (go (list))))
-
-;; ---------------------------------------------------------------------------
-;; 5. Bytevectors (thin wrappers over Phase-20 bytevector primitives)
-;; ---------------------------------------------------------------------------
-
-(define
-  (rb-bytes-new n fill)
-  (make-bytevector n (if (= fill nil) 0 fill)))
-
-(define (rb-bytes? v) (bytevector? v))
-
-(define (rb-bytes-length v) (bytevector-length v))
-
-(define (rb-bytes-get v i) (bytevector-u8-ref v i))
-
-(define (rb-bytes-set! v i b) (bytevector-u8-set! v i b) v)
-
-(define (rb-bytes-copy v) (bytevector-copy v))
-
-(define (rb-bytes-append v1 v2) (bytevector-append v1 v2))
-
-(define (rb-bytes-to-string v) (utf8->string v))
-
-(define (rb-bytes-from-string s) (string->utf8 s))
-
-(define (rb-bytes->list v) (bytevector->list v))
-
-(define (rb-list->bytes lst) (list->bytevector lst))
-
-;; ---------------------------------------------------------------------------
-;; 6. Fiber (call/cc coroutines)
-;;    Body wrapped so completion always routes through _resumer, ensuring
-;;    rb-fiber-resume always returns via the captured continuation.
-;; ---------------------------------------------------------------------------
-
-(define rb-current-fiber nil)
-
-(define
-  (rb-fiber-new body)
-  (let
-    ((f (dict)))
-    (dict-set! f "_rb_fiber" true)
-    (dict-set! f "_state" "new")
-    (dict-set! f "_cont" nil)
-    (dict-set! f "_resumer" nil)
-    (dict-set! f "_parent" nil)
-    (dict-set!
-      f
-      "_body"
-      (fn
-        ()
-        (let
-          ((result (body)))
-          (dict-set! f "_state" "dead")
-          (set! rb-current-fiber (get f "_parent"))
-          ((get f "_resumer") result))))
-    f))
-
-(define (rb-fiber? v) (and (dict? v) (dict-has? v "_rb_fiber")))
-
-(define (rb-fiber-alive? f) (not (= (get f "_state") "dead")))
-
-(define
-  (rb-fiber-yield val)
-  (call/cc
-    (fn
-      (resume-k)
-      (let
-        ((cur rb-current-fiber))
-        (dict-set! cur "_cont" resume-k)
-        (dict-set! cur "_state" "suspended")
-        (set! rb-current-fiber (get cur "_parent"))
-        ((get cur "_resumer") val)))))
-
-(define
-  (rb-fiber-resume f)
-  (call/cc
-    (fn
-      (return-k)
-      (dict-set! f "_parent" rb-current-fiber)
-      (dict-set! f "_resumer" return-k)
-      (set! rb-current-fiber f)
-      (dict-set! f "_state" "running")
-      (if
-        (= (get f "_cont") nil)
-        ((get f "_body"))
-        ((get f "_cont") nil)))))
--- a/lib/ruby/test.sh
+++ b/lib/ruby/test.sh
@@ -1,62 +0,0 @@
-#!/usr/bin/env bash
-# lib/ruby/test.sh — smoke-test the Ruby runtime layer.
-
-set -uo pipefail
-cd "$(git rev-parse --show-toplevel)"
-
-SX_SERVER="${SX_SERVER:-hosts/ocaml/_build/default/bin/sx_server.exe}"
-if [ ! -x "$SX_SERVER" ]; then
-  SX_SERVER="/root/rose-ash/hosts/ocaml/_build/default/bin/sx_server.exe"
-fi
-if [ ! -x "$SX_SERVER" ]; then
-  echo "ERROR: sx_server.exe not found."
-  exit 1
-fi
-
-TMPFILE=$(mktemp); trap "rm -f $TMPFILE" EXIT
-
-cat > "$TMPFILE" << 'EPOCHS'
-(epoch 1)
-(load "lib/ruby/runtime.sx")
-(epoch 2)
-(load "lib/ruby/tests/runtime.sx")
-(epoch 3)
-(eval "(list rb-test-pass rb-test-fail)")
-EPOCHS
-
-OUTPUT=$(timeout 60 "$SX_SERVER" < "$TMPFILE" 2>/dev/null)
-
-LINE=$(echo "$OUTPUT" | awk '/^\(ok-len 3 / {getline; print; exit}')
-if [ -z "$LINE" ]; then
-  LINE=$(echo "$OUTPUT" | grep -E '^\(ok 3 \([0-9]+ [0-9]+\)\)' | tail -1 \
-          | sed -E 's/^\(ok 3 //; s/\)$//')
-fi
-if [ -z "$LINE" ]; then
-  echo "ERROR: could not extract summary"
-  echo "$OUTPUT" | tail -20
-  exit 1
-fi
-
-P=$(echo "$LINE" | sed -E 's/^\(([0-9]+) ([0-9]+)\).*/\1/')
-F=$(echo "$LINE" | sed -E 's/^\(([0-9]+) ([0-9]+)\).*/\2/')
-TOTAL=$((P + F))
-
-if [ "$F" -eq 0 ]; then
-  echo "ok $P/$TOTAL lib/ruby tests passed"
-else
-  echo "FAIL $P/$TOTAL passed, $F failed"
-  TMPFILE2=$(mktemp)
-  cat > "$TMPFILE2" << 'EPOCHS2'
-(epoch 1)
-(load "lib/ruby/runtime.sx")
-(epoch 2)
-(load "lib/ruby/tests/runtime.sx")
-(epoch 3)
-(eval "(map (fn (f) (get f \"name\")) rb-test-fails)")
-EPOCHS2
-  FAILS=$(timeout 60 "$SX_SERVER" < "$TMPFILE2" 2>/dev/null | grep -E '^\(ok 3 ' || true)
-  echo "  Failed: $FAILS"
-  rm -f "$TMPFILE2"
-fi
-
-[ "$F" -eq 0 ]
--- a/lib/ruby/tests/runtime.sx
+++ b/lib/ruby/tests/runtime.sx
@@ -1,207 +0,0 @@
-;; lib/ruby/tests/runtime.sx — Tests for lib/ruby/runtime.sx
-
-(define rb-test-pass 0)
-(define rb-test-fail 0)
-(define rb-test-fails (list))
-
-(define
-  (rb-test name got expected)
-  (if
-    (= got expected)
-    (set! rb-test-pass (+ rb-test-pass 1))
-    (begin
-      (set! rb-test-fail (+ rb-test-fail 1))
-      (set! rb-test-fails (append rb-test-fails (list {:got got :expected expected :name name}))))))
-
-;; ---------------------------------------------------------------------------
-;; 1. Hash
-;; ---------------------------------------------------------------------------
-
-(define h1 (rb-hash-new))
-(rb-test "hash? new" (rb-hash? h1) true)
-(rb-test "hash? non-hash" (rb-hash? 42) false)
-(rb-test "hash size empty" (rb-hash-size h1) 0)
-(rb-hash-at-put! h1 "a" 1)
-(rb-hash-at-put! h1 "b" 2)
-(rb-hash-at-put! h1 "c" 3)
-(rb-test "hash at a" (rb-hash-at h1 "a") 1)
-(rb-test "hash at b" (rb-hash-at h1 "b") 2)
-(rb-test "hash at missing" (rb-hash-at h1 "z") nil)
-(rb-test "hash at-or default" (rb-hash-at-or h1 "z" 99) 99)
-(rb-test "hash has-key yes" (rb-hash-has-key? h1 "a") true)
-(rb-test "hash has-key no" (rb-hash-has-key? h1 "z") false)
-(rb-test "hash size after inserts" (rb-hash-size h1) 3)
-(rb-hash-at-put! h1 "a" 10)
-(rb-test "hash at-put update" (rb-hash-at h1 "a") 10)
-(rb-test "hash size unchanged after update" (rb-hash-size h1) 3)
-(rb-hash-delete! h1 "b")
-(rb-test "hash delete" (rb-hash-has-key? h1 "b") false)
-(rb-test "hash size after delete" (rb-hash-size h1) 2)
-(rb-test "hash keys" (rb-hash-keys h1) (list "a" "c"))
-(rb-test "hash values" (rb-hash-values h1) (list 10 3))
-
-(define
-  h2
-  (rb-list->hash (list (list "x" 7) (list "y" 8))))
-(rb-test "list->hash x" (rb-hash-at h2 "x") 7)
-(rb-test "list->hash y" (rb-hash-at h2 "y") 8)
-
-(define h3 (rb-hash-merge h1 h2))
-(rb-test "hash-merge a" (rb-hash-at h3 "a") 10)
-(rb-test "hash-merge x" (rb-hash-at h3 "x") 7)
-(rb-test "hash-merge size" (rb-hash-size h3) 4)
-
-;; ---------------------------------------------------------------------------
-;; 2. Set
-;; ---------------------------------------------------------------------------
-
-(define s1 (rb-set-new))
-(rb-test "set? new" (rb-set? s1) true)
-(rb-test "set? non-set" (rb-set? "hello") false)
-(rb-test "set size empty" (rb-set-size s1) 0)
-(rb-set-add! s1 1)
-(rb-set-add! s1 2)
-(rb-set-add! s1 3)
-(rb-set-add! s1 2)
-(rb-test "set include yes" (rb-set-include? s1 1) true)
-(rb-test "set include no" (rb-set-include? s1 9) false)
-(rb-test "set size dedup" (rb-set-size s1) 3)
-(rb-set-delete! s1 2)
-(rb-test "set delete" (rb-set-include? s1 2) false)
-(rb-test "set size after delete" (rb-set-size s1) 2)
-
-(define s2 (rb-set-new))
-(rb-set-add! s2 2)
-(rb-set-add! s2 3)
-(rb-set-add! s2 4)
-
-(define su (rb-set-union s1 s2))
-(rb-test "set union includes 1" (rb-set-include? su 1) true)
-(rb-test "set union includes 4" (rb-set-include? su 4) true)
-(rb-test "set union size" (rb-set-size su) 4)
-
-(define si (rb-set-intersection s1 s2))
-(rb-test "set intersection includes 3" (rb-set-include? si 3) true)
-(rb-test "set intersection excludes 1" (rb-set-include? si 1) false)
-(rb-test "set intersection size" (rb-set-size si) 1)
-
-(define sd (rb-set-difference s1 s2))
-(rb-test "set difference includes 1" (rb-set-include? sd 1) true)
-(rb-test "set difference excludes 3" (rb-set-include? sd 3) false)
-
-;; ---------------------------------------------------------------------------
-;; 3. Regexp
-;; ---------------------------------------------------------------------------
-
-(define rx1 (rb-regexp-new "hel+" ""))
-(rb-test "regexp?" (rb-regexp? rx1) true)
-(rb-test "regexp match? yes" (rb-regexp-match? rx1 "say hello") true)
-(rb-test "regexp match? no" (rb-regexp-match? rx1 "goodbye") false)
-
-(define m1 (rb-regexp-match rx1 "say hello world"))
-(rb-test "regexp match :match" (get m1 "match") "hell")
-
-(define rx2 (rb-regexp-new "[0-9]+" ""))
-(define all (rb-regexp-match-all rx2 "a1b22c333"))
-(rb-test "regexp match-all count" (len all) 3)
-(rb-test "regexp match-all first" (get (first all) "match") "1")
-
-(rb-test "regexp replace" (rb-regexp-replace rx2 "a1b2" "N") "aNb2")
-(rb-test "regexp replace-all" (rb-regexp-replace-all rx2 "a1b2" "N") "aNbN")
-(rb-test
-  "regexp split"
-  (rb-regexp-split (rb-regexp-new "," "") "a,b,c")
-  (list "a" "b" "c"))
-
-;; ---------------------------------------------------------------------------
-;; 4. StringIO
-;; ---------------------------------------------------------------------------
-
-(define sio1 (rb-string-io-new))
-(rb-test "string-io?" (rb-string-io? sio1) true)
-(rb-string-io-write! sio1 "hello")
-(rb-string-io-write! sio1 " world")
-(rb-test "string-io string" (rb-string-io-string sio1) "hello world")
-(rb-string-io-rewind! sio1)
-(rb-test "string-io eof? no" (rb-string-io-eof? sio1) false)
-(define ch1 (rb-string-io-read-char sio1))
-(define ch2 (rb-string-io-read-char sio1))
-;; Compare char codepoints since = uses reference equality for chars
-(rb-test "string-io read-char h" (char->integer ch1) 104)
-(rb-test "string-io read-char e" (char->integer ch2) 101)
-(rb-test "string-io read rest" (rb-string-io-read sio1) "llo world")
-(rb-test "string-io eof? yes" (rb-string-io-eof? sio1) true)
-(rb-test "string-io read at eof" (rb-string-io-read sio1) "")
-
-;; ---------------------------------------------------------------------------
-;; 5. Bytevectors
-;; ---------------------------------------------------------------------------
-
-(define bv1 (rb-bytes-new 4 0))
-(rb-test "bytes?" (rb-bytes? bv1) true)
-(rb-test "bytes length" (rb-bytes-length bv1) 4)
-(rb-test "bytes get zero" (rb-bytes-get bv1 0) 0)
-(rb-bytes-set! bv1 0 65)
-(rb-bytes-set! bv1 1 66)
-(rb-test "bytes get A" (rb-bytes-get bv1 0) 65)
-(rb-test "bytes get B" (rb-bytes-get bv1 1) 66)
-(define bv2 (rb-bytes-from-string "hi"))
-(rb-test "bytes from-string length" (rb-bytes-length bv2) 2)
-(rb-test "bytes to-string" (rb-bytes-to-string bv2) "hi")
-(define
-  bv3
-  (rb-bytes-append (rb-bytes-from-string "foo") (rb-bytes-from-string "bar")))
-(rb-test "bytes append" (rb-bytes-to-string bv3) "foobar")
-(rb-test
-  "bytes->list"
-  (rb-bytes->list (rb-bytes-from-string "AB"))
-  (list 65 66))
-(rb-test
-  "list->bytes"
-  (rb-bytes-to-string (rb-list->bytes (list 72 105)))
-  "Hi")
-
-;; ---------------------------------------------------------------------------
-;; 6. Fiber
-;;    Note: rb-fiber-yield from inside a letrec (JIT-compiled) doesn't
-;;    properly escape via call/cc continuations. Use top-level helper fns
-;;    or explicit sequential yields instead of letrec-bound recursion.
-;; ---------------------------------------------------------------------------
-
-(define
-  fib1
-  (rb-fiber-new
-    (fn
-      ()
-      (rb-fiber-yield 10)
-      (rb-fiber-yield 20)
-      30)))
-
-(rb-test "fiber?" (rb-fiber? fib1) true)
-(rb-test "fiber alive? before" (rb-fiber-alive? fib1) true)
-(define fr1 (rb-fiber-resume fib1))
-(rb-test "fiber resume 1" fr1 10)
-(rb-test "fiber alive? mid" (rb-fiber-alive? fib1) true)
-(define fr2 (rb-fiber-resume fib1))
-(rb-test "fiber resume 2" fr2 20)
-(define fr3 (rb-fiber-resume fib1))
-(rb-test "fiber resume 3 (completion)" fr3 30)
-(rb-test "fiber alive? dead" (rb-fiber-alive? fib1) false)
-
-;; Loop via a top-level helper (avoid letrec — see note above)
-(define
-  (rb-fiber-loop-helper i)
-  (when
-    (<= i 3)
-    (rb-fiber-yield i)
-    (rb-fiber-loop-helper (+ i 1))))
-
-(define
-  fib2
-  (rb-fiber-new (fn () (rb-fiber-loop-helper 1) "done")))
-
-(rb-test "fiber loop resume 1" (rb-fiber-resume fib2) 1)
-(rb-test "fiber loop resume 2" (rb-fiber-resume fib2) 2)
-(rb-test "fiber loop resume 3" (rb-fiber-resume fib2) 3)
-(rb-test "fiber loop resume done" (rb-fiber-resume fib2) "done")
-(rb-test "fiber loop dead" (rb-fiber-alive? fib2) false)
--- a/lib/smalltalk/compare.sh
+++ b/lib/smalltalk/compare.sh
@@ -1,90 +0,0 @@
-#!/usr/bin/env bash
-# Smalltalk-on-SX vs. GNU Smalltalk timing comparison.
-#
-# Runs a small benchmark (fibonacci 25, quicksort of a 50-element array,
-# arithmetic sum 1..1000) on both runtimes and reports the ratio.
-#
-# GNU Smalltalk (`gst`) must be installed and on $PATH. If it isn't,
-# the script prints a friendly message and exits with status 0 — this
-# lets CI runs that don't have gst available pass cleanly.
-#
-# Usage: bash lib/smalltalk/compare.sh
-
-set -uo pipefail
-cd "$(git rev-parse --show-toplevel)"
-
-OUT="lib/smalltalk/compare-results.txt"
-
-if ! command -v gst >/dev/null 2>&1; then
-  echo "Note: GNU Smalltalk (gst) not found on \$PATH."
-  echo "      The comparison harness is in place at $0 but cannot run"
-  echo "      until gst is installed (\`apt-get install gnu-smalltalk\`"
-  echo "      on Debian-derived systems). Skipping."
-  exit 0
-fi
-
-SX="hosts/ocaml/_build/default/bin/sx_server.exe"
-if [ ! -x "$SX" ]; then
-  MAIN_ROOT=$(git worktree list | head -1 | awk '{print $1}')
-  SX="$MAIN_ROOT/$SX"
-fi
-
-# A trio of small benchmarks. Each is a Smalltalk expression that the
-# canonical impls evaluate to the same value.
-BENCH_FIB='Object subclass: #B instanceVariableNames: ""! !B methodsFor: "x"! fib: n n < 2 ifTrue: [^ n]. ^ (self fib: n - 1) + (self fib: n - 2)! ! Transcript show: (B new fib: 22) printString; nl'
-
-run_sx () {
-  local label="$1"; local source="$2"
-  local tmp=$(mktemp)
-  cat > "$tmp" <<EOF
-(epoch 1)
-(load "lib/smalltalk/tokenizer.sx")
-(load "lib/smalltalk/parser.sx")
-(load "lib/smalltalk/runtime.sx")
-(load "lib/smalltalk/eval.sx")
-(epoch 2)
-(eval "(begin (st-bootstrap-classes!) (smalltalk-load \"Object subclass: #B instanceVariableNames: ''! !B methodsFor: 'x'! fib: n n < 2 ifTrue: [^ n]. ^ (self fib: n - 1) + (self fib: n - 2)! !\") (smalltalk-eval-program \"^ B new fib: 22\"))")
-EOF
-  local start=$(date +%s.%N)
-  timeout 60 "$SX" < "$tmp" > /dev/null 2>&1
-  local rc=$?
-  local end=$(date +%s.%N)
-  rm -f "$tmp"
-  local elapsed=$(awk "BEGIN{print $end - $start}")
-  echo "$label: ${elapsed}s (rc=$rc)"
-}
-
-run_gst () {
-  local label="$1"
-  local tmp=$(mktemp)
-  cat > "$tmp" <<EOF
-| start delta b |
-b := Object subclass: #B
-        instanceVariableNames: ''
-        classVariableNames: ''
-        package: 'demo'.
-b compile: 'fib: n n < 2 ifTrue: [^ n]. ^ (self fib: n - 1) + (self fib: n - 2)'.
-start := Time millisecondClock.
-B new fib: 22.
-delta := Time millisecondClock - start.
-Transcript show: 'gst ', delta printString, 'ms'; nl.
-EOF
-  local start=$(date +%s.%N)
-  timeout 60 gst -q "$tmp" > /dev/null 2>&1
-  local rc=$?
-  local end=$(date +%s.%N)
-  rm -f "$tmp"
-  local elapsed=$(awk "BEGIN{print $end - $start}")
-  echo "$label: ${elapsed}s (rc=$rc)"
-}
-
-{
-  echo "Smalltalk-on-SX vs GNU Smalltalk — fibonacci(22)"
-  echo "Generated: $(date -u +%Y-%m-%dT%H:%M:%SZ)"
-  echo
-  run_sx  "smalltalk-on-sx (call/cc + dict ivars)"
-  run_gst "gnu smalltalk"
-} | tee "$OUT"
-
-echo
-echo "Saved: $OUT"
--- a/lib/smalltalk/conformance.sh
+++ b/lib/smalltalk/conformance.sh
@@ -1,99 +0,0 @@
-#!/usr/bin/env bash
-# Smalltalk-on-SX conformance runner.
-#
-# Runs the full test suite once with per-file detail, pulls out the
-# classic-corpus numbers, and writes:
-#   lib/smalltalk/scoreboard.json   — machine-readable summary
-#   lib/smalltalk/scoreboard.md     — human-readable summary
-#
-# Usage: bash lib/smalltalk/conformance.sh
-
-set -uo pipefail
-cd "$(git rev-parse --show-toplevel)"
-
-OUT_JSON="lib/smalltalk/scoreboard.json"
-OUT_MD="lib/smalltalk/scoreboard.md"
-
-DATE=$(date -u +%Y-%m-%dT%H:%M:%SZ)
-
-# Catalog .st programs in the corpus.
-PROGRAMS=()
-for f in lib/smalltalk/tests/programs/*.st; do
-  [ -f "$f" ] || continue
-  PROGRAMS+=("$(basename "$f" .st)")
-done
-NUM_PROGRAMS=${#PROGRAMS[@]}
-
-# Run the full test suite with per-file detail.
-RUNNER_OUT=$(bash lib/smalltalk/test.sh -v 2>&1)
-RC=$?
-
-# Final summary line: "OK 403/403 ..." or "FAIL 400/403 ...".
-ALL_SUM=$(echo "$RUNNER_OUT" | grep -E '^(OK|FAIL) [0-9]+/[0-9]+' | tail -1)
-ALL_PASS=$(echo "$ALL_SUM" | grep -oE '[0-9]+/[0-9]+' | head -1 | cut -d/ -f1)
-ALL_TOTAL=$(echo "$ALL_SUM" | grep -oE '[0-9]+/[0-9]+' | head -1 | cut -d/ -f2)
-
-# Per-file pass counts (verbose lines look like "OK <path>  N passed").
-get_pass () {
-  local fname="$1"
-  echo "$RUNNER_OUT" | awk -v f="$fname" '
-    $0 ~ f { for (i=1; i<=NF; i++) if ($i ~ /^[0-9]+$/) { print $i; exit } }'
-}
-
-PROG_PASS=$(get_pass "tests/programs.sx")
-PROG_PASS=${PROG_PASS:-0}
-
-# scoreboard.json
-{
-  printf '{\n'
-  printf '  "date": "%s",\n' "$DATE"
-  printf '  "programs": [\n'
-  for i in "${!PROGRAMS[@]}"; do
-    sep=","; [ "$i" -eq "$((NUM_PROGRAMS - 1))" ] && sep=""
-    printf '    "%s.st"%s\n' "${PROGRAMS[$i]}" "$sep"
-  done
-  printf '  ],\n'
-  printf '  "program_count": %d,\n' "$NUM_PROGRAMS"
-  printf '  "program_tests_passed": %s,\n' "$PROG_PASS"
-  printf '  "all_tests_passed": %s,\n' "$ALL_PASS"
-  printf '  "all_tests_total": %s,\n' "$ALL_TOTAL"
-  printf '  "exit_code": %d\n' "$RC"
-  printf '}\n'
-} > "$OUT_JSON"
-
-# scoreboard.md
-{
-  printf '# Smalltalk-on-SX Scoreboard\n\n'
-  printf '_Last run: %s_\n\n' "$DATE"
-
-  printf '## Totals\n\n'
-  printf '| Suite | Passing |\n'
-  printf '|-------|---------|\n'
-  printf '| All Smalltalk-on-SX tests | **%s / %s** |\n' "$ALL_PASS" "$ALL_TOTAL"
-  printf '| Classic-corpus tests (`tests/programs.sx`) | **%s** |\n\n' "$PROG_PASS"
-
-  printf '## Classic-corpus programs (`lib/smalltalk/tests/programs/`)\n\n'
-  printf '| Program | Status |\n'
-  printf '|---------|--------|\n'
-  for prog in "${PROGRAMS[@]}"; do
-    printf '| `%s.st` | present |\n' "$prog"
-  done
-  printf '\n'
-
-  printf '## Per-file test counts\n\n'
-  printf '```\n'
-  echo "$RUNNER_OUT" | grep -E '^(OK|X) lib/smalltalk/tests/' | sort
-  printf '```\n\n'
-
-  printf '## Notes\n\n'
-  printf -- '- The spec interpreter is correct but slow (call/cc + dict-based ivars per send).\n'
-  printf -- '- Larger Life multi-step verification, the 8-queens canonical case, and the glider-gun pattern are deferred to the JIT path.\n'
-  printf -- '- Generated by `bash lib/smalltalk/conformance.sh`. Both files are committed; the runner overwrites them on each run.\n'
-} > "$OUT_MD"
-
-echo "Scoreboard updated:"
-echo "  $OUT_JSON"
-echo "  $OUT_MD"
-echo "Programs: $NUM_PROGRAMS  Corpus tests: $PROG_PASS  All: $ALL_PASS/$ALL_TOTAL"
-
-exit $RC
--- a/lib/smalltalk/eval.sx
+++ b/lib/smalltalk/eval.sx
--- a/lib/smalltalk/parser.sx
+++ b/lib/smalltalk/parser.sx
@@ -1,948 +0,0 @@
-;; Smalltalk parser — produces an AST from the tokenizer's token stream.
-;;
-;; AST node shapes (dicts):
-;;   {:type "lit-int" :value N}                  integer
-;;   {:type "lit-float" :value F}                float
-;;   {:type "lit-string" :value S}               string
-;;   {:type "lit-char" :value C}                 character
-;;   {:type "lit-symbol" :value S}               symbol literal (#foo)
-;;   {:type "lit-array" :elements (list ...)}    literal array (#(1 2 #foo))
-;;   {:type "lit-byte-array" :elements (...)}    byte array (#[1 2 3])
-;;   {:type "lit-nil" } / "lit-true" / "lit-false"
-;;   {:type "ident" :name "x"}                   variable reference
-;;   {:type "self"} / "super" / "thisContext"    pseudo-variables
-;;   {:type "assign" :name "x" :expr E}          x := E
-;;   {:type "return" :expr E}                    ^ E
-;;   {:type "send" :receiver R :selector S :args (list ...)}
-;;   {:type "cascade" :receiver R :messages (list {:selector :args} ...)}
-;;   {:type "block" :params (list "a") :temps (list "t") :body (list expr)}
-;;   {:type "seq" :exprs (list ...)}             statement sequence
-;;   {:type "method" :selector S :params (list ...) :temps (list ...) :body (list ...) :pragmas (list ...)}
-;;
-;; A "chunk" / class-definition stream is parsed at a higher level (deferred).
-
-;; ── Chunk-stream reader ────────────────────────────────────────────────
-;; Pharo chunk format: chunks are separated by `!`. A doubled `!!` inside a
-;; chunk represents a single literal `!`. Returns list of chunk strings with
-;; surrounding whitespace trimmed.
-(define
-  st-read-chunks
-  (fn
-    (src)
-    (let
-      ((chunks (list))
-        (buf (list))
-        (pos 0)
-        (n (len src)))
-      (begin
-        (define
-          flush!
-          (fn
-            ()
-            (let
-              ((s (st-trim (join "" buf))))
-              (begin (append! chunks s) (set! buf (list))))))
-        (define
-          rc-loop
-          (fn
-            ()
-            (when
-              (< pos n)
-              (let
-                ((c (nth src pos)))
-                (cond
-                  ((= c "!")
-                    (cond
-                      ((and (< (+ pos 1) n) (= (nth src (+ pos 1)) "!"))
-                        (begin (append! buf "!") (set! pos (+ pos 2)) (rc-loop)))
-                      (else
-                        (begin (flush!) (set! pos (+ pos 1)) (rc-loop)))))
-                  (else
-                    (begin (append! buf c) (set! pos (+ pos 1)) (rc-loop))))))))
-        (rc-loop)
-        ;; trailing text without a closing `!` — preserve as a chunk
-        (when (> (len buf) 0) (flush!))
-        chunks))))
-
-(define
-  st-trim
-  (fn
-    (s)
-    (let
-      ((n (len s)) (i 0) (j 0))
-      (begin
-        (set! j n)
-        (define
-          tl-loop
-          (fn
-            ()
-            (when
-              (and (< i n) (st-trim-ws? (nth s i)))
-              (begin (set! i (+ i 1)) (tl-loop)))))
-        (tl-loop)
-        (define
-          tr-loop
-          (fn
-            ()
-            (when
-              (and (> j i) (st-trim-ws? (nth s (- j 1))))
-              (begin (set! j (- j 1)) (tr-loop)))))
-        (tr-loop)
-        (slice s i j)))))
-
-(define
-  st-trim-ws?
-  (fn (c) (or (= c " ") (= c "\t") (= c "\n") (= c "\r"))))
-
-;; Parse a chunk stream. Walks chunks and applies the Pharo file-in
-;; convention: a chunk that evaluates to "X methodsFor: 'cat'" or
-;; "X class methodsFor: 'cat'" enters a methods batch — subsequent chunks
-;; are method source until an empty chunk closes the batch.
-;;
-;; Returns list of entries:
-;;   {:kind "expr" :ast EXPR-AST}
-;;   {:kind "method" :class CLS :class-side? BOOL :category CAT :ast METHOD-AST}
-;;   {:kind "blank"}        (empty chunks outside a methods batch)
-;;   {:kind "end-methods"}  (empty chunk closing a methods batch)
-(define
-  st-parse-chunks
-  (fn
-    (src)
-    (let
-      ((chunks (st-read-chunks src))
-        (entries (list))
-        (mode "do-it")
-        (cls-name nil)
-        (class-side? false)
-        (category nil))
-      (begin
-        (for-each
-          (fn
-            (chunk)
-            (cond
-              ((= chunk "")
-                (cond
-                  ((= mode "methods")
-                    (begin
-                      (append! entries {:kind "end-methods"})
-                      (set! mode "do-it")
-                      (set! cls-name nil)
-                      (set! class-side? false)
-                      (set! category nil)))
-                  (else (append! entries {:kind "blank"}))))
-              ((= mode "methods")
-                (append!
-                  entries
-                  {:kind "method"
-                   :class cls-name
-                   :class-side? class-side?
-                   :category category
-                   :ast (st-parse-method chunk)}))
-              (else
-                (let
-                  ((ast (st-parse-expr chunk)))
-                  (begin
-                    (append! entries {:kind "expr" :ast ast})
-                    (let
-                      ((mf (st-detect-methods-for ast)))
-                      (when
-                        (not (= mf nil))
-                        (begin
-                          (set! mode "methods")
-                          (set! cls-name (get mf :class))
-                          (set! class-side? (get mf :class-side?))
-                          (set! category (get mf :category))))))))))
-          chunks)
-        entries))))
-
-;; Recognise `Foo methodsFor: 'cat'` (and related) as starting a methods batch.
-;; Returns nil if the AST doesn't look like one of these forms.
-(define
-  st-detect-methods-for
-  (fn
-    (ast)
-    (cond
-      ((not (= (get ast :type) "send")) nil)
-      ((not (st-is-methods-for-selector? (get ast :selector))) nil)
-      (else
-        (let
-          ((recv (get ast :receiver)) (args (get ast :args)))
-          (let
-            ((cat-arg (if (> (len args) 0) (nth args 0) nil)))
-            (let
-              ((category
-                 (cond
-                   ((= cat-arg nil) nil)
-                   ((= (get cat-arg :type) "lit-string") (get cat-arg :value))
-                   ((= (get cat-arg :type) "lit-symbol") (get cat-arg :value))
-                   (else nil))))
-              (cond
-                ((= (get recv :type) "ident")
-                  {:class (get recv :name)
-                   :class-side? false
-                   :category category})
-                ;; `Foo class methodsFor: 'cat'` — recv is a unary send `Foo class`
-                ((and
-                    (= (get recv :type) "send")
-                    (= (get recv :selector) "class")
-                    (= (get (get recv :receiver) :type) "ident"))
-                  {:class (get (get recv :receiver) :name)
-                   :class-side? true
-                   :category category})
-                (else nil)))))))))
-
-(define
-  st-is-methods-for-selector?
-  (fn
-    (sel)
-    (or
-      (= sel "methodsFor:")
-      (= sel "methodsFor:stamp:")
-      (= sel "category:"))))
-
-(define st-tok-type (fn (t) (if (= t nil) "eof" (get t :type))))
-
-(define st-tok-value (fn (t) (if (= t nil) nil (get t :value))))
-
-;; Parse a *single* Smalltalk expression from source.
-(define st-parse-expr (fn (src) (st-parse-with src "expr")))
-
-;; Parse a sequence of statements separated by '.'  Returns a {:type "seq"} node.
-(define st-parse (fn (src) (st-parse-with src "seq")))
-
-;; Parse a method body — `selector params | temps | body`.
-;; Only the "method header + body" form (no chunk delimiters).
-(define st-parse-method (fn (src) (st-parse-with src "method")))
-
-(define
-  st-parse-with
-  (fn
-    (src mode)
-    (let
-      ((tokens (st-tokenize src)) (idx 0) (tok-len 0))
-      (begin
-        (set! tok-len (len tokens))
-        (define peek-tok (fn () (nth tokens idx)))
-        (define
-          peek-tok-at
-          (fn (n) (if (< (+ idx n) tok-len) (nth tokens (+ idx n)) nil)))
-        (define advance-tok! (fn () (set! idx (+ idx 1))))
-        (define
-          at?
-          (fn
-            (type value)
-            (let
-              ((t (peek-tok)))
-              (and
-                (= (st-tok-type t) type)
-                (or (= value nil) (= (st-tok-value t) value))))))
-        (define at-type? (fn (type) (= (st-tok-type (peek-tok)) type)))
-        (define
-          consume!
-          (fn
-            (type value)
-            (if
-              (at? type value)
-              (let ((t (peek-tok))) (begin (advance-tok!) t))
-              (error
-                (str
-                  "st-parse: expected "
-                  type
-                  (if (= value nil) "" (str " '" value "'"))
-                  " got "
-                  (st-tok-type (peek-tok))
-                  " '"
-                  (st-tok-value (peek-tok))
-                  "' at idx "
-                  idx)))))
-
-        ;; ── Primary: atoms, paren'd expr, blocks, literal arrays, byte arrays.
-        (define
-          parse-primary
-          (fn
-            ()
-            (let
-              ((t (peek-tok)))
-              (let
-                ((ty (st-tok-type t)) (v (st-tok-value t)))
-                (cond
-                  ((= ty "number")
-                    (begin
-                      (advance-tok!)
-                      (cond
-                        ((number? v) {:type (if (integer? v) "lit-int" "lit-float") :value v})
-                        (else {:type "lit-int" :value v}))))
-                  ((= ty "string")
-                    (begin (advance-tok!) {:type "lit-string" :value v}))
-                  ((= ty "char")
-                    (begin (advance-tok!) {:type "lit-char" :value v}))
-                  ((= ty "symbol")
-                    (begin (advance-tok!) {:type "lit-symbol" :value v}))
-                  ((= ty "array-open") (parse-literal-array))
-                  ((= ty "byte-array-open") (parse-byte-array))
-                  ((= ty "lparen")
-                    (begin
-                      (advance-tok!)
-                      (let
-                        ((e (parse-expression)))
-                        (begin (consume! "rparen" nil) e))))
-                  ((= ty "lbracket") (parse-block))
-                  ((= ty "lbrace") (parse-dynamic-array))
-                  ((= ty "ident")
-                    (begin
-                      (advance-tok!)
-                      (cond
-                        ((= v "nil") {:type "lit-nil"})
-                        ((= v "true") {:type "lit-true"})
-                        ((= v "false") {:type "lit-false"})
-                        ((= v "self") {:type "self"})
-                        ((= v "super") {:type "super"})
-                        ((= v "thisContext") {:type "thisContext"})
-                        (else {:type "ident" :name v}))))
-                  ((= ty "binary")
-                    ;; Negative numeric literal: '-' immediately before a number.
-                    (cond
-                      ((and (= v "-") (= (st-tok-type (peek-tok-at 1)) "number"))
-                        (let
-                          ((n (st-tok-value (peek-tok-at 1))))
-                          (begin
-                            (advance-tok!)
-                            (advance-tok!)
-                            (cond
-                              ((dict? n) {:type "lit-int" :value n})
-                              ((integer? n) {:type "lit-int" :value (- 0 n)})
-                              (else {:type "lit-float" :value (- 0 n)})))))
-                      (else
-                        (error
-                          (str "st-parse: unexpected binary '" v "' at idx " idx)))))
-                  (else
-                    (error
-                      (str
-                        "st-parse: unexpected "
-                        ty
-                        " '"
-                        v
-                        "' at idx "
-                        idx))))))))
-
-        ;; #(elem elem ...) — elements are atoms or nested parenthesised arrays.
-        (define
-          parse-literal-array
-          (fn
-            ()
-            (let
-              ((items (list)))
-              (begin
-                (consume! "array-open" nil)
-                (define
-                  arr-loop
-                  (fn
-                    ()
-                    (cond
-                      ((at? "rparen" nil) (advance-tok!))
-                      (else
-                        (begin
-                          (append! items (parse-array-element))
-                          (arr-loop))))))
-                (arr-loop)
-                {:type "lit-array" :elements items}))))
-
-        ;; { expr. expr. expr } — Pharo dynamic array literal. Each element
-        ;; is a *full expression* evaluated at runtime; the result is a
-        ;; fresh mutable array. Empty `{}` is a 0-length array.
-        (define
-          parse-dynamic-array
-          (fn
-            ()
-            (let ((items (list)))
-              (begin
-                (consume! "lbrace" nil)
-                (define
-                  da-loop
-                  (fn
-                    ()
-                    (cond
-                      ((at? "rbrace" nil) (advance-tok!))
-                      (else
-                        (begin
-                          (append! items (parse-expression))
-                          (define
-                            dot-loop
-                            (fn
-                              ()
-                              (when
-                                (at? "period" nil)
-                                (begin (advance-tok!) (dot-loop)))))
-                          (dot-loop)
-                          (da-loop))))))
-                (da-loop)
-                {:type "dynamic-array" :elements items}))))
-
-        ;; #[1 2 3]
-        (define
-          parse-byte-array
-          (fn
-            ()
-            (let
-              ((items (list)))
-              (begin
-                (consume! "byte-array-open" nil)
-                (define
-                  ba-loop
-                  (fn
-                    ()
-                    (cond
-                      ((at? "rbracket" nil) (advance-tok!))
-                      (else
-                        (let
-                          ((t (peek-tok)))
-                          (cond
-                            ((= (st-tok-type t) "number")
-                              (begin
-                                (advance-tok!)
-                                (append! items (st-tok-value t))
-                                (ba-loop)))
-                            (else
-                              (error
-                                (str
-                                  "st-parse: byte array expects number, got "
-                                  (st-tok-type t))))))))))
-                (ba-loop)
-                {:type "lit-byte-array" :elements items}))))
-
-        ;; Inside a literal array: bare idents become symbols, nested (...) is a sub-array.
-        (define
-          parse-array-element
-          (fn
-            ()
-            (let
-              ((t (peek-tok)))
-              (let
-                ((ty (st-tok-type t)) (v (st-tok-value t)))
-                (cond
-                  ((= ty "number") (begin (advance-tok!) {:type "lit-int" :value v}))
-                  ((= ty "string") (begin (advance-tok!) {:type "lit-string" :value v}))
-                  ((= ty "char") (begin (advance-tok!) {:type "lit-char" :value v}))
-                  ((= ty "symbol") (begin (advance-tok!) {:type "lit-symbol" :value v}))
-                  ((= ty "ident")
-                    (begin
-                      (advance-tok!)
-                      (cond
-                        ((= v "nil") {:type "lit-nil"})
-                        ((= v "true") {:type "lit-true"})
-                        ((= v "false") {:type "lit-false"})
-                        (else {:type "lit-symbol" :value v}))))
-                  ((= ty "keyword") (begin (advance-tok!) {:type "lit-symbol" :value v}))
-                  ((= ty "binary") (begin (advance-tok!) {:type "lit-symbol" :value v}))
-                  ((= ty "lparen")
-                    (let ((items (list)))
-                      (begin
-                        (advance-tok!)
-                        (define
-                          sub-loop
-                          (fn
-                            ()
-                            (cond
-                              ((at? "rparen" nil) (advance-tok!))
-                              (else
-                                (begin (append! items (parse-array-element)) (sub-loop))))))
-                        (sub-loop)
-                        {:type "lit-array" :elements items})))
-                  ((= ty "array-open") (parse-literal-array))
-                  ((= ty "byte-array-open") (parse-byte-array))
-                  (else
-                    (error
-                      (str "st-parse: bad literal-array element " ty " '" v "'"))))))))
-
-        ;; [:a :b | | t1 t2 | body. body. ...]
-        (define
-          parse-block
-          (fn
-            ()
-            (begin
-              (consume! "lbracket" nil)
-              (let
-                ((params (list)) (temps (list)))
-                (begin
-                  ;; Block params
-                  (define
-                    p-loop
-                    (fn
-                      ()
-                      (when
-                        (at? "colon" nil)
-                        (begin
-                          (advance-tok!)
-                          (let
-                            ((t (consume! "ident" nil)))
-                            (begin
-                              (append! params (st-tok-value t))
-                              (p-loop)))))))
-                  (p-loop)
-                  (when (> (len params) 0) (consume! "bar" nil))
-                  ;; Block temps: | t1 t2 |
-                  (when
-                    (and
-                      (at? "bar" nil)
-                      ;; Not `|` followed immediately by binary content — the only
-                      ;; legitimate `|` inside a block here is the temp delimiter.
-                      true)
-                    (begin
-                      (advance-tok!)
-                      (define
-                        t-loop
-                        (fn
-                          ()
-                          (when
-                            (at? "ident" nil)
-                            (let
-                              ((t (peek-tok)))
-                              (begin
-                                (advance-tok!)
-                                (append! temps (st-tok-value t))
-                                (t-loop))))))
-                      (t-loop)
-                      (consume! "bar" nil)))
-                  ;; Body: statements terminated by `.` or `]`
-                  (let
-                    ((body (parse-statements "rbracket")))
-                    (begin
-                      (consume! "rbracket" nil)
-                      {:type "block" :params params :temps temps :body body})))))))
-
-        ;; Parse statements up to a closing token (rbracket or eof). Returns list.
-        (define
-          parse-statements
-          (fn
-            (terminator)
-            (let
-              ((stmts (list)))
-              (begin
-                (define
-                  s-loop
-                  (fn
-                    ()
-                    (cond
-                      ((at-type? terminator) nil)
-                      ((at-type? "eof") nil)
-                      (else
-                        (begin
-                          (append! stmts (parse-statement))
-                          ;; consume optional period(s)
-                          (define
-                            dot-loop
-                            (fn
-                              ()
-                              (when
-                                (at? "period" nil)
-                                (begin (advance-tok!) (dot-loop)))))
-                          (dot-loop)
-                          (s-loop))))))
-                (s-loop)
-                stmts))))
-
-        ;; Statement: ^expr  |  ident := expr  |  expr
-        (define
-          parse-statement
-          (fn
-            ()
-            (cond
-              ((at? "caret" nil)
-                (begin
-                  (advance-tok!)
-                  {:type "return" :expr (parse-expression)}))
-              ((and (at-type? "ident") (= (st-tok-type (peek-tok-at 1)) "assign"))
-                (let
-                  ((name-tok (peek-tok)))
-                  (begin
-                    (advance-tok!)
-                    (advance-tok!)
-                    {:type "assign"
-                     :name (st-tok-value name-tok)
-                     :expr (parse-expression)})))
-              (else (parse-expression)))))
-
-        ;; Top-level expression. Assignment (right-associative chain) sits at
-        ;; the top; cascade is below.
-        (define
-          parse-expression
-          (fn
-            ()
-            (cond
-              ((and (at-type? "ident") (= (st-tok-type (peek-tok-at 1)) "assign"))
-                (let
-                  ((name-tok (peek-tok)))
-                  (begin
-                    (advance-tok!)
-                    (advance-tok!)
-                    {:type "assign"
-                     :name (st-tok-value name-tok)
-                     :expr (parse-expression)})))
-              (else (parse-cascade)))))
-
-        (define
-          parse-cascade
-          (fn
-            ()
-            (let
-              ((head (parse-keyword-message)))
-              (cond
-                ((at? "semi" nil)
-                  (let
-                    ((receiver (cascade-receiver head))
-                      (first-msg (cascade-first-message head))
-                      (msgs (list)))
-                    (begin
-                      (append! msgs first-msg)
-                      (define
-                        c-loop
-                        (fn
-                          ()
-                          (when
-                            (at? "semi" nil)
-                            (begin
-                              (advance-tok!)
-                              (append! msgs (parse-cascade-message))
-                              (c-loop)))))
-                      (c-loop)
-                      {:type "cascade" :receiver receiver :messages msgs})))
-                (else head)))))
-
-        ;; Extract the receiver from a head send so cascades share it.
-        (define
-          cascade-receiver
-          (fn
-            (head)
-            (cond
-              ((= (get head :type) "send") (get head :receiver))
-              (else head))))
-
-        (define
-          cascade-first-message
-          (fn
-            (head)
-            (cond
-              ((= (get head :type) "send")
-                {:selector (get head :selector) :args (get head :args)})
-              (else
-                ;; Shouldn't happen — cascade requires at least one prior message.
-                (error "st-parse: cascade with no prior message")))))
-
-        ;; Subsequent cascade message (after the `;`): unary | binary | keyword
-        (define
-          parse-cascade-message
-          (fn
-            ()
-            (cond
-              ((at-type? "ident")
-                (let ((t (peek-tok)))
-                  (begin
-                    (advance-tok!)
-                    {:selector (st-tok-value t) :args (list)})))
-              ((at-type? "binary")
-                (let ((t (peek-tok)))
-                  (begin
-                    (advance-tok!)
-                    (let
-                      ((arg (parse-unary-message)))
-                      {:selector (st-tok-value t) :args (list arg)}))))
-              ((at-type? "keyword")
-                (let
-                  ((sel-parts (list)) (args (list)))
-                  (begin
-                    (define
-                      kw-loop
-                      (fn
-                        ()
-                        (when
-                          (at-type? "keyword")
-                          (let ((t (peek-tok)))
-                            (begin
-                              (advance-tok!)
-                              (append! sel-parts (st-tok-value t))
-                              (append! args (parse-binary-message))
-                              (kw-loop))))))
-                    (kw-loop)
-                    {:selector (join "" sel-parts) :args args})))
-              (else
-                (error
-                  (str "st-parse: bad cascade message at idx " idx))))))
-
-        ;; Keyword message: <binary> (kw <binary>)+
-        (define
-          parse-keyword-message
-          (fn
-            ()
-            (let
-              ((receiver (parse-binary-message)))
-              (cond
-                ((at-type? "keyword")
-                  (let
-                    ((sel-parts (list)) (args (list)))
-                    (begin
-                      (define
-                        kw-loop
-                        (fn
-                          ()
-                          (when
-                            (at-type? "keyword")
-                            (let ((t (peek-tok)))
-                              (begin
-                                (advance-tok!)
-                                (append! sel-parts (st-tok-value t))
-                                (append! args (parse-binary-message))
-                                (kw-loop))))))
-                      (kw-loop)
-                      {:type "send"
-                       :receiver receiver
-                       :selector (join "" sel-parts)
-                       :args args})))
-                (else receiver)))))
-
-        ;; Binary message: <unary> (binop <unary>)*
-        ;; A bare `|` is also a legitimate binary selector (logical or in
-        ;; some Smalltalks); the tokenizer emits it as the `bar` type so
-        ;; that block-param / temp-decl delimiters are easy to spot.
-        ;; In expression position, accept it as a binary operator.
-        (define
-          parse-binary-message
-          (fn
-            ()
-            (let
-              ((receiver (parse-unary-message)))
-              (begin
-                (define
-                  b-loop
-                  (fn
-                    ()
-                    (when
-                      (or (at-type? "binary") (at-type? "bar"))
-                      (let ((t (peek-tok)))
-                        (begin
-                          (advance-tok!)
-                          (let
-                            ((arg (parse-unary-message)))
-                            (set!
-                              receiver
-                              {:type "send"
-                               :receiver receiver
-                               :selector (st-tok-value t)
-                               :args (list arg)}))
-                          (b-loop))))))
-                (b-loop)
-                receiver))))
-
-        ;; Unary message: <primary> ident*  (ident NOT followed by ':')
-        (define
-          parse-unary-message
-          (fn
-            ()
-            (let
-              ((receiver (parse-primary)))
-              (begin
-                (define
-                  u-loop
-                  (fn
-                    ()
-                    (when
-                      (and
-                        (at-type? "ident")
-                        (let
-                          ((nxt (peek-tok-at 1)))
-                          (not (= (st-tok-type nxt) "assign"))))
-                      (let ((t (peek-tok)))
-                        (begin
-                          (advance-tok!)
-                          (set!
-                            receiver
-                            {:type "send"
-                             :receiver receiver
-                             :selector (st-tok-value t)
-                             :args (list)})
-                          (u-loop))))))
-                (u-loop)
-                receiver))))
-
-        ;; Parse a single pragma: `<keyword: literal (keyword: literal)* >`
-        ;; Returns {:selector "primitive:" :args (list literal-asts)}.
-        (define
-          parse-pragma
-          (fn
-            ()
-            (begin
-              (consume! "binary" "<")
-              (let
-                ((sel-parts (list)) (args (list)))
-                (begin
-                  (define
-                    pr-loop
-                    (fn
-                      ()
-                      (when
-                        (at-type? "keyword")
-                        (let ((t (peek-tok)))
-                          (begin
-                            (advance-tok!)
-                            (append! sel-parts (st-tok-value t))
-                            (append! args (parse-pragma-arg))
-                            (pr-loop))))))
-                  (pr-loop)
-                  (consume! "binary" ">")
-                  {:selector (join "" sel-parts) :args args})))))
-
-        ;; Pragma arguments are literals only.
-        (define
-          parse-pragma-arg
-          (fn
-            ()
-            (let
-              ((t (peek-tok)))
-              (let
-                ((ty (st-tok-type t)) (v (st-tok-value t)))
-                (cond
-                  ((= ty "number")
-                    (begin
-                      (advance-tok!)
-                      {:type (if (integer? v) "lit-int" "lit-float") :value v}))
-                  ((= ty "string") (begin (advance-tok!) {:type "lit-string" :value v}))
-                  ((= ty "char") (begin (advance-tok!) {:type "lit-char" :value v}))
-                  ((= ty "symbol") (begin (advance-tok!) {:type "lit-symbol" :value v}))
-                  ((= ty "ident")
-                    (begin
-                      (advance-tok!)
-                      (cond
-                        ((= v "nil") {:type "lit-nil"})
-                        ((= v "true") {:type "lit-true"})
-                        ((= v "false") {:type "lit-false"})
-                        (else (error (str "st-parse: pragma arg must be literal, got ident " v))))))
-                  ((and (= ty "binary") (= v "-")
-                        (= (st-tok-type (peek-tok-at 1)) "number"))
-                    (let ((n (st-tok-value (peek-tok-at 1))))
-                      (begin
-                        (advance-tok!)
-                        (advance-tok!)
-                        {:type (if (integer? n) "lit-int" "lit-float")
-                         :value (- 0 n)})))
-                  (else
-                    (error
-                      (str "st-parse: pragma arg must be literal, got " ty))))))))
-
-        ;; Method header: unary | binary arg | (kw arg)+
-        (define
-          parse-method
-          (fn
-            ()
-            (let
-              ((sel "")
-                (params (list))
-                (temps (list))
-                (pragmas (list))
-                (body (list)))
-              (begin
-                (cond
-                  ;; Unary header
-                  ((at-type? "ident")
-                    (let ((t (peek-tok)))
-                      (begin (advance-tok!) (set! sel (st-tok-value t)))))
-                  ;; Binary header: binop ident
-                  ((at-type? "binary")
-                    (let ((t (peek-tok)))
-                      (begin
-                        (advance-tok!)
-                        (set! sel (st-tok-value t))
-                        (let ((p (consume! "ident" nil)))
-                          (append! params (st-tok-value p))))))
-                  ;; Keyword header: (kw ident)+
-                  ((at-type? "keyword")
-                    (let ((sel-parts (list)))
-                      (begin
-                        (define
-                          kh-loop
-                          (fn
-                            ()
-                            (when
-                              (at-type? "keyword")
-                              (let ((t (peek-tok)))
-                                (begin
-                                  (advance-tok!)
-                                  (append! sel-parts (st-tok-value t))
-                                  (let ((p (consume! "ident" nil)))
-                                    (append! params (st-tok-value p)))
-                                  (kh-loop))))))
-                        (kh-loop)
-                        (set! sel (join "" sel-parts)))))
-                  (else
-                    (error
-                      (str
-                        "st-parse-method: expected selector header, got "
-                        (st-tok-type (peek-tok))))))
-                ;; Pragmas and temps may appear in either order. Allow many
-                ;; pragmas; one temps section.
-                (define
-                  parse-temps!
-                  (fn
-                    ()
-                    (begin
-                      (advance-tok!)
-                      (define
-                        th-loop
-                        (fn
-                          ()
-                          (when
-                            (at-type? "ident")
-                            (let ((t (peek-tok)))
-                              (begin
-                                (advance-tok!)
-                                (append! temps (st-tok-value t))
-                                (th-loop))))))
-                      (th-loop)
-                      (consume! "bar" nil))))
-                (define
-                  pt-loop
-                  (fn
-                    ()
-                    (cond
-                      ((and
-                          (at? "binary" "<")
-                          (= (st-tok-type (peek-tok-at 1)) "keyword"))
-                        (begin (append! pragmas (parse-pragma)) (pt-loop)))
-                      ((and (at? "bar" nil) (= (len temps) 0))
-                        (begin (parse-temps!) (pt-loop)))
-                      (else nil))))
-                (pt-loop)
-                ;; Body statements
-                (set! body (parse-statements "eof"))
-                {:type "method"
-                 :selector sel
-                 :params params
-                 :temps temps
-                 :pragmas pragmas
-                 :body body}))))
-
-        ;; Top-level program: optional temp declaration, then statements
-        ;; separated by '.'. Pharo workspace-style scripts allow
-        ;; `| temps | body...` at the top level.
-        (cond
-          ((= mode "expr") (parse-expression))
-          ((= mode "method") (parse-method))
-          (else
-            (let ((temps (list)))
-              (begin
-                (when
-                  (at? "bar" nil)
-                  (begin
-                    (advance-tok!)
-                    (define
-                      tt-loop
-                      (fn
-                        ()
-                        (when
-                          (at-type? "ident")
-                          (let ((t (peek-tok)))
-                            (begin
-                              (advance-tok!)
-                              (append! temps (st-tok-value t))
-                              (tt-loop))))))
-                    (tt-loop)
-                    (consume! "bar" nil)))
-                {:type "seq" :temps temps :exprs (parse-statements "eof")}))))))))
--- a/lib/smalltalk/runtime.sx
+++ b/lib/smalltalk/runtime.sx
@@ -1,787 +0,0 @@
-;; Smalltalk runtime — class table, bootstrap hierarchy, type→class mapping,
-;; instance construction. Method dispatch / eval-ast live in a later layer.
-;;
-;; Class record shape:
-;;   {:name "Foo"
-;;    :superclass "Object"          ; or nil for Object itself
-;;    :ivars (list "x" "y")          ; instance variable names declared on this class
-;;    :methods   (dict selector→method-record)
-;;    :class-methods (dict selector→method-record)}
-;;
-;; A method record is the AST returned by st-parse-method, plus a :defining-class
-;; field so super-sends can resolve from the right place. (Methods are registered
-;; via runtime helpers that fill the field.)
-;;
-;; The class table is a single dict keyed by class name. Bootstrap installs the
-;; canonical hierarchy. Test code resets it via (st-bootstrap-classes!).
-
-(define st-class-table {})
-
-;; ── Method-lookup cache ────────────────────────────────────────────────
-;; Cache keys are "class|selector|side"; side is "i" (instance) or "c" (class).
-;; Misses are stored as the sentinel :not-found so we don't re-walk for
-;; every doesNotUnderstand call.
-(define st-method-cache {})
-(define st-method-cache-hits 0)
-(define st-method-cache-misses 0)
-
-(define
-  st-method-cache-clear!
-  (fn () (set! st-method-cache {})))
-
-;; Inline-cache generation. Eval-time IC slots check this; bumping it
-;; invalidates every cached call-site method record across the program.
-(define st-ic-generation 0)
-
-(define
-  st-ic-bump-generation!
-  (fn () (set! st-ic-generation (+ st-ic-generation 1))))
-
-(define
-  st-method-cache-key
-  (fn (cls sel class-side?) (str cls "|" sel "|" (if class-side? "c" "i"))))
-
-(define
-  st-method-cache-stats
-  (fn
-    ()
-    {:hits st-method-cache-hits
-     :misses st-method-cache-misses
-     :size (len (keys st-method-cache))}))
-
-(define
-  st-method-cache-reset-stats!
-  (fn ()
-    (begin
-      (set! st-method-cache-hits 0)
-      (set! st-method-cache-misses 0))))
-
-(define
-  st-class-table-clear!
-  (fn ()
-    (begin
-      (set! st-class-table {})
-      (st-method-cache-clear!))))
-
-(define
-  st-class-define!
-  (fn
-    (name superclass ivars)
-    (begin
-      (set!
-        st-class-table
-        (assoc
-          st-class-table
-          name
-          {:name name
-           :superclass superclass
-           :ivars ivars
-           :methods {}
-           :class-methods {}}))
-      ;; A redefined class can invalidate any cache entries that walked
-      ;; through its old position in the chain. Cheap + correct: drop all.
-      (st-method-cache-clear!)
-      name)))
-
-(define
-  st-class-get
-  (fn (name) (if (has-key? st-class-table name) (get st-class-table name) nil)))
-
-(define
-  st-class-exists?
-  (fn (name) (has-key? st-class-table name)))
-
-(define
-  st-class-superclass
-  (fn
-    (name)
-    (let
-      ((c (st-class-get name)))
-      (cond ((= c nil) nil) (else (get c :superclass))))))
-
-;; Walk class chain root-to-leaf? No, follow superclass chain leaf-to-root.
-;; Returns list of class names starting at `name` and ending with the root.
-(define
-  st-class-chain
-  (fn
-    (name)
-    (let ((acc (list)) (cur name))
-      (begin
-        (define
-          ch-loop
-          (fn
-            ()
-            (when
-              (and (not (= cur nil)) (st-class-exists? cur))
-              (begin
-                (append! acc cur)
-                (set! cur (st-class-superclass cur))
-                (ch-loop)))))
-        (ch-loop)
-        acc))))
-
-;; Inherited + own ivars in declaration order from root to leaf.
-(define
-  st-class-all-ivars
-  (fn
-    (name)
-    (let ((chain (reverse (st-class-chain name))) (out (list)))
-      (begin
-        (for-each
-          (fn
-            (cn)
-            (let
-              ((c (st-class-get cn)))
-              (when
-                (not (= c nil))
-                (for-each (fn (iv) (append! out iv)) (get c :ivars)))))
-          chain)
-        out))))
-
-;; Method install. The defining-class field is stamped on the method record
-;; so super-sends look up from the right point in the chain.
-(define
-  st-class-add-method!
-  (fn
-    (cls-name selector method-ast)
-    (let
-      ((cls (st-class-get cls-name)))
-      (cond
-        ((= cls nil) (error (str "st-class-add-method!: unknown class " cls-name)))
-        (else
-          (let
-            ((m (assoc method-ast :defining-class cls-name)))
-            (begin
-              (set!
-                st-class-table
-                (assoc
-                  st-class-table
-                  cls-name
-                  (assoc
-                    cls
-                    :methods
-                    (assoc (get cls :methods) selector m))))
-              (st-method-cache-clear!)
-              (st-ic-bump-generation!)
-              selector)))))))
-
-(define
-  st-class-add-class-method!
-  (fn
-    (cls-name selector method-ast)
-    (let
-      ((cls (st-class-get cls-name)))
-      (cond
-        ((= cls nil) (error (str "st-class-add-class-method!: unknown class " cls-name)))
-        (else
-          (let
-            ((m (assoc method-ast :defining-class cls-name)))
-            (begin
-              (set!
-                st-class-table
-                (assoc
-                  st-class-table
-                  cls-name
-                  (assoc
-                    cls
-                    :class-methods
-                    (assoc (get cls :class-methods) selector m))))
-              (st-method-cache-clear!)
-              (st-ic-bump-generation!)
-              selector)))))))
-
-;; Remove a method from a class (instance side). Mostly for tests; runtime
-;; reflection in Phase 4 will use the same primitive.
-(define
-  st-class-remove-method!
-  (fn
-    (cls-name selector)
-    (let ((cls (st-class-get cls-name)))
-      (cond
-        ((= cls nil) (error (str "st-class-remove-method!: unknown class " cls-name)))
-        (else
-          (let ((md (get cls :methods)))
-            (cond
-              ((not (has-key? md selector)) false)
-              (else
-                (let ((new-md {}))
-                  (begin
-                    (for-each
-                      (fn (k)
-                        (when (not (= k selector))
-                          (dict-set! new-md k (get md k))))
-                      (keys md))
-                    (set!
-                      st-class-table
-                      (assoc
-                        st-class-table
-                        cls-name
-                        (assoc cls :methods new-md)))
-                    (st-method-cache-clear!)
-                    (st-ic-bump-generation!)
-                    true))))))))))
-
-;; Walk-only lookup. Returns the method record (with :defining-class) or nil.
-;; class-side? = true searches :class-methods, false searches :methods.
-(define
-  st-method-lookup-walk
-  (fn
-    (cls-name selector class-side?)
-    (let
-      ((found nil))
-      (begin
-        (define
-          ml-loop
-          (fn
-            (cur)
-            (when
-              (and (= found nil) (not (= cur nil)) (st-class-exists? cur))
-              (let
-                ((c (st-class-get cur)))
-                (let
-                  ((dict (if class-side? (get c :class-methods) (get c :methods))))
-                  (cond
-                    ((has-key? dict selector) (set! found (get dict selector)))
-                    (else (ml-loop (get c :superclass)))))))))
-        (ml-loop cls-name)
-        found))))
-
-;; Cached lookup. Misses are stored as :not-found so doesNotUnderstand paths
-;; don't re-walk on every send.
-(define
-  st-method-lookup
-  (fn
-    (cls-name selector class-side?)
-    (let ((key (st-method-cache-key cls-name selector class-side?)))
-      (cond
-        ((has-key? st-method-cache key)
-          (begin
-            (set! st-method-cache-hits (+ st-method-cache-hits 1))
-            (let ((v (get st-method-cache key)))
-              (cond ((= v :not-found) nil) (else v)))))
-        (else
-          (begin
-            (set! st-method-cache-misses (+ st-method-cache-misses 1))
-            (let ((found (st-method-lookup-walk cls-name selector class-side?)))
-              (begin
-                (set!
-                  st-method-cache
-                  (assoc
-                    st-method-cache
-                    key
-                    (cond ((= found nil) :not-found) (else found))))
-                found))))))))
-
-;; SX value → Smalltalk class name. Native types are not boxed.
-(define
-  st-class-of
-  (fn
-    (v)
-    (cond
-      ((= v nil) "UndefinedObject")
-      ((= v true) "True")
-      ((= v false) "False")
-      ((integer? v) "SmallInteger")
-      ((number? v) "Float")
-      ((string? v) "String")
-      ((symbol? v) "Symbol")
-      ((list? v) "Array")
-      ((and (dict? v) (has-key? v :type) (= (get v :type) "st-instance"))
-        (get v :class))
-      ((and (dict? v) (has-key? v :type) (= (get v :type) "block"))
-        "BlockClosure")
-      ((and (dict? v) (has-key? v :st-block?) (get v :st-block?))
-        "BlockClosure")
-      ((dict? v) "Dictionary")
-      ((lambda? v) "BlockClosure")
-      (else "Object"))))
-
-;; Construct a fresh instance of cls-name. Ivars (own + inherited) start as nil.
-(define
-  st-make-instance
-  (fn
-    (cls-name)
-    (cond
-      ((not (st-class-exists? cls-name))
-        (error (str "st-make-instance: unknown class " cls-name)))
-      (else
-        (let
-          ((iv-names (st-class-all-ivars cls-name)) (ivars {}))
-          (begin
-            (for-each (fn (n) (set! ivars (assoc ivars n nil))) iv-names)
-            {:type "st-instance" :class cls-name :ivars ivars}))))))
-
-(define
-  st-instance?
-  (fn
-    (v)
-    (and (dict? v) (has-key? v :type) (= (get v :type) "st-instance"))))
-
-(define
-  st-iv-get
-  (fn
-    (inst name)
-    (let ((ivs (get inst :ivars)))
-      (if (has-key? ivs name) (get ivs name) nil))))
-
-(define
-  st-iv-set!
-  (fn
-    (inst name value)
-    (let
-      ((new-ivars (assoc (get inst :ivars) name value)))
-      (assoc inst :ivars new-ivars))))
-
-;; Inherits-from check: is `descendant` either equal to `ancestor` or a subclass?
-(define
-  st-class-inherits-from?
-  (fn
-    (descendant ancestor)
-    (let ((found false) (cur descendant))
-      (begin
-        (define
-          ih-loop
-          (fn
-            ()
-            (when
-              (and (not found) (not (= cur nil)) (st-class-exists? cur))
-              (cond
-                ((= cur ancestor) (set! found true))
-                (else
-                  (begin
-                    (set! cur (st-class-superclass cur))
-                    (ih-loop)))))))
-        (ih-loop)
-        found))))
-
-;; Bootstrap the canonical class hierarchy. Reset and rebuild.
-(define
-  st-bootstrap-classes!
-  (fn
-    ()
-    (begin
-      (st-class-table-clear!)
-      ;; Root
-      (st-class-define! "Object" nil (list))
-      ;; Class side machinery
-      (st-class-define! "Behavior" "Object" (list "superclass" "methodDict" "format"))
-      (st-class-define! "ClassDescription" "Behavior" (list "instanceVariables" "organization"))
-      (st-class-define! "Class" "ClassDescription" (list "name" "subclasses"))
-      (st-class-define! "Metaclass" "ClassDescription" (list "thisClass"))
-      ;; Pseudo-variable types
-      (st-class-define! "UndefinedObject" "Object" (list))
-      (st-class-define! "Boolean" "Object" (list))
-      (st-class-define! "True" "Boolean" (list))
-      (st-class-define! "False" "Boolean" (list))
-      ;; Magnitudes
-      (st-class-define! "Magnitude" "Object" (list))
-      (st-class-define! "Number" "Magnitude" (list))
-      (st-class-define! "Integer" "Number" (list))
-      (st-class-define! "SmallInteger" "Integer" (list))
-      (st-class-define! "LargePositiveInteger" "Integer" (list))
-      (st-class-define! "Float" "Number" (list))
-      (st-class-define! "Fraction" "Number" (list "numerator" "denominator"))
-      (st-class-define! "Character" "Magnitude" (list "value"))
-      ;; Collections
-      (st-class-define! "Collection" "Object" (list))
-      (st-class-define! "SequenceableCollection" "Collection" (list))
-      (st-class-define! "ArrayedCollection" "SequenceableCollection" (list))
-      (st-class-define! "Array" "ArrayedCollection" (list))
-      (st-class-define! "String" "ArrayedCollection" (list))
-      (st-class-define! "Symbol" "String" (list))
-      (st-class-define! "OrderedCollection" "SequenceableCollection" (list "array" "firstIndex" "lastIndex"))
-      ;; Hashed collection family
-      (st-class-define! "HashedCollection" "Collection" (list "array"))
-      (st-class-define! "Set" "HashedCollection" (list))
-      ;; Blocks / contexts
-      (st-class-define! "BlockClosure" "Object" (list))
-      ;; Reflection support — Message holds the selector/args for a DNU send.
-      (st-class-define! "Message" "Object" (list "selector" "arguments"))
-      (st-class-add-method! "Message" "selector"
-        (st-parse-method "selector ^ selector"))
-      (st-class-add-method! "Message" "arguments"
-        (st-parse-method "arguments ^ arguments"))
-      (st-class-add-method! "Message" "selector:"
-        (st-parse-method "selector: aSym selector := aSym"))
-      (st-class-add-method! "Message" "arguments:"
-        (st-parse-method "arguments: anArray arguments := anArray"))
-      ;; Exception hierarchy — Smalltalk's standard error system on top of
-      ;; SX's `guard`/`raise`. Subclassing Exception gives you on:do:,
-      ;; ensure:, ifCurtailed: catching out of the box.
-      (st-class-define! "Exception" "Object" (list "messageText"))
-      (st-class-add-method! "Exception" "messageText"
-        (st-parse-method "messageText ^ messageText"))
-      (st-class-add-method! "Exception" "messageText:"
-        (st-parse-method "messageText: aString messageText := aString. ^ self"))
-      (st-class-define! "Error" "Exception" (list))
-      (st-class-define! "ZeroDivide" "Error" (list))
-      (st-class-define! "MessageNotUnderstood" "Error" (list))
-      ;; SequenceableCollection — shared iteration / inspection methods.
-      ;; Defined on the parent class so Array, String, Symbol, and
-      ;; OrderedCollection all inherit. Each method calls `self do:`,
-      ;; which dispatches to the receiver's primitive do: implementation.
-      (st-class-add-method! "SequenceableCollection" "inject:into:"
-        (st-parse-method
-          "inject: initial into: aBlock
-             | acc |
-             acc := initial.
-             self do: [:e | acc := aBlock value: acc value: e].
-             ^ acc"))
-      (st-class-add-method! "SequenceableCollection" "detect:"
-        (st-parse-method
-          "detect: aBlock
-             self do: [:e | (aBlock value: e) ifTrue: [^ e]].
-             ^ nil"))
-      (st-class-add-method! "SequenceableCollection" "detect:ifNone:"
-        (st-parse-method
-          "detect: aBlock ifNone: noneBlock
-             self do: [:e | (aBlock value: e) ifTrue: [^ e]].
-             ^ noneBlock value"))
-      (st-class-add-method! "SequenceableCollection" "count:"
-        (st-parse-method
-          "count: aBlock
-             | n |
-             n := 0.
-             self do: [:e | (aBlock value: e) ifTrue: [n := n + 1]].
-             ^ n"))
-      (st-class-add-method! "SequenceableCollection" "allSatisfy:"
-        (st-parse-method
-          "allSatisfy: aBlock
-             self do: [:e | (aBlock value: e) ifFalse: [^ false]].
-             ^ true"))
-      (st-class-add-method! "SequenceableCollection" "anySatisfy:"
-        (st-parse-method
-          "anySatisfy: aBlock
-             self do: [:e | (aBlock value: e) ifTrue: [^ true]].
-             ^ false"))
-      (st-class-add-method! "SequenceableCollection" "includes:"
-        (st-parse-method
-          "includes: target
-             self do: [:e | e = target ifTrue: [^ true]].
-             ^ false"))
-      (st-class-add-method! "SequenceableCollection" "do:separatedBy:"
-        (st-parse-method
-          "do: aBlock separatedBy: sepBlock
-             | first |
-             first := true.
-             self do: [:e |
-               first ifFalse: [sepBlock value].
-               first := false.
-               aBlock value: e].
-             ^ self"))
-      (st-class-add-method! "SequenceableCollection" "indexOf:"
-        (st-parse-method
-          "indexOf: target
-             | idx |
-             idx := 1.
-             self do: [:e | e = target ifTrue: [^ idx]. idx := idx + 1].
-             ^ 0"))
-      (st-class-add-method! "SequenceableCollection" "indexOf:ifAbsent:"
-        (st-parse-method
-          "indexOf: target ifAbsent: noneBlock
-             | idx |
-             idx := 1.
-             self do: [:e | e = target ifTrue: [^ idx]. idx := idx + 1].
-             ^ noneBlock value"))
-      (st-class-add-method! "SequenceableCollection" "reject:"
-        (st-parse-method
-          "reject: aBlock ^ self select: [:e | (aBlock value: e) not]"))
-      (st-class-add-method! "SequenceableCollection" "isEmpty"
-        (st-parse-method "isEmpty ^ self size = 0"))
-      (st-class-add-method! "SequenceableCollection" "notEmpty"
-        (st-parse-method "notEmpty ^ self size > 0"))
-      ;; (no asString here — Symbol/String have their own primitive
-      ;; impls; SequenceableCollection-level fallback would overwrite
-      ;; the bare-name-for-Symbol behaviour.)
-      ;; Array class-side constructors for small fixed-arity literals.
-      (st-class-add-class-method! "Array" "with:"
-        (st-parse-method
-          "with: x | a | a := Array new: 1. a at: 1 put: x. ^ a"))
-      (st-class-add-class-method! "Array" "with:with:"
-        (st-parse-method
-          "with: a with: b
-             | r | r := Array new: 2.
-             r at: 1 put: a. r at: 2 put: b. ^ r"))
-      (st-class-add-class-method! "Array" "with:with:with:"
-        (st-parse-method
-          "with: a with: b with: c
-             | r | r := Array new: 3.
-             r at: 1 put: a. r at: 2 put: b. r at: 3 put: c. ^ r"))
-      (st-class-add-class-method! "Array" "with:with:with:with:"
-        (st-parse-method
-          "with: a with: b with: c with: d
-             | r | r := Array new: 4.
-             r at: 1 put: a. r at: 2 put: b. r at: 3 put: c. r at: 4 put: d. ^ r"))
-      ;; ── HashedCollection / Set / Dictionary ──
-      ;; Implemented as user instances with array-backed storage. Sets
-      ;; use a single `array` ivar; Dictionaries use parallel `keys`/
-      ;; `values` arrays. New is class-side and routes through `init`.
-      (st-class-add-method! "HashedCollection" "init"
-        (st-parse-method "init array := Array new: 0. ^ self"))
-      (st-class-add-method! "HashedCollection" "size"
-        (st-parse-method "size ^ array size"))
-      (st-class-add-method! "HashedCollection" "isEmpty"
-        (st-parse-method "isEmpty ^ array isEmpty"))
-      (st-class-add-method! "HashedCollection" "notEmpty"
-        (st-parse-method "notEmpty ^ array notEmpty"))
-      (st-class-add-method! "HashedCollection" "do:"
-        (st-parse-method "do: aBlock array do: aBlock. ^ self"))
-      (st-class-add-method! "HashedCollection" "asArray"
-        (st-parse-method "asArray ^ array"))
-      (st-class-add-class-method! "Set" "new"
-        (st-parse-method "new ^ super new init"))
-      (st-class-add-method! "Set" "add:"
-        (st-parse-method
-          "add: anObject
-             (self includes: anObject) ifFalse: [array add: anObject].
-             ^ anObject"))
-      (st-class-add-method! "Set" "addAll:"
-        (st-parse-method
-          "addAll: aCollection
-             aCollection do: [:e | self add: e].
-             ^ aCollection"))
-      (st-class-add-method! "Set" "remove:"
-        (st-parse-method
-          "remove: anObject
-             array := array reject: [:e | e = anObject].
-             ^ anObject"))
-      (st-class-add-method! "Set" "includes:"
-        (st-parse-method "includes: anObject ^ array includes: anObject"))
-      (st-class-define! "Dictionary" "HashedCollection" (list "keys" "values"))
-      (st-class-add-class-method! "Dictionary" "new"
-        (st-parse-method "new ^ super new init"))
-      (st-class-add-method! "Dictionary" "init"
-        (st-parse-method
-          "init keys := Array new: 0. values := Array new: 0. ^ self"))
-      (st-class-add-method! "Dictionary" "size"
-        (st-parse-method "size ^ keys size"))
-      (st-class-add-method! "Dictionary" "isEmpty"
-        (st-parse-method "isEmpty ^ keys isEmpty"))
-      (st-class-add-method! "Dictionary" "notEmpty"
-        (st-parse-method "notEmpty ^ keys notEmpty"))
-      (st-class-add-method! "Dictionary" "keys"
-        (st-parse-method "keys ^ keys"))
-      (st-class-add-method! "Dictionary" "values"
-        (st-parse-method "values ^ values"))
-      (st-class-add-method! "Dictionary" "at:"
-        (st-parse-method
-          "at: aKey
-             | i |
-             i := keys indexOf: aKey.
-             i = 0 ifTrue: [^ nil].
-             ^ values at: i"))
-      (st-class-add-method! "Dictionary" "at:ifAbsent:"
-        (st-parse-method
-          "at: aKey ifAbsent: aBlock
-             | i |
-             i := keys indexOf: aKey.
-             i = 0 ifTrue: [^ aBlock value].
-             ^ values at: i"))
-      (st-class-add-method! "Dictionary" "at:put:"
-        (st-parse-method
-          "at: aKey put: aValue
-             | i |
-             i := keys indexOf: aKey.
-             i = 0
-               ifTrue: [keys add: aKey. values add: aValue]
-               ifFalse: [values at: i put: aValue].
-             ^ aValue"))
-      (st-class-add-method! "Dictionary" "includesKey:"
-        (st-parse-method "includesKey: aKey ^ (keys indexOf: aKey) > 0"))
-      (st-class-add-method! "Dictionary" "removeKey:"
-        (st-parse-method
-          "removeKey: aKey
-             | i nk nv j |
-             i := keys indexOf: aKey.
-             i = 0 ifTrue: [^ nil].
-             nk := Array new: 0. nv := Array new: 0.
-             j := 1.
-             [j <= keys size] whileTrue: [
-               j = i ifFalse: [
-                 nk add: (keys at: j).
-                 nv add: (values at: j)].
-               j := j + 1].
-             keys := nk. values := nv.
-             ^ aKey"))
-      (st-class-add-method! "Dictionary" "do:"
-        (st-parse-method "do: aBlock values do: aBlock. ^ self"))
-      (st-class-add-method! "Dictionary" "keysDo:"
-        (st-parse-method "keysDo: aBlock keys do: aBlock. ^ self"))
-      (st-class-add-method! "Dictionary" "valuesDo:"
-        (st-parse-method "valuesDo: aBlock values do: aBlock. ^ self"))
-      (st-class-add-method! "Dictionary" "keysAndValuesDo:"
-        (st-parse-method
-          "keysAndValuesDo: aBlock
-             | i |
-             i := 1.
-             [i <= keys size] whileTrue: [
-               aBlock value: (keys at: i) value: (values at: i).
-               i := i + 1].
-             ^ self"))
-      (st-class-define! "IdentityDictionary" "Dictionary" (list))
-      ;; ── Stream hierarchy ──
-      ;; Streams wrap a collection with a 0-based `position`. Read/peek
-      ;; advance via `at:` (1-indexed Smalltalk-style) on the collection.
-      ;; Write streams require a mutable collection (Array works; String
-      ;; doesn't, see Phase 5 follow-up).
-      (st-class-define! "Stream" "Object" (list))
-      (st-class-define! "PositionableStream" "Stream" (list "collection" "position"))
-      (st-class-define! "ReadStream" "PositionableStream" (list))
-      (st-class-define! "WriteStream" "PositionableStream" (list))
-      (st-class-define! "ReadWriteStream" "WriteStream" (list))
-      (st-class-add-class-method! "ReadStream" "on:"
-        (st-parse-method "on: aColl ^ super new on: aColl"))
-      (st-class-add-class-method! "WriteStream" "on:"
-        (st-parse-method "on: aColl ^ super new on: aColl"))
-      (st-class-add-class-method! "WriteStream" "with:"
-        (st-parse-method
-          "with: aColl
-             | s |
-             s := super new on: aColl.
-             s setToEnd.
-             ^ s"))
-      (st-class-add-class-method! "ReadWriteStream" "on:"
-        (st-parse-method "on: aColl ^ super new on: aColl"))
-      (st-class-add-method! "PositionableStream" "on:"
-        (st-parse-method
-          "on: aColl collection := aColl. position := 0. ^ self"))
-      (st-class-add-method! "PositionableStream" "atEnd"
-        (st-parse-method "atEnd ^ position >= collection size"))
-      (st-class-add-method! "PositionableStream" "position"
-        (st-parse-method "position ^ position"))
-      (st-class-add-method! "PositionableStream" "position:"
-        (st-parse-method "position: n position := n. ^ self"))
-      (st-class-add-method! "PositionableStream" "reset"
-        (st-parse-method "reset position := 0. ^ self"))
-      (st-class-add-method! "PositionableStream" "setToEnd"
-        (st-parse-method "setToEnd position := collection size. ^ self"))
-      (st-class-add-method! "PositionableStream" "contents"
-        (st-parse-method "contents ^ collection"))
-      (st-class-add-method! "PositionableStream" "skip:"
-        (st-parse-method "skip: n position := position + n. ^ self"))
-      (st-class-add-method! "ReadStream" "next"
-        (st-parse-method
-          "next
-             self atEnd ifTrue: [^ nil].
-             position := position + 1.
-             ^ collection at: position"))
-      (st-class-add-method! "ReadStream" "peek"
-        (st-parse-method
-          "peek
-             self atEnd ifTrue: [^ nil].
-             ^ collection at: position + 1"))
-      (st-class-add-method! "ReadStream" "upToEnd"
-        (st-parse-method
-          "upToEnd
-             | result |
-             result := Array new: 0.
-             [self atEnd] whileFalse: [result add: self next].
-             ^ result"))
-      (st-class-add-method! "ReadStream" "next:"
-        (st-parse-method
-          "next: n
-             | result i |
-             result := Array new: 0.
-             i := 0.
-             [(i < n) and: [self atEnd not]] whileTrue: [
-               result add: self next.
-               i := i + 1].
-             ^ result"))
-      (st-class-add-method! "WriteStream" "nextPut:"
-        (st-parse-method
-          "nextPut: anObject
-             collection add: anObject.
-             position := position + 1.
-             ^ anObject"))
-      (st-class-add-method! "WriteStream" "nextPutAll:"
-        (st-parse-method
-          "nextPutAll: aCollection
-             aCollection do: [:e | self nextPut: e].
-             ^ aCollection"))
-      ;; ReadWriteStream inherits from WriteStream + ReadStream behaviour;
-      ;; for the simple linear-position model, both nextPut: and next work.
-      (st-class-add-method! "ReadWriteStream" "next"
-        (st-parse-method
-          "next
-             self atEnd ifTrue: [^ nil].
-             position := position + 1.
-             ^ collection at: position"))
-      (st-class-add-method! "ReadWriteStream" "peek"
-        (st-parse-method
-          "peek
-             self atEnd ifTrue: [^ nil].
-             ^ collection at: position + 1"))
-      ;; ── Fraction ──
-      ;; Rational numbers stored as numerator/denominator, normalized
-      ;; (sign on numerator, denominator > 0, reduced via gcd).
-      (st-class-add-class-method! "Fraction" "numerator:denominator:"
-        (st-parse-method
-          "numerator: n denominator: d
-             | f |
-             f := super new.
-             ^ f setNumerator: n denominator: d"))
-      (st-class-add-method! "Fraction" "setNumerator:denominator:"
-        (st-parse-method
-          "setNumerator: n denominator: d
-             | g s nn dd |
-             d = 0 ifTrue: [Error signal: 'Fraction denominator cannot be zero'].
-             s := (d < 0) ifTrue: [-1] ifFalse: [1].
-             nn := n * s. dd := d * s.
-             g := nn abs gcd: dd.
-             g = 0 ifTrue: [g := 1].
-             numerator := nn / g.
-             denominator := dd / g.
-             ^ self"))
-      (st-class-add-method! "Fraction" "numerator"
-        (st-parse-method "numerator ^ numerator"))
-      (st-class-add-method! "Fraction" "denominator"
-        (st-parse-method "denominator ^ denominator"))
-      (st-class-add-method! "Fraction" "+"
-        (st-parse-method
-          "+ other
-             ^ Fraction
-                 numerator: numerator * other denominator + (other numerator * denominator)
-                 denominator: denominator * other denominator"))
-      (st-class-add-method! "Fraction" "-"
-        (st-parse-method
-          "- other
-             ^ Fraction
-                 numerator: numerator * other denominator - (other numerator * denominator)
-                 denominator: denominator * other denominator"))
-      (st-class-add-method! "Fraction" "*"
-        (st-parse-method
-          "* other
-             ^ Fraction
-                 numerator: numerator * other numerator
-                 denominator: denominator * other denominator"))
-      (st-class-add-method! "Fraction" "/"
-        (st-parse-method
-          "/ other
-             ^ Fraction
-                 numerator: numerator * other denominator
-                 denominator: denominator * other numerator"))
-      (st-class-add-method! "Fraction" "negated"
-        (st-parse-method
-          "negated ^ Fraction numerator: numerator negated denominator: denominator"))
-      (st-class-add-method! "Fraction" "reciprocal"
-        (st-parse-method
-          "reciprocal ^ Fraction numerator: denominator denominator: numerator"))
-      (st-class-add-method! "Fraction" "="
-        (st-parse-method
-          "= other
-             ^ numerator = other numerator and: [denominator = other denominator]"))
-      (st-class-add-method! "Fraction" "<"
-        (st-parse-method
-          "< other
-             ^ numerator * other denominator < (other numerator * denominator)"))
-      (st-class-add-method! "Fraction" "asFloat"
-        (st-parse-method "asFloat ^ numerator / denominator"))
-      (st-class-add-method! "Fraction" "printString"
-        (st-parse-method
-          "printString ^ numerator printString , '/' , denominator printString"))
-      (st-class-add-method! "Fraction" "isFraction"
-        (st-parse-method "isFraction ^ true"))
-      "ok")))
-
-;; Initialise on load. Tests can re-bootstrap to reset state.
-(st-bootstrap-classes!)
--- a/lib/smalltalk/scoreboard.json
+++ b/lib/smalltalk/scoreboard.json
@@ -1,15 +0,0 @@
-{
-  "date": "2026-04-25T16:05:32Z",
-  "programs": [
-    "eight-queens.st",
-    "fibonacci.st",
-    "life.st",
-    "mandelbrot.st",
-    "quicksort.st"
-  ],
-  "program_count": 5,
-  "program_tests_passed": 39,
-  "all_tests_passed": 847,
-  "all_tests_total": 847,
-  "exit_code": 0
-}
--- a/lib/smalltalk/scoreboard.md
+++ b/lib/smalltalk/scoreboard.md
@@ -1,56 +0,0 @@
-# Smalltalk-on-SX Scoreboard
-
-_Last run: 2026-04-25T16:05:32Z_
-
-## Totals
-
-| Suite | Passing |
-|-------|---------|
-| All Smalltalk-on-SX tests | **847 / 847** |
-| Classic-corpus tests (`tests/programs.sx`) | **39** |
-
-## Classic-corpus programs (`lib/smalltalk/tests/programs/`)
-
-| Program | Status |
-|---------|--------|
-| `eight-queens.st` | present |
-| `fibonacci.st` | present |
-| `life.st` | present |
-| `mandelbrot.st` | present |
-| `quicksort.st` | present |
-
-## Per-file test counts
-
-```
-OK lib/smalltalk/tests/ansi.sx              62 passed
-OK lib/smalltalk/tests/blocks.sx            19 passed
-OK lib/smalltalk/tests/cannot_return.sx     5 passed
-OK lib/smalltalk/tests/collections.sx       29 passed
-OK lib/smalltalk/tests/conditional.sx       25 passed
-OK lib/smalltalk/tests/dnu.sx               15 passed
-OK lib/smalltalk/tests/eval.sx              68 passed
-OK lib/smalltalk/tests/exceptions.sx        15 passed
-OK lib/smalltalk/tests/hashed.sx            30 passed
-OK lib/smalltalk/tests/inline_cache.sx      10 passed
-OK lib/smalltalk/tests/intrinsics.sx        24 passed
-OK lib/smalltalk/tests/nlr.sx               14 passed
-OK lib/smalltalk/tests/numbers.sx           47 passed
-OK lib/smalltalk/tests/parse_chunks.sx      21 passed
-OK lib/smalltalk/tests/parse.sx             47 passed
-OK lib/smalltalk/tests/pharo.sx             91 passed
-OK lib/smalltalk/tests/printing.sx          19 passed
-OK lib/smalltalk/tests/programs.sx          39 passed
-OK lib/smalltalk/tests/reflection.sx        77 passed
-OK lib/smalltalk/tests/runtime.sx           64 passed
-OK lib/smalltalk/tests/streams.sx           21 passed
-OK lib/smalltalk/tests/sunit.sx             19 passed
-OK lib/smalltalk/tests/super.sx             9 passed
-OK lib/smalltalk/tests/tokenize.sx          63 passed
-OK lib/smalltalk/tests/while.sx             14 passed
-```
-
-## Notes
-
- The spec interpreter is correct but slow (call/cc + dict-based ivars per send).
- Larger Life multi-step verification, the 8-queens canonical case, and the glider-gun pattern are deferred to the JIT path.
- Generated by `bash lib/smalltalk/conformance.sh`. Both files are committed; the runner overwrites them on each run.
--- a/lib/smalltalk/sunit.sx
+++ b/lib/smalltalk/sunit.sx
@@ -1,153 +0,0 @@
-;; SUnit — minimal port written in SX-Smalltalk, run by smalltalk-load.
-;;
-;; Provides:
-;;   TestCase     — base class. Subclass it, add `testSomething` methods.
-;;   TestSuite    — a collection of TestCase instances; runs them all.
-;;   TestResult   — passes / failures / errors counts and lists.
-;;   TestFailure  — Error subclass raised by `assert:` and friends.
-;;
-;; Conventions:
-;;   - Test methods are run in a fresh instance per test.
-;;   - `setUp` is sent before each test; `tearDown` after.
-;;   - Failures are signalled by TestFailure; runner catches and records.
-
-(define
-  st-sunit-source
-  "Error subclass: #TestFailure
-     instanceVariableNames: ''!
-
-   Object subclass: #TestCase
-     instanceVariableNames: 'testSelector'!
-
-   !TestCase methodsFor: 'access'!
-   testSelector ^ testSelector!
-   testSelector: aSym testSelector := aSym. ^ self! !
-
-   !TestCase methodsFor: 'fixture'!
-   setUp ^ self!
-   tearDown ^ self! !
-
-   !TestCase methodsFor: 'asserts'!
-   assert: aBoolean
-     aBoolean ifFalse: [TestFailure signal: 'assertion failed'].
-     ^ self!
-
-   assert: aBoolean description: aString
-     aBoolean ifFalse: [TestFailure signal: aString].
-     ^ self!
-
-   assert: actual equals: expected
-     actual = expected ifFalse: [
-       TestFailure signal: 'expected ' , expected printString
-                           , ' but got ' , actual printString].
-     ^ self!
-
-   deny: aBoolean
-     aBoolean ifTrue: [TestFailure signal: 'denial failed'].
-     ^ self!
-
-   should: aBlock raise: anExceptionClass
-     | raised |
-     raised := false.
-     [aBlock value] on: anExceptionClass do: [:e | raised := true].
-     raised ifFalse: [
-       TestFailure signal: 'expected exception ' , anExceptionClass name
-                           , ' was not raised'].
-     ^ self!
-
-   shouldnt: aBlock raise: anExceptionClass
-     | raised |
-     raised := false.
-     [aBlock value] on: anExceptionClass do: [:e | raised := true].
-     raised ifTrue: [
-       TestFailure signal: 'unexpected exception ' , anExceptionClass name].
-     ^ self! !
-
-   !TestCase methodsFor: 'running'!
-   runCase
-     self setUp.
-     self perform: testSelector.
-     self tearDown.
-     ^ self! !
-
-   !TestCase class methodsFor: 'instantiation'!
-   selector: aSym ^ self new testSelector: aSym!
-
-   suiteForAll: aSelectorArray
-     | suite |
-     suite := TestSuite new init.
-     suite name: self name.
-     aSelectorArray do: [:s | suite addTest: (self selector: s)].
-     ^ suite! !
-
-   Object subclass: #TestResult
-     instanceVariableNames: 'passes failures errors'!
-
-   !TestResult methodsFor: 'init'!
-   init
-     passes := Array new: 0.
-     failures := Array new: 0.
-     errors := Array new: 0.
-     ^ self! !
-
-   !TestResult methodsFor: 'access'!
-   passes ^ passes!
-   failures ^ failures!
-   errors ^ errors!
-   passCount ^ passes size!
-   failureCount ^ failures size!
-   errorCount ^ errors size!
-   totalCount ^ passes size + failures size + errors size!
-
-   addPass: aTest passes add: aTest. ^ self!
-   addFailure: aTest message: aMsg
-     | rec |
-     rec := Array new: 2.
-     rec at: 1 put: aTest. rec at: 2 put: aMsg.
-     failures add: rec.
-     ^ self!
-   addError: aTest message: aMsg
-     | rec |
-     rec := Array new: 2.
-     rec at: 1 put: aTest. rec at: 2 put: aMsg.
-     errors add: rec.
-     ^ self!
-
-   isEmpty ^ self totalCount = 0!
-   allPassed ^ (failures size + errors size) = 0!
-
-   summary
-     ^ 'Tests: {1}  Passed: {2}  Failed: {3}  Errors: {4}'
-         format: (Array
-                    with: self totalCount printString
-                    with: passes size printString
-                    with: failures size printString
-                    with: errors size printString)! !
-
-   Object subclass: #TestSuite
-     instanceVariableNames: 'tests name'!
-
-   !TestSuite methodsFor: 'init'!
-   init tests := Array new: 0. name := 'Suite'. ^ self!
-   name ^ name!
-   name: aString name := aString. ^ self! !
-
-   !TestSuite methodsFor: 'tests'!
-   tests ^ tests!
-   addTest: aTest tests add: aTest. ^ self!
-   addAll: aCollection aCollection do: [:t | self addTest: t]. ^ self!
-   size ^ tests size! !
-
-   !TestSuite methodsFor: 'running'!
-   run
-     | result |
-     result := TestResult new init.
-     tests do: [:t | self runTest: t result: result].
-     ^ result!
-
-   runTest: aTest result: aResult
-     [aTest runCase. aResult addPass: aTest]
-       on: TestFailure do: [:e | aResult addFailure: aTest message: e messageText].
-     ^ self! !")
-
-(smalltalk-load st-sunit-source)
--- a/lib/smalltalk/test.sh
+++ b/lib/smalltalk/test.sh
@@ -1,145 +0,0 @@
-#!/usr/bin/env bash
-# Fast Smalltalk-on-SX test runner — pipes directly to sx_server.exe.
-# Mirrors lib/haskell/test.sh.
-#
-# Usage:
-#   bash lib/smalltalk/test.sh                     # run all tests
-#   bash lib/smalltalk/test.sh -v                  # verbose
-#   bash lib/smalltalk/test.sh tests/tokenize.sx   # run one file
-
-set -uo pipefail
-cd "$(git rev-parse --show-toplevel)"
-
-SX_SERVER="hosts/ocaml/_build/default/bin/sx_server.exe"
-if [ ! -x "$SX_SERVER" ]; then
-  MAIN_ROOT=$(git worktree list | head -1 | awk '{print $1}')
-  if [ -x "$MAIN_ROOT/$SX_SERVER" ]; then
-    SX_SERVER="$MAIN_ROOT/$SX_SERVER"
-  else
-    echo "ERROR: sx_server.exe not found. Run: cd hosts/ocaml && dune build"
-    exit 1
-  fi
-fi
-
-VERBOSE=""
-FILES=()
-for arg in "$@"; do
-  case "$arg" in
-    -v|--verbose) VERBOSE=1 ;;
-    *) FILES+=("$arg") ;;
-  esac
-done
-
-if [ ${#FILES[@]} -eq 0 ]; then
-  # tokenize.sx must load first — it defines the st-test helpers reused by
-  # subsequent test files. Sort enforces this lexicographically.
-  mapfile -t FILES < <(find lib/smalltalk/tests -maxdepth 2 -name '*.sx' | sort)
-fi
-
-TOTAL_PASS=0
-TOTAL_FAIL=0
-FAILED_FILES=()
-
-for FILE in "${FILES[@]}"; do
-  [ -f "$FILE" ] || { echo "skip $FILE (not found)"; continue; }
-  TMPFILE=$(mktemp)
-  if [ "$(basename "$FILE")" = "tokenize.sx" ]; then
-    cat > "$TMPFILE" <<EPOCHS
-(epoch 1)
-(load "lib/smalltalk/tokenizer.sx")
-(epoch 2)
-(load "$FILE")
-(epoch 3)
-(eval "(list st-test-pass st-test-fail)")
-EPOCHS
-  else
-    cat > "$TMPFILE" <<EPOCHS
-(epoch 1)
-(load "lib/smalltalk/tokenizer.sx")
-(epoch 2)
-(load "lib/smalltalk/parser.sx")
-(epoch 3)
-(load "lib/smalltalk/runtime.sx")
-(epoch 4)
-(load "lib/smalltalk/eval.sx")
-(epoch 5)
-(load "lib/smalltalk/sunit.sx")
-(epoch 6)
-(load "lib/smalltalk/tests/tokenize.sx")
-(epoch 7)
-(load "$FILE")
-(epoch 8)
-(eval "(list st-test-pass st-test-fail)")
-EPOCHS
-  fi
-
-  OUTPUT=$(timeout 180 "$SX_SERVER" < "$TMPFILE" 2>&1 || true)
-  rm -f "$TMPFILE"
-
-  # Final epoch's value: either (ok N (P F)) on one line or
-  # (ok-len N M)\n(P F) where the value is on the following line.
-  LINE=$(echo "$OUTPUT" | awk '/^\(ok-len [0-9]+ / {getline; print}' | tail -1)
-  if [ -z "$LINE" ]; then
-    LINE=$(echo "$OUTPUT" | grep -E '^\(ok [0-9]+ \([0-9]+ [0-9]+\)\)' | tail -1 \
-            | sed -E 's/^\(ok [0-9]+ //; s/\)$//')
-  fi
-  if [ -z "$LINE" ]; then
-    echo "X $FILE: could not extract summary"
-    echo "$OUTPUT" | tail -30
-    TOTAL_FAIL=$((TOTAL_FAIL + 1))
-    FAILED_FILES+=("$FILE")
-    continue
-  fi
-  P=$(echo "$LINE" | sed -E 's/^\(([0-9]+) ([0-9]+)\).*/\1/')
-  F=$(echo "$LINE" | sed -E 's/^\(([0-9]+) ([0-9]+)\).*/\2/')
-  TOTAL_PASS=$((TOTAL_PASS + P))
-  TOTAL_FAIL=$((TOTAL_FAIL + F))
-  if [ "$F" -gt 0 ]; then
-    FAILED_FILES+=("$FILE")
-    printf 'X %-40s %d/%d\n' "$FILE" "$P" "$((P+F))"
-    TMPFILE2=$(mktemp)
-    if [ "$(basename "$FILE")" = "tokenize.sx" ]; then
-      cat > "$TMPFILE2" <<EPOCHS
-(epoch 1)
-(load "lib/smalltalk/tokenizer.sx")
-(epoch 2)
-(load "$FILE")
-(epoch 3)
-(eval "(map (fn (f) (get f :name)) st-test-fails)")
-EPOCHS
-    else
-      cat > "$TMPFILE2" <<EPOCHS
-(epoch 1)
-(load "lib/smalltalk/tokenizer.sx")
-(epoch 2)
-(load "lib/smalltalk/parser.sx")
-(epoch 3)
-(load "lib/smalltalk/runtime.sx")
-(epoch 4)
-(load "lib/smalltalk/eval.sx")
-(epoch 5)
-(load "lib/smalltalk/sunit.sx")
-(epoch 6)
-(load "lib/smalltalk/tests/tokenize.sx")
-(epoch 7)
-(load "$FILE")
-(epoch 8)
-(eval "(map (fn (f) (get f :name)) st-test-fails)")
-EPOCHS
-    fi
-    FAILS=$(timeout 180 "$SX_SERVER" < "$TMPFILE2" 2>&1 | grep -E '^\(ok [0-9]+ \(' | tail -1 || true)
-    rm -f "$TMPFILE2"
-    echo "    $FAILS"
-  elif [ "$VERBOSE" = "1" ]; then
-    printf 'OK %-40s %d passed\n' "$FILE" "$P"
-  fi
-done
-
-TOTAL=$((TOTAL_PASS + TOTAL_FAIL))
-if [ $TOTAL_FAIL -eq 0 ]; then
-  echo "OK $TOTAL_PASS/$TOTAL smalltalk-on-sx tests passed"
-else
-  echo "FAIL $TOTAL_PASS/$TOTAL passed, $TOTAL_FAIL failed in: ${FAILED_FILES[*]}"
-fi
-
-[ $TOTAL_FAIL -eq 0 ]
--- a/lib/smalltalk/tests/ansi.sx
+++ b/lib/smalltalk/tests/ansi.sx
@@ -1,158 +0,0 @@
-;; ANSI X3J20 Smalltalk validator — stretch subset.
-;;
-;; Targets the mandatory protocols documented in the standard; one test
-;; case per ANSI §6.x category. Test methods are run through the SUnit
-;; framework; one st-test row per Smalltalk method (mirrors tests/pharo.sx).
-
-(set! st-test-pass 0)
-(set! st-test-fail 0)
-(set! st-test-fails (list))
-
-(define
-  ansi-source
-  "TestCase subclass: #AnsiObjectTest instanceVariableNames: ''!
-
-   !AnsiObjectTest methodsFor: '6.10 Object'!
-   testIdentity self assert: 42 == 42!
-   testIdentityNotEq self deny: 'a' == 'b'!
-   testEqualityIsAlsoIdentityOnInts self assert: 7 = 7!
-   testNotEqual self assert: (1 ~= 2)!
-   testIsNilOnNil self assert: nil isNil!
-   testIsNilOnInt self deny: 1 isNil!
-   testNotNil self assert: 42 notNil!
-   testClass self assert: 42 class = SmallInteger!
-   testYourself
-     | x | x := 99.
-     self assert: x yourself equals: 99! !
-
-   TestCase subclass: #AnsiBooleanTest instanceVariableNames: ''!
-
-   !AnsiBooleanTest methodsFor: '6.11 Boolean'!
-   testNot self assert: true not equals: false!
-   testAndTT self assert: (true & true)!
-   testAndTF self deny: (true & false)!
-   testAndFT self deny: (false & true)!
-   testAndFF self deny: (false & false)!
-   testOrTT self assert: (true | true)!
-   testOrTF self assert: (true | false)!
-   testOrFT self assert: (false | true)!
-   testOrFF self deny: (false | false)!
-   testIfTrueTaken self assert: (true ifTrue: [1] ifFalse: [2]) equals: 1!
-   testIfFalseTaken self assert: (false ifTrue: [1] ifFalse: [2]) equals: 2!
-   testAndShort self assert: (false and: [1/0]) equals: false!
-   testOrShort self assert: (true or: [1/0]) equals: true! !
-
-   TestCase subclass: #AnsiIntegerTest instanceVariableNames: ''!
-
-   !AnsiIntegerTest methodsFor: '6.13 Integer'!
-   testFactorial self assert: 6 factorial equals: 720!
-   testGcd self assert: (12 gcd: 18) equals: 6!
-   testLcm self assert: (4 lcm: 6) equals: 12!
-   testEven self assert: 8 even!
-   testOdd self assert: 9 odd!
-   testNegated self assert: 5 negated equals: -5!
-   testAbs self assert: -7 abs equals: 7! !
-
-   !AnsiIntegerTest methodsFor: '6.12 Number arithmetic'!
-   testAdd self assert: 1 + 2 equals: 3!
-   testSub self assert: 10 - 4 equals: 6!
-   testMul self assert: 6 * 7 equals: 42!
-   testMin self assert: (3 min: 7) equals: 3!
-   testMax self assert: (3 max: 7) equals: 7!
-   testBetween self assert: (5 between: 1 and: 10)! !
-
-   TestCase subclass: #AnsiStringTest instanceVariableNames: ''!
-
-   !AnsiStringTest methodsFor: '6.17 String'!
-   testSize self assert: 'abcdef' size equals: 6!
-   testConcat self assert: ('foo' , 'bar') equals: 'foobar'!
-   testAt self assert: ('abcd' at: 3) equals: 'c'!
-   testCopyFromTo self assert: ('helloworld' copyFrom: 1 to: 5) equals: 'hello'!
-   testAsSymbol self assert: 'foo' asSymbol == #foo!
-   testIsEmpty self assert: '' isEmpty! !
-
-   TestCase subclass: #AnsiArrayTest instanceVariableNames: ''!
-
-   !AnsiArrayTest methodsFor: '6.18 Array'!
-   testSize self assert: #(1 2 3) size equals: 3!
-   testAt self assert: (#(10 20 30) at: 2) equals: 20!
-   testAtPut
-     | a |
-     a := Array new: 3.
-     a at: 1 put: 100.
-     self assert: (a at: 1) equals: 100!
-   testDo
-     | s |
-     s := 0.
-     #(1 2 3) do: [:e | s := s + e].
-     self assert: s equals: 6!
-   testCollect self assert: (#(1 2 3) collect: [:x | x + 10]) equals: #(11 12 13)!
-   testSelect self assert: (#(1 2 3 4) select: [:x | x even]) equals: #(2 4)!
-   testReject self assert: (#(1 2 3 4) reject: [:x | x even]) equals: #(1 3)!
-   testInject self assert: (#(1 2 3 4 5) inject: 0 into: [:a :b | a + b]) equals: 15!
-   testIncludes self assert: (#(1 2 3) includes: 2)!
-   testFirst self assert: #(7 8 9) first equals: 7!
-   testLast self assert: #(7 8 9) last equals: 9! !
-
-   TestCase subclass: #AnsiBlockTest instanceVariableNames: ''!
-
-   !AnsiBlockTest methodsFor: '6.19 BlockContext'!
-   testValue self assert: [42] value equals: 42!
-   testValueOne self assert: ([:x | x * 2] value: 21) equals: 42!
-   testValueTwo self assert: ([:a :b | a + b] value: 3 value: 4) equals: 7!
-   testNumArgs self assert: [:a :b | a] numArgs equals: 2!
-   testValueWithArguments
-     self assert: ([:a :b | a , b] valueWithArguments: #('foo' 'bar')) equals: 'foobar'!
-   testWhileTrue
-     | n |
-     n := 5.
-     [n > 0] whileTrue: [n := n - 1].
-     self assert: n equals: 0!
-   testEnsureRunsOnNormal
-     | log |
-     log := Array new: 0.
-     [log add: #body] ensure: [log add: #cleanup].
-     self assert: log size equals: 2!
-   testOnDoCatchesError
-     | r |
-     r := [Error signal: 'boom'] on: Error do: [:e | e messageText].
-     self assert: r equals: 'boom'! !
-
-   TestCase subclass: #AnsiSymbolTest instanceVariableNames: ''!
-
-   !AnsiSymbolTest methodsFor: '6.16 Symbol'!
-   testEqual self assert: #foo = #foo!
-   testIdentity self assert: #bar == #bar!
-   testNotEq self deny: #a == #b! !")
-
-(smalltalk-load ansi-source)
-
-(define
-  pharo-test-class
-  (fn
-    (cls-name)
-    (let ((selectors (sort (keys (get (st-class-get cls-name) :methods)))))
-      (for-each
-        (fn (sel)
-          (when
-            (and (>= (len sel) 4) (= (slice sel 0 4) "test"))
-            (let
-              ((src (str "| s r | s := " cls-name " suiteForAll: #(#"
-                         sel "). r := s run.
-                         ^ {(r passCount). (r failureCount). (r errorCount)}")))
-              (let ((result (smalltalk-eval-program src)))
-                (st-test
-                  (str cls-name " >> " sel)
-                  result
-                  (list 1 0 0))))))
-        selectors))))
-
-(pharo-test-class "AnsiObjectTest")
-(pharo-test-class "AnsiBooleanTest")
-(pharo-test-class "AnsiIntegerTest")
-(pharo-test-class "AnsiStringTest")
-(pharo-test-class "AnsiArrayTest")
-(pharo-test-class "AnsiBlockTest")
-(pharo-test-class "AnsiSymbolTest")
-
-(list st-test-pass st-test-fail)
--- a/lib/smalltalk/tests/blocks.sx
+++ b/lib/smalltalk/tests/blocks.sx
@@ -1,92 +0,0 @@
-;; BlockContext>>value family tests.
-;;
-;; The runtime already implements value, value:, value:value:, value:value:value:,
-;; value:value:value:value:, and valueWithArguments: in st-block-dispatch.
-;; This file pins each variant down with explicit tests + closure semantics.
-
-(set! st-test-pass 0)
-(set! st-test-fail 0)
-(set! st-test-fails (list))
-
-(st-bootstrap-classes!)
-(define ev (fn (src) (smalltalk-eval src)))
-(define evp (fn (src) (smalltalk-eval-program src)))
-
-;; ── 1. The value/valueN family ──
-(st-test "value: zero-arg block"     (ev "[42] value")                              42)
-(st-test "value: one-arg block"      (ev "[:a | a + 1] value: 10")                  11)
-(st-test "value:value: two-arg"       (ev "[:a :b | a * b] value: 3 value: 4")       12)
-(st-test "value:value:value: three"  (ev "[:a :b :c | a + b + c] value: 1 value: 2 value: 3") 6)
-(st-test "value:value:value:value: four"
-  (ev "[:a :b :c :d | a + b + c + d] value: 1 value: 2 value: 3 value: 4")          10)
-
-;; ── 2. valueWithArguments: ──
-(st-test "valueWithArguments: zero-arg"
-  (ev "[99] valueWithArguments: #()")                                               99)
-(st-test "valueWithArguments: one-arg"
-  (ev "[:x | x * x] valueWithArguments: #(7)")                                      49)
-(st-test "valueWithArguments: many"
-  (ev "[:a :b :c | a , b , c] valueWithArguments: #('foo' '-' 'bar')")              "foo-bar")
-
-;; ── 3. Block returns last expression ──
-(st-test "block last-expression result" (ev "[1. 2. 3] value") 3)
-(st-test "block with temps initial state"
-  (ev "[| t u | t := 5. u := t * 2. u] value") 10)
-
-;; ── 4. Closure over outer locals ──
-(st-test
-  "block reads outer let temps"
-  (evp "| n | n := 5. ^ [n * n] value")
-  25)
-(st-test
-  "block writes outer locals (mutating)"
-  (evp "| n | n := 10. [:x | n := n + x] value: 5. ^ n")
-  15)
-
-;; ── 5. Block sees later mutation of captured local ──
-(st-test
-  "block re-reads outer local on each invocation"
-  (evp
-    "| n b r1 r2 |
-     n := 1. b := [n].
-     r1 := b value.
-     n := 99.
-     r2 := b value.
-     ^ r1 + r2")
-  100)
-
-;; ── 6. Re-entrant invocations ──
-(st-test
-  "calling same block twice independent results"
-  (evp
-    "| sq |
-     sq := [:x | x * x].
-     ^ (sq value: 3) + (sq value: 4)")
-  25)
-
-;; ── 7. Nested blocks ──
-(st-test
-  "nested block closes over both scopes"
-  (evp
-    "| a |
-     a := [:x | [:y | x + y]].
-     ^ ((a value: 10) value: 5)")
-  15)
-
-;; ── 8. Block as method argument ──
-(st-class-define! "BlockUser" "Object" (list))
-(st-class-add-method! "BlockUser" "apply:to:"
-  (st-parse-method "apply: aBlock to: x ^ aBlock value: x"))
-
-(st-test
-  "method invokes block argument"
-  (evp "^ BlockUser new apply: [:n | n * n] to: 9")
-  81)
-
-;; ── 9. numArgs + class ──
-(st-test "numArgs zero"    (ev "[] numArgs")        0)
-(st-test "numArgs three"   (ev "[:a :b :c | a] numArgs") 3)
-(st-test "block class is BlockClosure"
-  (str (ev "[1] class name")) "BlockClosure")
-
-(list st-test-pass st-test-fail)
--- a/lib/smalltalk/tests/cannot_return.sx
+++ b/lib/smalltalk/tests/cannot_return.sx
@@ -1,96 +0,0 @@
-;; cannotReturn: tests — escape past a returned-from method must error.
-;;
-;; A block stored or invoked after its creating method has returned
-;; carries a stale ^k. Invoking ^expr through that k must raise (in real
-;; Smalltalk: BlockContext>>cannotReturn:; here: an SX error tagged
-;; with that selector). A normal value-returning block (no ^) is fine.
-
-(set! st-test-pass 0)
-(set! st-test-fail 0)
-(set! st-test-fails (list))
-
-(st-bootstrap-classes!)
-(define ev (fn (src) (smalltalk-eval src)))
-(define evp (fn (src) (smalltalk-eval-program src)))
-
-;; helper: substring check on actual SX strings
-(define
-  str-contains?
-  (fn (s sub)
-    (let ((n (len s)) (m (len sub)) (i 0) (found false))
-      (begin
-        (define
-          sc-loop
-          (fn ()
-            (when
-              (and (not found) (<= (+ i m) n))
-              (cond
-                ((= (slice s i (+ i m)) sub) (set! found true))
-                (else (begin (set! i (+ i 1)) (sc-loop)))))))
-        (sc-loop)
-        found))))
-
-;; ── 1. Block kept past method return — invocation with ^ must fail ──
-(st-class-define! "BlockBox" "Object" (list "block"))
-(st-class-add-method! "BlockBox" "block:"
-  (st-parse-method "block: aBlock block := aBlock. ^ self"))
-(st-class-add-method! "BlockBox" "block"
-  (st-parse-method "block ^ block"))
-
-;; A method whose return-value is a block that does ^ inside.
-;; Once `escapingBlock` returns, its ^k is dead.
-(st-class-define! "Trapper" "Object" (list))
-(st-class-add-method! "Trapper" "stash"
-  (st-parse-method "stash | b | b := [^ #shouldNeverHappen]. ^ b"))
-
-(define stale-block-test
-  (guard
-    (c (true {:caught true :msg (str c)}))
-    (let ((b (evp "^ Trapper new stash")))
-      (begin
-        (st-block-apply b (list))
-        {:caught false :msg nil}))))
-
-(st-test
-  "invoking ^block from a returned method raises"
-  (get stale-block-test :caught)
-  true)
-
-(st-test
-  "error message mentions cannotReturn:"
-  (let ((m (get stale-block-test :msg)))
-    (or
-      (and (string? m) (> (len m) 0) (str-contains? m "cannotReturn"))
-      false))
-  true)
-
-;; ── 2. A normal (non-^) block survives just fine across methods ──
-(st-class-add-method! "Trapper" "stashAdder"
-  (st-parse-method "stashAdder ^ [:x | x + 100]"))
-
-(st-test
-  "non-^ block keeps working after creating method returns"
-  (let ((b (evp "^ Trapper new stashAdder")))
-    (st-block-apply b (list 5)))
-  105)
-
-;; ── 3. Active-cell threading: ^ from a block invoked synchronously inside
-;;     the creating method's own activation works fine.
-(st-class-add-method! "Trapper" "syncFlow"
-  (st-parse-method "syncFlow #(1 2 3) do: [:e | e = 2 ifTrue: [^ #foundTwo]]. ^ #notFound"))
-(st-test "synchronous ^ from block still works"
-  (str (evp "^ Trapper new syncFlow"))
-  "foundTwo")
-
-;; ── 4. Active-cell flips back to live for re-invocations ──
-;; Calling the same method twice creates two independent cells; the second
-;; call's block is fresh.
-(st-class-add-method! "Trapper" "secondOK"
-  (st-parse-method "secondOK ^ #ok"))
-(st-test "method called twice in sequence still works"
-  (let ((a (evp "^ Trapper new secondOK"))
-        (b (evp "^ Trapper new secondOK")))
-    (str (str a b)))
-  "okok")
-
-(list st-test-pass st-test-fail)
--- a/lib/smalltalk/tests/collections.sx
+++ b/lib/smalltalk/tests/collections.sx
@@ -1,115 +0,0 @@
-;; Phase 5 collection tests — methods on SequenceableCollection / Array /
-;; String / Symbol. Emphasis on the inherited-from-SequenceableCollection
-;; methods that work uniformly across Array, String, Symbol.
-
-(set! st-test-pass 0)
-(set! st-test-fail 0)
-(set! st-test-fails (list))
-
-(st-bootstrap-classes!)
-(define ev (fn (src) (smalltalk-eval src)))
-(define evp (fn (src) (smalltalk-eval-program src)))
-
-;; ── 1. inject:into: (fold) ──
-(st-test "Array inject:into: sum"
-  (ev "#(1 2 3 4) inject: 0 into: [:a :b | a + b]") 10)
-
-(st-test "Array inject:into: product"
-  (ev "#(2 3 4) inject: 1 into: [:a :b | a * b]") 24)
-
-(st-test "Array inject:into: empty array → initial"
-  (ev "#() inject: 99 into: [:a :b | a + b]") 99)
-
-;; ── 2. detect: / detect:ifNone: ──
-(st-test "detect: finds first match"
-  (ev "#(1 3 5 7) detect: [:x | x > 4]") 5)
-
-(st-test "detect: returns nil if no match"
-  (ev "#(1 2 3) detect: [:x | x > 10]") nil)
-
-(st-test "detect:ifNone: invokes block on miss"
-  (ev "#(1 2 3) detect: [:x | x > 10] ifNone: [#none]")
-  (make-symbol "none"))
-
-;; ── 3. count: ──
-(st-test "count: matches"
-  (ev "#(1 2 3 4 5 6) count: [:x | x > 3]") 3)
-
-(st-test "count: zero matches"
-  (ev "#(1 2 3) count: [:x | x > 100]") 0)
-
-;; ── 4. allSatisfy: / anySatisfy: ──
-(st-test "allSatisfy: when all match"
-  (ev "#(2 4 6) allSatisfy: [:x | x > 0]") true)
-
-(st-test "allSatisfy: when one fails"
-  (ev "#(2 4 -1) allSatisfy: [:x | x > 0]") false)
-
-(st-test "anySatisfy: when at least one matches"
-  (ev "#(1 2 3) anySatisfy: [:x | x > 2]") true)
-
-(st-test "anySatisfy: when none match"
-  (ev "#(1 2 3) anySatisfy: [:x | x > 100]") false)
-
-;; ── 5. includes: ──
-(st-test "includes: found"  (ev "#(1 2 3) includes: 2") true)
-(st-test "includes: missing" (ev "#(1 2 3) includes: 99") false)
-
-;; ── 6. indexOf: / indexOf:ifAbsent: ──
-(st-test "indexOf: returns 1-based index"
-  (ev "#(10 20 30 40) indexOf: 30") 3)
-
-(st-test "indexOf: missing returns 0"
-  (ev "#(1 2 3) indexOf: 99") 0)
-
-(st-test "indexOf:ifAbsent: invokes block"
-  (ev "#(1 2 3) indexOf: 99 ifAbsent: [-1]") -1)
-
-;; ── 7. reject: (complement of select:) ──
-(st-test "reject: removes matching"
-  (ev "#(1 2 3 4 5) reject: [:x | x > 3]")
-  (list 1 2 3))
-
-;; ── 8. do:separatedBy: ──
-(st-test "do:separatedBy: builds joined sequence"
-  (evp
-    "| seen |
-     seen := #().
-     #(1 2 3) do: [:e | seen := seen , (Array with: e)]
-              separatedBy: [seen := seen , #(0)].
-     ^ seen")
-  (list 1 0 2 0 3))
-
-;; Array with: shim for the test (inherited from earlier exception tests
-;; in a separate suite — define here for safety).
-(st-class-add-class-method! "Array" "with:"
-  (st-parse-method "with: x | a | a := Array new: 1. a at: 1 put: x. ^ a"))
-
-;; ── 9. String inherits the same methods ──
-(st-test "String includes:"
-  (ev "'abcde' includes: $c") true)
-
-(st-test "String count:"
-  (ev "'banana' count: [:c | c = $a]") 3)
-
-(st-test "String inject:into: concatenates"
-  (ev "'abc' inject: '' into: [:acc :c | acc , c , c]")
-  "aabbcc")
-
-(st-test "String allSatisfy:"
-  (ev "'abc' allSatisfy: [:c | c = $a or: [c = $b or: [c = $c]]]") true)
-
-;; ── 10. String primitives: at:, copyFrom:to:, do:, first, last ──
-(st-test "String at: 1-indexed"  (ev "'hello' at: 1") "h")
-(st-test "String at: middle"      (ev "'hello' at: 3") "l")
-(st-test "String first"           (ev "'hello' first") "h")
-(st-test "String last"            (ev "'hello' last") "o")
-(st-test "String copyFrom:to:"
-  (ev "'helloworld' copyFrom: 3 to: 7") "llowo")
-
-;; ── 11. isEmpty / notEmpty go through SequenceableCollection too ──
-;; (Already in primitives; the inherited versions agree.)
-(st-test "Array isEmpty"   (ev "#() isEmpty") true)
-(st-test "Array notEmpty"  (ev "#(1) notEmpty") true)
-
-(list st-test-pass st-test-fail)
--- a/lib/smalltalk/tests/conditional.sx
+++ b/lib/smalltalk/tests/conditional.sx
@@ -1,104 +0,0 @@
-;; ifTrue: / ifFalse: / ifTrue:ifFalse: / ifFalse:ifTrue: tests.
-;;
-;; In Smalltalk these are *block sends* on Boolean. The runtime can
-;; intrinsify the dispatch in the JIT (already provided by the bytecode
-;; expansion infrastructure) but the spec semantics are: True/False
-;; receive these messages and pick which branch block to evaluate.
-
-(set! st-test-pass 0)
-(set! st-test-fail 0)
-(set! st-test-fails (list))
-
-(st-bootstrap-classes!)
-(define ev (fn (src) (smalltalk-eval src)))
-(define evp (fn (src) (smalltalk-eval-program src)))
-
-;; ── 1. ifTrue: ──
-(st-test "true ifTrue: → block value"   (ev "true  ifTrue: [42]") 42)
-(st-test "false ifTrue: → nil"          (ev "false ifTrue: [42]") nil)
-
-;; ── 2. ifFalse: ──
-(st-test "true ifFalse: → nil"          (ev "true  ifFalse: [42]") nil)
-(st-test "false ifFalse: → block value" (ev "false ifFalse: [42]") 42)
-
-;; ── 3. ifTrue:ifFalse: ──
-(st-test "true ifTrue:ifFalse:"         (ev "true  ifTrue: [1] ifFalse: [2]") 1)
-(st-test "false ifTrue:ifFalse:"        (ev "false ifTrue: [1] ifFalse: [2]") 2)
-
-;; ── 4. ifFalse:ifTrue: (reversed-order keyword) ──
-(st-test "true ifFalse:ifTrue:"         (ev "true  ifFalse: [1] ifTrue: [2]") 2)
-(st-test "false ifFalse:ifTrue:"        (ev "false ifFalse: [1] ifTrue: [2]") 1)
-
-;; ── 5. The non-taken branch is NOT evaluated (laziness) ──
-(st-test
-  "ifTrue: doesn't evaluate the false branch"
-  (evp
-    "| ran |
-     ran := false.
-     true ifTrue: [99] ifFalse: [ran := true. 0].
-     ^ ran")
-  false)
-(st-test
-  "ifFalse: doesn't evaluate the true branch"
-  (evp
-    "| ran |
-     ran := false.
-     false ifTrue: [ran := true. 99] ifFalse: [0].
-     ^ ran")
-  false)
-
-;; ── 6. Branch result type can be anything ──
-(st-test "branch returns string" (ev "true ifTrue: ['yes'] ifFalse: ['no']") "yes")
-(st-test "branch returns nil"    (ev "true ifTrue: [nil] ifFalse: [99]") nil)
-(st-test "branch returns array"  (ev "false ifTrue: [#(1)] ifFalse: [#(2 3)]") (list 2 3))
-
-;; ── 7. Nested if ──
-(st-test
-  "nested ifTrue:ifFalse:"
-  (evp
-    "| x |
-     x := 5.
-     ^ x > 0
-         ifTrue: [x > 10
-                    ifTrue: [#big]
-                    ifFalse: [#smallPositive]]
-         ifFalse: [#nonPositive]")
-  (make-symbol "smallPositive"))
-
-;; ── 8. Branch reads outer locals (closure semantics) ──
-(st-test
-  "branch closes over outer bindings"
-  (evp
-    "| label x |
-     x := 7.
-     label := x > 0
-                ifTrue: [#positive]
-                ifFalse: [#nonPositive].
-     ^ label")
-  (make-symbol "positive"))
-
-;; ── 9. and: / or: short-circuit ──
-(st-test "and: short-circuits when receiver false"
-  (ev "false and: [1/0]") false)
-(st-test "and: with true receiver runs second" (ev "true and: [42]") 42)
-(st-test "or: short-circuits when receiver true"
-  (ev "true or: [1/0]") true)
-(st-test "or: with false receiver runs second" (ev "false or: [99]") 99)
-
-;; ── 10. & and | are eager (not blocks) ──
-(st-test "& on booleans"   (ev "true & true")   true)
-(st-test "| on booleans"   (ev "false | true")  true)
-
-;; ── 11. Boolean negation ──
-(st-test "not on true"  (ev "true not")  false)
-(st-test "not on false" (ev "false not") true)
-
-;; ── 12. Real-world idiom: max via ifTrue:ifFalse: in a method ──
-(st-class-define! "Mathy" "Object" (list))
-(st-class-add-method! "Mathy" "myMax:and:"
-  (st-parse-method "myMax: a and: b ^ a > b ifTrue: [a] ifFalse: [b]"))
-
-(st-test "method using ifTrue:ifFalse: returns max" (evp "^ Mathy new myMax: 3 and: 7") 7)
-(st-test "method using ifTrue:ifFalse: returns max sym" (evp "^ Mathy new myMax: 9 and: 4") 9)
-
-(list st-test-pass st-test-fail)
--- a/lib/smalltalk/tests/dnu.sx
+++ b/lib/smalltalk/tests/dnu.sx
@@ -1,107 +0,0 @@
-;; doesNotUnderstand: tests.
-
-(set! st-test-pass 0)
-(set! st-test-fail 0)
-(set! st-test-fails (list))
-
-(st-bootstrap-classes!)
-
-(define ev (fn (src) (smalltalk-eval src)))
-(define evp (fn (src) (smalltalk-eval-program src)))
-
-;; ── 1. Bootstrap installs Message class ──
-(st-test "Message exists in bootstrap" (st-class-exists? "Message") true)
-(st-test
-  "Message has expected ivars"
-  (sort (get (st-class-get "Message") :ivars))
-  (sort (list "selector" "arguments")))
-
-;; ── 2. Building a Message directly ──
-(define m (st-make-message "frob:" (list 1 2 3)))
-(st-test "make-message produces st-instance" (st-instance? m) true)
-(st-test "message class" (get m :class) "Message")
-(st-test "message selector ivar"
-  (str (get (get m :ivars) "selector"))
-  "frob:")
-(st-test "message arguments ivar" (get (get m :ivars) "arguments") (list 1 2 3))
-
-;; ── 3. User override of doesNotUnderstand: intercepts unknown sends ──
-(st-class-define! "Logger" "Object" (list "log"))
-(st-class-add-method! "Logger" "log"
-  (st-parse-method "log ^ log"))
-(st-class-add-method! "Logger" "init"
-  (st-parse-method "init log := nil. ^ self"))
-(st-class-add-method! "Logger" "doesNotUnderstand:"
-  (st-parse-method
-    "doesNotUnderstand: aMessage
-       log := aMessage selector.
-       ^ #handled"))
-
-(st-test
-  "user DNU intercepts unknown send"
-  (str
-    (evp "| l | l := Logger new init. l frobnicate. ^ l log"))
-  "frobnicate")
-
-(st-test
-  "user DNU returns its own value"
-  (str (evp "| l | l := Logger new init. ^ l frobnicate"))
-  "handled")
-
-;; Arguments are captured.
-(st-class-add-method! "Logger" "doesNotUnderstand:"
-  (st-parse-method
-    "doesNotUnderstand: aMessage
-       log := aMessage arguments.
-       ^ #handled"))
-
-(st-test
-  "user DNU sees args in Message"
-  (evp "| l | l := Logger new init. l zip: 1 zap: 2. ^ l log")
-  (list 1 2))
-
-;; ── 4. DNU on native receiver ─────────────────────────────────────────
-;; Adding doesNotUnderstand: on Object catches any-receiver sends.
-(st-class-add-method! "Object" "doesNotUnderstand:"
-  (st-parse-method
-    "doesNotUnderstand: aMessage ^ aMessage selector"))
-
-(st-test "Object DNU intercepts on SmallInteger"
-  (str (ev "42 frobnicate"))
-  "frobnicate")
-
-(st-test "Object DNU intercepts on String"
-  (str (ev "'hi' bogusmessage"))
-  "bogusmessage")
-
-(st-test "Object DNU sees arguments"
-  ;; Re-define Object DNU to return the args array.
-  (begin
-    (st-class-add-method! "Object" "doesNotUnderstand:"
-      (st-parse-method "doesNotUnderstand: aMessage ^ aMessage arguments"))
-    (ev "42 plop: 1 plop: 2"))
-  (list 1 2))
-
-;; ── 5. Subclass DNU overrides Object DNU ──────────────────────────────
-(st-class-define! "Proxy" "Object" (list))
-(st-class-add-method! "Proxy" "doesNotUnderstand:"
-  (st-parse-method "doesNotUnderstand: aMessage ^ #proxyHandled"))
-
-(st-test "subclass DNU wins over Object DNU"
-  (str (evp "^ Proxy new whatever"))
-  "proxyHandled")
-
-;; ── 6. Defined methods bypass DNU ─────────────────────────────────────
-(st-class-add-method! "Proxy" "known" (st-parse-method "known ^ 7"))
-(st-test "defined method wins over DNU"
-  (evp "^ Proxy new known")
-  7)
-
-;; ── 7. Block doesNotUnderstand: routes via Object ─────────────────────
-(st-class-add-method! "Object" "doesNotUnderstand:"
-  (st-parse-method "doesNotUnderstand: aMessage ^ #blockDnu"))
-(st-test "block unknown selector goes to DNU"
-  (str (ev "[1] frobnicate"))
-  "blockDnu")
-
-(list st-test-pass st-test-fail)
--- a/lib/smalltalk/tests/eval.sx
+++ b/lib/smalltalk/tests/eval.sx
@@ -1,181 +0,0 @@
-;; Smalltalk evaluator tests — sequential semantics, message dispatch on
-;; native + user receivers, blocks, cascades, return.
-
-(set! st-test-pass 0)
-(set! st-test-fail 0)
-(set! st-test-fails (list))
-
-(st-bootstrap-classes!)
-
-(define ev (fn (src) (smalltalk-eval src)))
-(define evp (fn (src) (smalltalk-eval-program src)))
-
-;; ── 1. Literals ──
-(st-test "int literal" (ev "42") 42)
-(st-test "float literal" (ev "3.14") 3.14)
-(st-test "string literal" (ev "'hi'") "hi")
-(st-test "char literal" (ev "$a") "a")
-(st-test "nil literal" (ev "nil") nil)
-(st-test "true literal" (ev "true") true)
-(st-test "false literal" (ev "false") false)
-(st-test "symbol literal" (str (ev "#foo")) "foo")
-(st-test "negative literal" (ev "-7") -7)
-(st-test "literal array of ints" (ev "#(1 2 3)") (list 1 2 3))
-(st-test "byte array" (ev "#[1 2 3]") (list 1 2 3))
-
-;; ── 2. Number primitives ──
-(st-test "addition" (ev "1 + 2") 3)
-(st-test "subtraction" (ev "10 - 3") 7)
-(st-test "multiplication" (ev "4 * 5") 20)
-(st-test "left-assoc" (ev "1 + 2 + 3") 6)
-(st-test "binary then unary" (ev "10 + 2 negated") 8)
-(st-test "less-than" (ev "1 < 2") true)
-(st-test "greater-than-or-eq" (ev "5 >= 5") true)
-(st-test "not-equal" (ev "1 ~= 2") true)
-(st-test "abs" (ev "-7 abs") 7)
-(st-test "max:" (ev "3 max: 7") 7)
-(st-test "min:" (ev "3 min: 7") 3)
-(st-test "between:and:" (ev "5 between: 1 and: 10") true)
-(st-test "printString of int" (ev "42 printString") "42")
-
-;; ── 3. Boolean primitives ──
-(st-test "true not" (ev "true not") false)
-(st-test "false not" (ev "false not") true)
-(st-test "true & false" (ev "true & false") false)
-(st-test "true | false" (ev "true | false") true)
-(st-test "ifTrue: with true" (ev "true ifTrue: [99]") 99)
-(st-test "ifTrue: with false" (ev "false ifTrue: [99]") nil)
-(st-test "ifTrue:ifFalse: true branch" (ev "true ifTrue: [1] ifFalse: [2]") 1)
-(st-test "ifTrue:ifFalse: false branch" (ev "false ifTrue: [1] ifFalse: [2]") 2)
-(st-test "and: short-circuit" (ev "false and: [1/0]") false)
-(st-test "or: short-circuit" (ev "true or: [1/0]") true)
-
-;; ── 4. Nil primitives ──
-(st-test "isNil on nil" (ev "nil isNil") true)
-(st-test "notNil on nil" (ev "nil notNil") false)
-(st-test "isNil on int" (ev "42 isNil") false)
-(st-test "ifNil: on nil" (ev "nil ifNil: ['was nil']") "was nil")
-(st-test "ifNil: on int" (ev "42 ifNil: ['was nil']") nil)
-
-;; ── 5. String primitives ──
-(st-test "string concat" (ev "'hello, ' , 'world'") "hello, world")
-(st-test "string size" (ev "'abc' size") 3)
-(st-test "string equality" (ev "'a' = 'a'") true)
-(st-test "string isEmpty" (ev "'' isEmpty") true)
-
-;; ── 6. Blocks ──
-(st-test "value of empty block" (ev "[42] value") 42)
-(st-test "value: one-arg block" (ev "[:x | x + 1] value: 10") 11)
-(st-test "value:value: two-arg block" (ev "[:a :b | a * b] value: 3 value: 4") 12)
-(st-test "block with temps" (ev "[| t | t := 5. t * t] value") 25)
-(st-test "block returns last expression" (ev "[1. 2. 3] value") 3)
-(st-test "valueWithArguments:" (ev "[:a :b | a + b] valueWithArguments: #(2 3)") 5)
-(st-test "block numArgs" (ev "[:a :b :c | a] numArgs") 3)
-
-;; ── 7. Closures over outer locals ──
-(st-test
-  "block closes over outer let — top-level temps"
-  (evp "| outer | outer := 100. ^ [:x | x + outer] value: 5")
-  105)
-
-;; ── 8. Cascades ──
-(st-test "simple cascade returns last" (ev "10 + 1; + 2; + 3") 13)
-
-;; ── 9. Sequences and assignment ──
-(st-test "sequence returns last" (evp "1. 2. 3") 3)
-(st-test
-  "assignment + use"
-  (evp "| x | x := 10. x := x + 1. ^ x")
-  11)
-
-;; ── 10. Top-level return ──
-(st-test "explicit return" (evp "^ 42") 42)
-(st-test "return from sequence" (evp "1. ^ 99. 100") 99)
-
-;; ── 11. Array primitives ──
-(st-test "array size" (ev "#(1 2 3 4) size") 4)
-(st-test "array at:" (ev "#(10 20 30) at: 2") 20)
-(st-test
-  "array do: sums elements"
-  (evp "| sum | sum := 0. #(1 2 3 4) do: [:e | sum := sum + e]. ^ sum")
-  10)
-(st-test
-  "array collect:"
-  (ev "#(1 2 3) collect: [:x | x * x]")
-  (list 1 4 9))
-(st-test
-  "array select:"
-  (ev "#(1 2 3 4 5) select: [:x | x > 2]")
-  (list 3 4 5))
-
-;; ── 12. While loop ──
-(st-test
-  "whileTrue: counts down"
-  (evp "| n | n := 5. [n > 0] whileTrue: [n := n - 1]. ^ n")
-  0)
-(st-test
-  "to:do: sums 1..10"
-  (evp "| s | s := 0. 1 to: 10 do: [:i | s := s + i]. ^ s")
-  55)
-
-;; ── 13. User classes — instance variables, methods, send ──
-(st-bootstrap-classes!)
-(st-class-define! "Point" "Object" (list "x" "y"))
-(st-class-add-method! "Point" "x"  (st-parse-method "x ^ x"))
-(st-class-add-method! "Point" "y"  (st-parse-method "y ^ y"))
-(st-class-add-method! "Point" "x:" (st-parse-method "x: v x := v"))
-(st-class-add-method! "Point" "y:" (st-parse-method "y: v y := v"))
-(st-class-add-method! "Point" "+"
-  (st-parse-method "+ other ^ (Point new x: x + other x; y: y + other y; yourself)"))
-(st-class-add-method! "Point" "yourself" (st-parse-method "yourself ^ self"))
-(st-class-add-method! "Point" "printOn:"
-  (st-parse-method "printOn: s ^ x printString , '@' , y printString"))
-
-(st-test
-  "send method: simple ivar reader"
-  (evp "| p | p := Point new. p x: 3. p y: 4. ^ p x")
-  3)
-
-(st-test
-  "method composes via cascade"
-  (evp "| p | p := Point new x: 7; y: 8; yourself. ^ p y")
-  8)
-
-(st-test
-  "method calling another method"
-  (evp "| a b c | a := Point new x: 1; y: 2; yourself.
-        b := Point new x: 10; y: 20; yourself.
-        c := a + b. ^ c x")
-  11)
-
-;; ── 14. Method invocation arity check ──
-(st-test
-  "method arity error"
-  (let ((err nil))
-    (begin
-      ;; expects arity check on user method via wrong number of args
-      (define
-        try-bad
-        (fn ()
-          (evp "Point new x: 1 y: 2")))
-      ;; We don't actually call try-bad — the parser would form a different selector
-      ;; ('x:y:'). Instead, manually invoke an invalid arity:
-      (st-class-define! "ArityCheck" "Object" (list))
-      (st-class-add-method! "ArityCheck" "foo:" (st-parse-method "foo: x ^ x"))
-      err))
-  nil)
-
-;; ── 15. Class-side primitives via class ref ──
-(st-test
-  "class new returns instance"
-  (st-instance? (ev "Point new"))
-  true)
-(st-test
-  "class name"
-  (ev "Point name")
-  "Point")
-
-;; ── 16. doesNotUnderstand path raises (we just check it errors) ──
-;; Skipped for this iteration — covered when DNU box is implemented.
-
-(list st-test-pass st-test-fail)
--- a/lib/smalltalk/tests/exceptions.sx
+++ b/lib/smalltalk/tests/exceptions.sx
@@ -1,122 +0,0 @@
-;; Exception tests — Exception, Error, signal, signal:, on:do:,
-;; ensure:, ifCurtailed: built on SX guard/raise.
-
-(set! st-test-pass 0)
-(set! st-test-fail 0)
-(set! st-test-fails (list))
-
-(st-bootstrap-classes!)
-(define ev (fn (src) (smalltalk-eval src)))
-(define evp (fn (src) (smalltalk-eval-program src)))
-
-;; ── 1. Bootstrap classes ──
-(st-test "Exception exists" (st-class-exists? "Exception") true)
-(st-test "Error exists" (st-class-exists? "Error") true)
-(st-test "Error inherits from Exception"
-  (st-class-inherits-from? "Error" "Exception") true)
-(st-test "ZeroDivide < Error" (st-class-inherits-from? "ZeroDivide" "Error") true)
-
-;; ── 2. on:do: catches a matching Exception ──
-(st-test "on:do: catches matching class"
-  (str (evp "^ [Error signal] on: Error do: [:e | #caught]"))
-  "caught")
-
-(st-test "on:do: catches subclass match"
-  (str (evp "^ [ZeroDivide signal] on: Error do: [:e | #caught]"))
-  "caught")
-
-(st-test "on:do: returns block result on no raise"
-  (evp "^ [42] on: Error do: [:e | 99]")
-  42)
-
-;; ── 3. signal: sets messageText on the exception ──
-(st-test "on:do: sees messageText from signal:"
-  (evp
-    "^ [Error signal: 'boom'] on: Error do: [:e | e messageText]")
-  "boom")
-
-;; ── 4. on:do: lets non-matching exceptions propagate ──
-;; Skipped: the SX guard's re-raise from a non-matching predicate to an
-;; outer guard hangs in nested-handler scenarios. The single-handler path
-;; works fine.
-
-;; ── 5. ensure: runs cleanup on normal completion ──
-(st-class-define! "Tracker" "Object" (list "log"))
-(st-class-add-method! "Tracker" "init"
-  (st-parse-method "init log := #(). ^ self"))
-(st-class-add-method! "Tracker" "log"
-  (st-parse-method "log ^ log"))
-(st-class-add-method! "Tracker" "log:"
-  (st-parse-method "log: msg log := log , (Array with: msg). ^ self"))
-
-;; The Array with: helper: provide a class-side `with:` that returns a
-;; one-element Array.
-(st-class-add-class-method! "Array" "with:"
-  (st-parse-method "with: x | a | a := Array new: 1. a at: 1 put: x. ^ a"))
-
-(st-test "ensure: runs cleanup on normal completion"
-  (evp
-    "| t |
-     t := Tracker new init.
-     [t log: #body] ensure: [t log: #cleanup].
-     ^ t log")
-  (list (make-symbol "body") (make-symbol "cleanup")))
-
-(st-test "ensure: returns the body's value"
-  (evp "^ [42] ensure: [99]") 42)
-
-;; ── 6. ensure: runs cleanup on raise, then propagates ──
-(st-test "ensure: runs cleanup on raise"
-  (evp
-    "| t result |
-     t := Tracker new init.
-     result := [[t log: #body. Error signal: 'oops']
-                  ensure: [t log: #cleanup]]
-                on: Error do: [:e | t log: #handler].
-     ^ t log")
-  (list
-    (make-symbol "body")
-    (make-symbol "cleanup")
-    (make-symbol "handler")))
-
-;; ── 7. ifCurtailed: runs cleanup ONLY on raise ──
-(st-test "ifCurtailed: skips cleanup on normal completion"
-  (evp
-    "| t |
-     t := Tracker new init.
-     [t log: #body] ifCurtailed: [t log: #cleanup].
-     ^ t log")
-  (list (make-symbol "body")))
-
-(st-test "ifCurtailed: runs cleanup on raise"
-  (evp
-    "| t |
-     t := Tracker new init.
-     [[t log: #body. Error signal: 'oops']
-        ifCurtailed: [t log: #cleanup]]
-       on: Error do: [:e | t log: #handler].
-     ^ t log")
-  (list
-    (make-symbol "body")
-    (make-symbol "cleanup")
-    (make-symbol "handler")))
-
-;; ── 8. Nested on:do: — innermost matching wins ──
-(st-test "innermost handler wins"
-  (str
-    (evp
-      "^ [[Error signal] on: Error do: [:e | #inner]]
-          on: Error do: [:e | #outer]"))
-  "inner")
-
-;; ── 9. Re-raise from a handler ──
-;; Skipped along with #4 above — same nested-handler propagation issue.
-
-;; ── 10. on:do: handler sees the exception's class ──
-(st-test "handler sees exception class"
-  (str
-    (evp
-      "^ [Error signal: 'x'] on: Error do: [:e | e class name]"))
-  "Error")
-
-(list st-test-pass st-test-fail)
--- a/lib/smalltalk/tests/hashed.sx
+++ b/lib/smalltalk/tests/hashed.sx
@@ -1,216 +0,0 @@
-;; HashedCollection / Set / Dictionary / IdentityDictionary tests.
-;; These are user classes implemented in `runtime.sx` with array-backed
-;; storage. Set: single ivar `array`. Dictionary: parallel `keys`/`values`.
-
-(set! st-test-pass 0)
-(set! st-test-fail 0)
-(set! st-test-fails (list))
-
-(st-bootstrap-classes!)
-(define ev (fn (src) (smalltalk-eval src)))
-(define evp (fn (src) (smalltalk-eval-program src)))
-
-;; ── 1. Class hierarchy ──
-(st-test "Set < HashedCollection" (st-class-inherits-from? "Set" "HashedCollection") true)
-(st-test "Dictionary < HashedCollection" (st-class-inherits-from? "Dictionary" "HashedCollection") true)
-(st-test "IdentityDictionary < Dictionary"
-  (st-class-inherits-from? "IdentityDictionary" "Dictionary") true)
-
-;; ── 2. Set basics ──
-(st-test "fresh Set is empty"
-  (evp "^ Set new isEmpty") true)
-
-(st-test "Set add: + size"
-  (evp
-    "| s |
-     s := Set new.
-     s add: 1. s add: 2. s add: 3.
-     ^ s size")
-  3)
-
-(st-test "Set add: deduplicates"
-  (evp
-    "| s |
-     s := Set new.
-     s add: 1. s add: 1. s add: 1.
-     ^ s size")
-  1)
-
-(st-test "Set includes: found"
-  (evp
-    "| s | s := Set new. s add: #a. s add: #b. ^ s includes: #a")
-  true)
-
-(st-test "Set includes: missing"
-  (evp
-    "| s | s := Set new. s add: #a. ^ s includes: #z")
-  false)
-
-(st-test "Set remove: drops the element"
-  (evp
-    "| s |
-     s := Set new.
-     s add: 1. s add: 2. s add: 3.
-     s remove: 2.
-     ^ s includes: 2")
-  false)
-
-(st-test "Set remove: keeps the others"
-  (evp
-    "| s |
-     s := Set new.
-     s add: 1. s add: 2. s add: 3.
-     s remove: 2.
-     ^ s size")
-  2)
-
-(st-test "Set do: iterates"
-  (evp
-    "| s sum |
-     s := Set new.
-     s add: 1. s add: 2. s add: 3.
-     sum := 0.
-     s do: [:e | sum := sum + e].
-     ^ sum")
-  6)
-
-(st-test "Set addAll: with an Array"
-  (evp
-    "| s |
-     s := Set new.
-     s addAll: #(1 2 3 2 1).
-     ^ s size")
-  3)
-
-;; ── 3. Dictionary basics ──
-(st-test "fresh Dictionary is empty"
-  (evp "^ Dictionary new isEmpty") true)
-
-(st-test "Dictionary at:put: + at:"
-  (evp
-    "| d |
-     d := Dictionary new.
-     d at: #a put: 1.
-     d at: #b put: 2.
-     ^ d at: #a")
-  1)
-
-(st-test "Dictionary at: missing key returns nil"
-  (evp "^ Dictionary new at: #nope") nil)
-
-(st-test "Dictionary at:ifAbsent: invokes block"
-  (evp "^ Dictionary new at: #nope ifAbsent: [#absent]")
-  (make-symbol "absent"))
-
-(st-test "Dictionary at:put: overwrite"
-  (evp
-    "| d |
-     d := Dictionary new.
-     d at: #x put: 1.
-     d at: #x put: 99.
-     ^ d at: #x")
-  99)
-
-(st-test "Dictionary size after several puts"
-  (evp
-    "| d |
-     d := Dictionary new.
-     d at: #a put: 1. d at: #b put: 2. d at: #c put: 3.
-     ^ d size")
-  3)
-
-(st-test "Dictionary includesKey: found"
-  (evp
-    "| d | d := Dictionary new. d at: #a put: 1. ^ d includesKey: #a")
-  true)
-
-(st-test "Dictionary includesKey: missing"
-  (evp
-    "| d | d := Dictionary new. d at: #a put: 1. ^ d includesKey: #z")
-  false)
-
-(st-test "Dictionary removeKey:"
-  (evp
-    "| d |
-     d := Dictionary new.
-     d at: #a put: 1. d at: #b put: 2. d at: #c put: 3.
-     d removeKey: #b.
-     ^ d size")
-  2)
-
-(st-test "Dictionary removeKey: drops only that key"
-  (evp
-    "| d |
-     d := Dictionary new.
-     d at: #a put: 1. d at: #b put: 2. d at: #c put: 3.
-     d removeKey: #b.
-     ^ d at: #a")
-  1)
-
-;; ── 4. Dictionary iteration ──
-(st-test "Dictionary do: yields values"
-  (evp
-    "| d sum |
-     d := Dictionary new.
-     d at: #a put: 1. d at: #b put: 2. d at: #c put: 3.
-     sum := 0.
-     d do: [:v | sum := sum + v].
-     ^ sum")
-  6)
-
-(st-test "Dictionary keysDo: yields keys"
-  (evp
-    "| d log |
-     d := Dictionary new.
-     d at: #a put: 1. d at: #b put: 2.
-     log := #().
-     d keysDo: [:k | log := log , (Array with: k)].
-     ^ log size")
-  2)
-
-(st-test "Dictionary keysAndValuesDo:"
-  (evp
-    "| d total |
-     d := Dictionary new.
-     d at: #a put: 10. d at: #b put: 20.
-     total := 0.
-     d keysAndValuesDo: [:k :v | total := total + v].
-     ^ total")
-  30)
-
-;; Helper used by some tests above:
-(st-class-add-class-method! "Array" "with:"
-  (st-parse-method "with: x | a | a := Array new: 1. a at: 1 put: x. ^ a"))
-
-(st-test "Dictionary keys returns Array"
-  (sort
-    (evp
-      "| d | d := Dictionary new.
-       d at: #x put: 1. d at: #y put: 2. d at: #z put: 3.
-       ^ d keys"))
-  (sort (list (make-symbol "x") (make-symbol "y") (make-symbol "z"))))
-
-(st-test "Dictionary values returns Array"
-  (sort
-    (evp
-      "| d | d := Dictionary new.
-       d at: #x put: 100. d at: #y put: 200.
-       ^ d values"))
-  (sort (list 100 200)))
-
-;; ── 5. Set / Dictionary integration with collection methods ──
-(st-test "Dictionary at:put: returns the value"
-  (evp
-    "| d r |
-     d := Dictionary new.
-     r := d at: #a put: 42.
-     ^ r")
-  42)
-
-(st-test "Set has its class"
-  (evp "^ Set new class name") "Set")
-
-(st-test "Dictionary has its class"
-  (evp "^ Dictionary new class name") "Dictionary")
-
-(list st-test-pass st-test-fail)
--- a/lib/smalltalk/tests/inline_cache.sx
+++ b/lib/smalltalk/tests/inline_cache.sx
@@ -1,78 +0,0 @@
-;; Inline-cache tests — verify the per-call-site IC slot fires on hot
-;; sends and is invalidated by class-table mutations.
-
-(set! st-test-pass 0)
-(set! st-test-fail 0)
-(set! st-test-fails (list))
-
-(st-bootstrap-classes!)
-(define ev (fn (src) (smalltalk-eval src)))
-(define evp (fn (src) (smalltalk-eval-program src)))
-
-;; ── 1. Counters exist ──
-(st-test "stats has :hits"   (has-key? (st-ic-stats) :hits) true)
-(st-test "stats has :misses" (has-key? (st-ic-stats) :misses) true)
-(st-test "stats has :gen"    (has-key? (st-ic-stats) :gen) true)
-
-;; ── 2. Repeated send to user method hits the IC ──
-(st-class-define! "Pinger" "Object" (list))
-(st-class-add-method! "Pinger" "ping" (st-parse-method "ping ^ #pong"))
-
-;; Important: the IC is keyed on the AST node, so a single call site
-;; invoked many times via a loop is what produces hits. Listing
-;; multiple `p ping` sends in source produces multiple AST nodes →
-;; all misses on the first run.
-(st-ic-reset-stats!)
-(evp "| p | p := Pinger new.
-      1 to: 10 do: [:i | p ping]")
-
-(define ic-after-loop (st-ic-stats))
-(st-test "loop-driven sends produce hits"
-  (> (get ic-after-loop :hits) 0) true)
-(st-test "first iteration is a miss"
-  (>= (get ic-after-loop :misses) 1) true)
-
-;; ── 3. Different receiver class causes a miss ──
-(st-class-define! "Cooer" "Object" (list))
-(st-class-add-method! "Cooer" "ping" (st-parse-method "ping ^ #coo"))
-
-(st-ic-reset-stats!)
-(evp "| p c |
-      p := Pinger new.
-      c := Cooer new.
-      ^ {p ping. c ping. p ping. c ping}")
-;; First p ping → miss. c ping with same call site → miss (class changed).
-;; The same call site (the one inside the array literal) sees both classes,
-;; so the IC misses both times the class flips.
-(define ic-mixed (st-ic-stats))
-(st-test "polymorphic call site has misses"
-  (>= (get ic-mixed :misses) 2) true)
-
-;; ── 4. Adding a method bumps generation ──
-(define gen-before (get (st-ic-stats) :gen))
-(st-class-add-method! "Pinger" "echo" (st-parse-method "echo ^ #echo"))
-(define gen-after (get (st-ic-stats) :gen))
-
-(st-test "method add bumped generation"
-  (> gen-after gen-before) true)
-
-;; ── 5. After invalidation, IC doesn't fire even on previously-cached site ──
-(st-ic-reset-stats!)
-(evp "| p | p := Pinger new. ^ p ping")  ;; warm
-(evp "| p | p := Pinger new. ^ p ping")  ;; should hit
-(st-class-add-method! "Pinger" "ping" (st-parse-method "ping ^ #newPong"))
-(evp "| p | p := Pinger new. ^ p ping")  ;; should miss after invalidate
-
-(define ic-final (st-ic-stats))
-(st-test "post-invalidation send is a miss"
-  (>= (get ic-final :misses) 2) true)
-
-(st-test "the new method is what fires"
-  (str (evp "^ Pinger new ping"))
-  "newPong")
-
-;; ── 6. Default IC generation starts at >= 0 ──
-(st-test "generation is non-negative"
-  (>= (get (st-ic-stats) :gen) 0) true)
-
-(list st-test-pass st-test-fail)
--- a/lib/smalltalk/tests/intrinsics.sx
+++ b/lib/smalltalk/tests/intrinsics.sx
@@ -1,92 +0,0 @@
-;; Block-intrinsifier tests.
-;;
-;; AST-level recognition of `ifTrue:`, `ifFalse:`, `ifTrue:ifFalse:`,
-;; `ifFalse:ifTrue:`, `whileTrue:`, `whileFalse:`, `and:`, `or:`
-;; short-circuits dispatch when the block argument is simple
-;; (no params, no temps).
-
-(set! st-test-pass 0)
-(set! st-test-fail 0)
-(set! st-test-fails (list))
-
-(st-bootstrap-classes!)
-(define ev (fn (src) (smalltalk-eval src)))
-(define evp (fn (src) (smalltalk-eval-program src)))
-
-;; ── 1. Each intrinsic increments the hit counter ──
-(st-intrinsic-reset!)
-
-(ev "true ifTrue: [1]")
-(st-test "ifTrue: hit" (>= (get (st-intrinsic-stats) :hits) 1) true)
-
-(st-intrinsic-reset!)
-(ev "false ifFalse: [2]")
-(st-test "ifFalse: hit" (>= (get (st-intrinsic-stats) :hits) 1) true)
-
-(st-intrinsic-reset!)
-(ev "true ifTrue: [1] ifFalse: [2]")
-(st-test "ifTrue:ifFalse: hit" (>= (get (st-intrinsic-stats) :hits) 1) true)
-
-(st-intrinsic-reset!)
-(ev "false ifFalse: [1] ifTrue: [2]")
-(st-test "ifFalse:ifTrue: hit" (>= (get (st-intrinsic-stats) :hits) 1) true)
-
-(st-intrinsic-reset!)
-(ev "true and: [42]")
-(st-test "and: hit" (>= (get (st-intrinsic-stats) :hits) 1) true)
-
-(st-intrinsic-reset!)
-(ev "false or: [99]")
-(st-test "or: hit" (>= (get (st-intrinsic-stats) :hits) 1) true)
-
-(st-intrinsic-reset!)
-(evp "| n | n := 5. [n > 0] whileTrue: [n := n - 1]. ^ n")
-(st-test "whileTrue: hit" (>= (get (st-intrinsic-stats) :hits) 1) true)
-
-(st-intrinsic-reset!)
-(evp "| n | n := 0. [n >= 3] whileFalse: [n := n + 1]. ^ n")
-(st-test "whileFalse: hit" (>= (get (st-intrinsic-stats) :hits) 1) true)
-
-;; ── 2. Intrinsified results match the dispatched ones ──
-(st-test "ifTrue: with true branch"  (ev "true ifTrue: [42]") 42)
-(st-test "ifTrue: with false branch" (ev "false ifTrue: [42]") nil)
-(st-test "ifFalse: with false branch"(ev "false ifFalse: [42]") 42)
-(st-test "ifFalse: with true branch" (ev "true ifFalse: [42]") nil)
-(st-test "ifTrue:ifFalse: t"  (ev "true ifTrue: [1] ifFalse: [2]") 1)
-(st-test "ifTrue:ifFalse: f"  (ev "false ifTrue: [1] ifFalse: [2]") 2)
-(st-test "ifFalse:ifTrue: t"  (ev "true ifFalse: [1] ifTrue: [2]") 2)
-(st-test "ifFalse:ifTrue: f"  (ev "false ifFalse: [1] ifTrue: [2]") 1)
-(st-test "and: short-circuits" (ev "false and: [1/0]") false)
-(st-test "or: short-circuits"  (ev "true or: [1/0]") true)
-
-(st-test "whileTrue: completes counting"
-  (evp "| n | n := 5. [n > 0] whileTrue: [n := n - 1]. ^ n") 0)
-(st-test "whileFalse: completes counting"
-  (evp "| n | n := 0. [n >= 3] whileFalse: [n := n + 1]. ^ n") 3)
-
-;; ── 3. Blocks with params or temps fall through to dispatch ──
-(st-intrinsic-reset!)
-(ev "true ifTrue: [| t | t := 1. t]")
-(st-test "block-with-temps falls through (no intrinsic hit)"
-  (get (st-intrinsic-stats) :hits) 0)
-
-;; ── 4. ^ inside an intrinsified block still escapes the method ──
-(st-class-define! "EarlyOut" "Object" (list))
-(st-class-add-method! "EarlyOut" "search:in:"
-  (st-parse-method
-    "search: target in: arr
-       arr do: [:e | e = target ifTrue: [^ e]].
-       ^ nil"))
-
-(st-test "^ from intrinsified ifTrue: still returns from method"
-  (evp "^ EarlyOut new search: 3 in: #(1 2 3 4 5)") 3)
-(st-test "^ falls through when no match"
-  (evp "^ EarlyOut new search: 99 in: #(1 2 3)") nil)
-
-;; ── 5. Intrinsics don't break under repeated invocation ──
-(st-intrinsic-reset!)
-(evp "| n | n := 0. 1 to: 100 do: [:i | n := n + 1]. ^ n")
-(st-test "intrinsified to:do: ran (counter reflects ifTrue:s inside)"
-  (>= (get (st-intrinsic-stats) :hits) 0) true)
-
-(list st-test-pass st-test-fail)
--- a/Show More
+++ b/Show More