tcl: merge loops/tcl — complete Tcl 8.6 subset (329 tests)

Phases 1-6: Dodekalogue tokenizer/parser, eval engine, expr mini-language,
string/list/dict commands, proc + uplevel/upvar (the headline showcase),
catch/try/throw, namespaces + ensembles, generator coroutines, idiom corpus.

Resolved add/add conflicts by taking loops/tcl (the complete tested impl)
over the architecture branch's earlier prototype.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>

.claude/scheduled_tasks.lock

@@ -1 +0,0 @@
-{"sessionId":"31c80255-eb92-43e4-8997-84ad84e27326","pid":90960,"procStart":"564684","acquiredAt":1777049890282}

hosts/javascript/run_tests.js

@@ -293,6 +293,8 @@ 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");
@@ -341,6 +343,20 @@ 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"]) {

hosts/ocaml/bin/run_tests.ml

@@ -37,7 +37,10 @@ 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
@@ -226,7 +229,7 @@ let make_test_env () =
     | [String s] ->
       let parsed = Sx_parser.parse_all s in
       (match parsed with
-       | [List (Symbol "sxbc" :: Number _ :: payload :: _)] -> payload
+       | [List (Symbol "sxbc" :: (Number _ | Integer _) :: payload :: _)] -> payload
        | _ -> raise (Eval_error "bytecode-deserialize: invalid sxbc format"))
     | _ -> raise (Eval_error "bytecode-deserialize: expected string"));
 
@@ -240,7 +243,7 @@ let make_test_env () =
     | [String s] ->
       let parsed = Sx_parser.parse_all s in
       (match parsed with
-       | [List (Symbol "cek-state" :: Number _ :: payload :: _)] -> payload
+       | [List (Symbol "cek-state" :: (Number _ | Integer _) :: payload :: _)] -> payload
        | _ -> raise (Eval_error "cek-deserialize: invalid cek-state format"))
     | _ -> raise (Eval_error "cek-deserialize: expected string"));
 
@@ -320,7 +323,10 @@ 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
@@ -366,11 +372,15 @@ 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"));
 
@@ -546,7 +556,10 @@ 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 | _ -> Number 0.0);
+  bind "random-int" (fun args -> match args with
+    | [Number lo; _] -> Number lo
+    | [Integer lo; _] -> Integer lo
+    | _ -> Integer 0);
   bind "try-rerender-page" (fun _args -> Nil);
   bind "collect!" (fun args ->
     match args with
@@ -1107,6 +1120,47 @@ 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
 
 (* ====================================================================== *)
@@ -1142,18 +1196,20 @@ let run_foundation_tests () =
   in
 
   Printf.printf "Suite: parser\n";
-  assert_eq "number" (Number 42.0) (List.hd (parse_all "42"));
+  assert_eq "number" (Integer 42) (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 "+"; Number 1.0; Number 2.0]) (List.hd (parse_all "(+ 1 2)"));
+  assert_eq "list" (List [Symbol "+"; Integer 1; Integer 2]) (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));
@@ -1161,7 +1217,7 @@ 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" (Number 42.0) (List.hd (parse_all ";; comment\n42"));
+  assert_eq "comment" (Integer 42) (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)"))));
 
@@ -1978,6 +2034,10 @@ 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 *)
@@ -2052,8 +2112,8 @@ let run_spec_tests env test_files =
          Hashtbl.replace d "childNodes" (List [])
        | _ -> ());
       stored
-    | [ListRef r; Number n; value] ->
-      let idx = int_of_float n in
+    | [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
       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
@@ -2190,7 +2250,7 @@ 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 | Number n ->
+              let sv = match value with String s -> s | Integer n -> string_of_int n | 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);
@@ -2632,6 +2692,7 @@ 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
@@ -2647,8 +2708,8 @@ let run_spec_tests env test_files =
   let rec value_of_json = function
     | `Null -> Nil
     | `Bool b -> Bool b
-    | `Int i -> Number (float_of_int i)
-    | `Intlit s -> (try Number (float_of_string s) with _ -> String s)
+    | `Int i -> Integer i
+    | `Intlit s -> (try Integer (int_of_string s) with _ -> 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)
@@ -2811,6 +2872,7 @@ 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;

hosts/ocaml/bin/sx_server.ml

@@ -296,6 +296,10 @@ 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. *)
@@ -357,6 +361,11 @@ 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)] ->
@@ -396,6 +405,12 @@ 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
@@ -959,6 +974,7 @@ 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)
 
@@ -1361,6 +1377,7 @@ 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
@@ -1374,6 +1391,10 @@ 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)
@@ -4450,6 +4471,8 @@ 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
@@ -4507,6 +4530,8 @@ 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

hosts/ocaml/bootstrap.py

@@ -47,7 +47,9 @@ 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)
@@ -126,6 +128,90 @@ 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)))
 
 
 """
@@ -171,7 +257,10 @@ 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"}
+                "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"}
         defines = [(n, e) for n, e in defines if n not in skip]
 
         # Deduplicate — keep last definition for each name (CEK overrides tree-walk)

hosts/ocaml/lib/sx_parser.ml

@@ -89,10 +89,38 @@ 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 =
-  match float_of_string_opt str with
-  | Some n -> Some (Number n)
-  | None -> None
+  (* 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
 
 let rec read_value s : value =
   skip_whitespace_and_comments s;
@@ -108,6 +136,34 @@ 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;

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
@@ -156,6 +156,9 @@ 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
@@ -208,6 +211,8 @@ 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) *)
 
@@ -381,15 +386,20 @@ 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 =
-  CallccContinuation (sx_to_list captured)
+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 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))

hosts/ocaml/lib/sx_types.ml

@@ -43,9 +43,10 @@ type env = {
 
 and value =
   | Nil
-  | Bool   of bool
-  | Number of float
-  | String of string
+  | Bool    of bool
+  | Integer of int    (** Exact integer — distinct from inexact float. *)
+  | Number  of float  (** Inexact float. *)
+  | String  of string
   | Symbol of string
   | Keyword of string
   | List   of value list
@@ -56,7 +57,7 @@ and value =
   | Macro  of macro
   | Thunk  of value * env
   | Continuation of (value -> value) * dict option
-  | CallccContinuation of value list  (** Undelimited continuation — captured kont frames *)
+  | CallccContinuation of value list * int  (** Undelimited continuation — captured kont frames + winders depth at capture *)
   | NativeFn of string * (value list -> value)
   | Signal of signal
   | RawHTML of string
@@ -72,6 +73,25 @@ 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. *)
@@ -392,6 +412,7 @@ 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>"
@@ -461,6 +482,7 @@ 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"
@@ -473,7 +495,7 @@ let type_of = function
   | Macro _        -> "macro"
   | Thunk _        -> "thunk"
   | Continuation (_, _) -> "continuation"
-  | CallccContinuation _ -> "continuation"
+  | CallccContinuation (_, _) -> "continuation"
   | NativeFn _     -> "function"
   | Signal _       -> "signal"
   | RawHTML _      -> "raw-html"
@@ -488,6 +510,16 @@ 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
@@ -503,7 +535,7 @@ 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
 
 
@@ -616,6 +648,7 @@ 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))
 
@@ -777,6 +810,7 @@ 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
@@ -810,7 +844,7 @@ 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)
@@ -831,3 +865,23 @@ 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)))))

hosts/ocaml/lib/sx_vm.ml

@@ -185,7 +185,8 @@ 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 Number n -> int_of_float n | _ -> 0) l)
+        Array.of_list (List.map (fun x -> match x with
+          | Integer n -> n | Number n -> int_of_float n | _ -> 0) l)
       | _ -> [||]
     in
     let entries = match find2 "constants" "vc-constants" with
@@ -198,10 +199,10 @@ let code_from_value v =
       | _ -> entry
     ) entries in
     let arity = match find2 "arity" "vc-arity" with
-      | Some (Number n) -> int_of_float n | _ -> 0
+      | Some (Integer n) -> n | Some (Number n) -> int_of_float n | _ -> 0
     in
     let rest_arity = match find2 "rest-arity" "vc-rest-arity" with
-      | Some (Number n) -> int_of_float n | _ -> -1
+      | Some (Integer n) -> n | 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. *)
@@ -749,10 +750,7 @@ and run vm =
             | _ -> (Hashtbl.find Sx_primitives.primitives "/") [a; b])
         | 164 (* OP_EQ *) ->
           let b = pop vm and a = pop vm in
-          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))
+          push vm ((Hashtbl.find Sx_primitives.primitives "=") [a; b])
         | 165 (* OP_LT *) ->
           let b = pop vm and a = pop vm in
           push vm (match a, b with
@@ -771,10 +769,10 @@ and run vm =
         | 168 (* OP_LEN *) ->
           let v = pop vm in
           push vm (match v with
-            | 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
+            | List l | ListRef { contents = l } -> Integer (List.length l)
+            | String s -> Integer (String.length s)
+            | Dict d -> Integer (Hashtbl.length d)
+            | Nil -> Integer 0
             | _ -> (Hashtbl.find Sx_primitives.primitives "len") [v])
         | 169 (* OP_FIRST *) ->
           let v = pop vm in

hosts/ocaml/transpiler.sx

@@ -256,6 +256,7 @@
     "callcc-continuation?"
     "callcc-continuation-data"
     "make-callcc-continuation"
+    "callcc-continuation-winders-len"
     "dynamic-wind-call"
     "strip-prefix"
     "component-set-param-types!"
@@ -295,7 +296,8 @@
     "*bind-tracking*"
     "*provide-batch-depth*"
     "*provide-batch-queue*"
-    "*provide-subscribers*"))
+    "*provide-subscribers*"
+    "*winders*"))
 
 (define
   ml-is-mutable-global?
@@ -533,13 +535,13 @@
               "; cf_env = "
               (ef "env")
               "; cf_name = "
-              (if (= frame-type "if") (ef "else") (ef "name"))
+              (if (= frame-type "if") (ef "else") (cond (some (fn (k) (= k "body-result")) items) (ef "body-result") :else (ef "name")))
               "; cf_body = "
               (if (= frame-type "if") (ef "then") (ef "body"))
               "; cf_remaining = "
               (ef "remaining")
               "; cf_f = "
-              (ef "f")
+              (cond (some (fn (k) (= k "after-thunk")) items) (ef "after-thunk") (some (fn (k) (= k "f")) items) (ef "f") :else "Nil")
               "; cf_args = "
               (cond
                 (some (fn (k) (= k "evaled")) items)
@@ -582,6 +584,8 @@
                 (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

lib/apl/runtime.sx

@@ -0,0 +1,289 @@
+;; 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)))

lib/apl/test.sh

@@ -0,0 +1,51 @@
+#!/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 ]

lib/apl/tests/runtime.sx

@@ -0,0 +1,327 @@
+;; 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)

lib/common-lisp/clos.sx

@@ -0,0 +1,500 @@
+;; 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))))

lib/common-lisp/conformance.sh

@@ -0,0 +1,161 @@
+#!/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 ]

lib/common-lisp/loop.sx

@@ -0,0 +1,623 @@
+;; 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))))

lib/common-lisp/parser.sx

@@ -0,0 +1,377 @@
+;; 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)))))

lib/common-lisp/reader.sx

@@ -0,0 +1,381 @@
+;; 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)))

lib/common-lisp/runtime.sx

@@ -0,0 +1,724 @@
+;; 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))))))

lib/common-lisp/scoreboard.json

@@ -0,0 +1,19 @@
+{
+  "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}
+  ]
+}

lib/common-lisp/scoreboard.md

@@ -0,0 +1,20 @@
+# 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**

lib/common-lisp/test.sh

@@ -0,0 +1,443 @@
+#!/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 ]

lib/common-lisp/tests/clos.sx

@@ -0,0 +1,334 @@
+;; 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"))))

lib/common-lisp/tests/conditions.sx

@@ -0,0 +1,478 @@
+;; 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"))))

lib/common-lisp/tests/eval.sx

@@ -0,0 +1,466 @@
+;; 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)

lib/common-lisp/tests/lambda.sx

@@ -0,0 +1,204 @@
+;; 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"))

lib/common-lisp/tests/macros.sx

@@ -0,0 +1,204 @@
+;; 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)

lib/common-lisp/tests/parse.sx

@@ -0,0 +1,160 @@
+;; 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")))

lib/common-lisp/tests/programs/geometry.sx

@@ -0,0 +1,291 @@
+;; 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)

lib/common-lisp/tests/programs/interactive-debugger.sx

@@ -0,0 +1,196 @@
+;; 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)

lib/common-lisp/tests/programs/mop-trace.sx

@@ -0,0 +1,228 @@
+;; 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)

lib/common-lisp/tests/programs/parse-recover.sx

@@ -0,0 +1,163 @@
+;; 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)

lib/common-lisp/tests/programs/restart-demo.sx

@@ -0,0 +1,141 @@
+;; 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)

lib/common-lisp/tests/read.sx

@@ -0,0 +1,180 @@
+;; 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")

lib/common-lisp/tests/runtime.sx

@@ -0,0 +1,207 @@
+;; lib/common-lisp/tests/runtime.sx — tests for CL runtime layer
+
+(load "lib/common-lisp/runtime.sx")
+
+(defsuite
+  "cl-types"
+  (deftest "cl-null? nil" (assert= true (cl-null? nil)))
+  (deftest "cl-null? false" (assert= false (cl-null? false)))
+  (deftest
+    "cl-consp? pair"
+    (assert= true (cl-consp? (list 1 2))))
+  (deftest "cl-consp? nil" (assert= false (cl-consp? nil)))
+  (deftest "cl-listp? nil" (assert= true (cl-listp? nil)))
+  (deftest
+    "cl-listp? list"
+    (assert= true (cl-listp? (list 1 2))))
+  (deftest "cl-atom? nil" (assert= true (cl-atom? nil)))
+  (deftest "cl-atom? pair" (assert= false (cl-atom? (list 1))))
+  (deftest "cl-integerp?" (assert= true (cl-integerp? 42)))
+  (deftest "cl-floatp?" (assert= true (cl-floatp? 3.14)))
+  (deftest
+    "cl-characterp?"
+    (assert= true (cl-characterp? (integer->char 65))))
+  (deftest "cl-stringp?" (assert= true (cl-stringp? "hello")))
+  (deftest "cl-symbolp?" (assert= true (cl-symbolp? (quote foo)))))
+
+(defsuite
+  "cl-arithmetic"
+  (deftest "cl-mod" (assert= 1 (cl-mod 10 3)))
+  (deftest "cl-rem" (assert= 1 (cl-rem 10 3)))
+  (deftest
+    "cl-quotient"
+    (assert= 3 (cl-quotient 10 3)))
+  (deftest "cl-gcd" (assert= 4 (cl-gcd 12 8)))
+  (deftest "cl-lcm" (assert= 12 (cl-lcm 4 6)))
+  (deftest "cl-abs pos" (assert= 5 (cl-abs 5)))
+  (deftest "cl-abs neg" (assert= 5 (cl-abs -5)))
+  (deftest "cl-min" (assert= 2 (cl-min 2 7)))
+  (deftest "cl-max" (assert= 7 (cl-max 2 7)))
+  (deftest "cl-evenp? t" (assert= true (cl-evenp? 4)))
+  (deftest "cl-evenp? f" (assert= false (cl-evenp? 3)))
+  (deftest "cl-oddp? t" (assert= true (cl-oddp? 7)))
+  (deftest "cl-zerop?" (assert= true (cl-zerop? 0)))
+  (deftest "cl-plusp?" (assert= true (cl-plusp? 1)))
+  (deftest "cl-minusp?" (assert= true (cl-minusp? -1)))
+  (deftest "cl-signum pos" (assert= 1 (cl-signum 42)))
+  (deftest "cl-signum neg" (assert= -1 (cl-signum -7)))
+  (deftest "cl-signum zero" (assert= 0 (cl-signum 0))))
+
+(defsuite
+  "cl-chars"
+  (deftest
+    "cl-char-code"
+    (assert= 65 (cl-char-code (integer->char 65))))
+  (deftest "cl-code-char" (assert= true (char? (cl-code-char 65))))
+  (deftest
+    "cl-char-upcase"
+    (assert=
+      (integer->char 65)
+      (cl-char-upcase (integer->char 97))))
+  (deftest
+    "cl-char-downcase"
+    (assert=
+      (integer->char 97)
+      (cl-char-downcase (integer->char 65))))
+  (deftest
+    "cl-alpha-char-p"
+    (assert= true (cl-alpha-char-p (integer->char 65))))
+  (deftest
+    "cl-digit-char-p"
+    (assert= true (cl-digit-char-p (integer->char 48))))
+  (deftest
+    "cl-char=?"
+    (assert=
+      true
+      (cl-char=? (integer->char 65) (integer->char 65))))
+  (deftest
+    "cl-char<?"
+    (assert=
+      true
+      (cl-char<? (integer->char 65) (integer->char 90))))
+  (deftest
+    "cl-char space"
+    (assert= (integer->char 32) cl-char-space))
+  (deftest
+    "cl-char newline"
+    (assert= (integer->char 10) cl-char-newline)))
+
+(defsuite
+  "cl-format"
+  (deftest
+    "cl-format nil basic"
+    (assert= "hello" (cl-format nil "~a" "hello")))
+  (deftest
+    "cl-format nil number"
+    (assert= "42" (cl-format nil "~d" 42)))
+  (deftest
+    "cl-format nil hex"
+    (assert= "ff" (cl-format nil "~x" 255)))
+  (deftest
+    "cl-format nil template"
+    (assert= "x=3 y=4" (cl-format nil "x=~d y=~d" 3 4)))
+  (deftest "cl-format nil tilde" (assert= "a~b" (cl-format nil "a~~b"))))
+
+(defsuite
+  "cl-gensym"
+  (deftest
+    "cl-gensym returns symbol"
+    (assert= "symbol" (type-of (cl-gensym))))
+  (deftest "cl-gensym unique" (assert= false (= (cl-gensym) (cl-gensym)))))
+
+(defsuite
+  "cl-sets"
+  (deftest "cl-make-set empty" (assert= true (cl-set? (cl-make-set))))
+  (deftest
+    "cl-set-add/member"
+    (let
+      ((s (cl-make-set)))
+      (do
+        (cl-set-add s 1)
+        (assert= true (cl-set-memberp s 1)))))
+  (deftest
+    "cl-set-memberp false"
+    (assert= false (cl-set-memberp (cl-make-set) 42)))
+  (deftest
+    "cl-list->set"
+    (let
+      ((s (cl-list->set (list 1 2 3))))
+      (assert= true (cl-set-memberp s 2)))))
+
+(defsuite
+  "cl-lists"
+  (deftest
+    "cl-nth 0"
+    (assert=
+      1
+      (cl-nth 0 (list 1 2 3))))
+  (deftest
+    "cl-nth 2"
+    (assert=
+      3
+      (cl-nth 2 (list 1 2 3))))
+  (deftest
+    "cl-last"
+    (assert=
+      (list 3)
+      (cl-last (list 1 2 3))))
+  (deftest
+    "cl-butlast"
+    (assert=
+      (list 1 2)
+      (cl-butlast (list 1 2 3))))
+  (deftest
+    "cl-nthcdr 1"
+    (assert=
+      (list 2 3)
+      (cl-nthcdr 1 (list 1 2 3))))
+  (deftest
+    "cl-assoc hit"
+    (assert=
+      (list "b" 2)
+      (cl-assoc "b" (list (list "a" 1) (list "b" 2)))))
+  (deftest
+    "cl-assoc miss"
+    (assert= nil (cl-assoc "z" (list (list "a" 1)))))
+  (deftest
+    "cl-getf hit"
+    (assert= 42 (cl-getf (list "x" 42 "y" 99) "x")))
+  (deftest "cl-getf miss" (assert= nil (cl-getf (list "x" 42) "z")))
+  (deftest
+    "cl-adjoin new"
+    (assert=
+      (list 0 1 2)
+      (cl-adjoin 0 (list 1 2))))
+  (deftest
+    "cl-adjoin dup"
+    (assert=
+      (list 1 2)
+      (cl-adjoin 1 (list 1 2))))
+  (deftest
+    "cl-flatten"
+    (assert=
+      (list 1 2 3 4)
+      (cl-flatten (list 1 (list 2 3) 4))))
+  (deftest
+    "cl-member hit"
+    (assert=
+      (list 2 3)
+      (cl-member 2 (list 1 2 3))))
+  (deftest
+    "cl-member miss"
+    (assert=
+      nil
+      (cl-member 9 (list 1 2 3)))))
+
+(defsuite
+  "cl-radix"
+  (deftest "binary" (assert= "1010" (cl-format-binary 10)))
+  (deftest "octal" (assert= "17" (cl-format-octal 15)))
+  (deftest "hex" (assert= "ff" (cl-format-hex 255)))
+  (deftest "decimal" (assert= "42" (cl-format-decimal 42)))
+  (deftest
+    "n->s r16"
+    (assert= "1f" (cl-integer-to-string 31 16)))
+  (deftest
+    "s->n r16"
+    (assert= 31 (cl-string-to-integer "1f" 16))))

lib/common-lisp/tests/stdlib.sx

@@ -0,0 +1,285 @@
+;; 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)

lib/erlang/bench_ring.sh

@@ -0,0 +1,86 @@
+#!/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."

lib/erlang/bench_ring_results.md

@@ -0,0 +1,35 @@
+# 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.

lib/erlang/conformance.sh

@@ -0,0 +1,153 @@
+#!/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

lib/erlang/parser-expr.sx

@@ -237,6 +237,8 @@
         (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 "
@@ -281,12 +283,56 @@
   (fn
     (st)
     (er-expect! st "punct" "[")
-    (if
+    (cond
       (er-is? st "punct" "]")
       (do (er-advance! st) {:type "nil"})
-      (let
-        ((elems (list (er-parse-expr-prec st 0))))
-        (er-parse-list-tail st elems)))))
+      :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}))))
 
 (define
   er-parse-list-tail
@@ -532,3 +578,63 @@
           ((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}))))

lib/erlang/scoreboard.json

@@ -0,0 +1,16 @@
+{
+  "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"}
+  ]
+}

lib/erlang/scoreboard.md

@@ -0,0 +1,18 @@
+# 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`.

lib/erlang/test.sh

@@ -0,0 +1,260 @@
+#!/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 ]

lib/erlang/tests/programs/bank.sx

@@ -0,0 +1,159 @@
+;; 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))

lib/erlang/tests/programs/echo.sx

@@ -0,0 +1,140 @@
+;; 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))

lib/erlang/tests/programs/fib_server.sx

@@ -0,0 +1,152 @@
+;; 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))

lib/erlang/tests/programs/ping_pong.sx

@@ -0,0 +1,127 @@
+;; 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))

lib/erlang/tests/programs/ring.sx

@@ -0,0 +1,132 @@
+;; 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))

lib/erlang/tests/runtime.sx

@@ -0,0 +1,139 @@
+;; 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))

lib/forth/runtime.sx

@@ -1,433 +1,175 @@
-;; 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.
+;; 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.
+;; ---------------------------------------------------------------------------
 
 (define
-  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)))
+  (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)))
 
 (define
-  forth-error
-  (fn (state msg) (dict-set! state "error" msg) (raise msg)))
+  (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))))))
 
 (define
-  forth-push
-  (fn (state v) (dict-set! state "dstack" (cons v (get state "dstack")))))
+  (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)
 
+;; MOVE — copy count bytes from src[src-addr] to dst[dst-addr]
 (define
-  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)))))
+  (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)
 
+;; FILL — fill count bytes at addr with byte value
 (define
-  forth-peek
-  (fn
-    (state)
-    (let
-      ((st (get state "dstack")))
-      (if (= (len st) 0) (forth-error state "stack underflow") (first st)))))
-
-(define forth-depth (fn (state) (len (get state "dstack"))))
+  (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)
 
+;; ERASE — fill with zeros (Forth: ERASE)
 (define
-  forth-rpush
-  (fn (state v) (dict-set! state "rstack" (cons v (get state "rstack")))))
+  (forth-erase! mem addr count)
+  (forth-fill! mem addr count 0))
 
+;; Dump memory region as list of byte values
 (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))
+  (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))))

lib/forth/test.sh

@@ -0,0 +1,62 @@
+#!/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 ]

lib/forth/tests/runtime.sx

@@ -0,0 +1,201 @@
+;; 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))

lib/haskell/runtime.sx

@@ -0,0 +1,507 @@
+;; 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))))

lib/haskell/test.sh

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

lib/haskell/tests/runtime.sx

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

lib/hyperscript/compiler.sx

@@ -48,6 +48,15 @@
                             prop
                             value))
                         (list (quote hs-query-all) (nth base-ast 1))))
+                    ((and (list? base-ast) (= (first base-ast) (quote query)))
+                      (list
+                        (quote dom-set-prop)
+                        (list
+                          (quote hs-named-target)
+                          (nth base-ast 1)
+                          (list (quote hs-query-first) (nth base-ast 1)))
+                        prop
+                        value))
                     ((and (list? base-ast) (= (first base-ast) dot-sym) (let ((inner (nth base-ast 1))) (and (list? inner) (= (first inner) (quote query)) (let ((s (nth inner 1))) (and (string? s) (> (len s) 0) (= (substring s 0 1) "."))))))
                       (let
                         ((inner (nth base-ast 1))
@@ -146,6 +155,14 @@
                           (nth prop-ast 1)
                           value)
                         (list (quote set!) (hs-to-sx target) value))))))
+              ((= th (quote query))
+                (list
+                  (quote hs-set-inner-html!)
+                  (list
+                    (quote hs-named-target)
+                    (nth target 1)
+                    (list (quote hs-query-first) (nth target 1)))
+                  value))
               (true (list (quote set!) (hs-to-sx target) value)))))))
     (define
       emit-on
@@ -274,17 +291,33 @@
           ((name (nth ast 1)) (rest-parts (rest (rest ast))))
           (cond
             ((and (= (len ast) 4) (list? (nth ast 2)) (= (first (nth ast 2)) (quote dict)))
-              (list
-                (quote dom-dispatch)
-                (hs-to-sx (nth ast 3))
-                name
-                (hs-to-sx (nth ast 2))))
+              (let
+                ((tgt-ast (nth ast 3)))
+                (list
+                  (quote dom-dispatch)
+                  (if
+                    (and (list? tgt-ast) (= (first tgt-ast) (quote query)))
+                    (list
+                      (quote hs-named-target)
+                      (nth tgt-ast 1)
+                      (list (quote hs-query-first) (nth tgt-ast 1)))
+                    (hs-to-sx tgt-ast))
+                  name
+                  (hs-to-sx (nth ast 2)))))
             ((= (len ast) 3)
-              (list
-                (quote dom-dispatch)
-                (hs-to-sx (nth ast 2))
-                name
-                (list (quote dict) "sender" (quote me))))
+              (let
+                ((tgt-ast (nth ast 2)))
+                (list
+                  (quote dom-dispatch)
+                  (if
+                    (and (list? tgt-ast) (= (first tgt-ast) (quote query)))
+                    (list
+                      (quote hs-named-target)
+                      (nth tgt-ast 1)
+                      (list (quote hs-query-first) (nth tgt-ast 1)))
+                    (hs-to-sx tgt-ast))
+                  name
+                  (list (quote dict) "sender" (quote me)))))
             (true
               (list
                 (quote dom-dispatch)
@@ -706,6 +739,33 @@
               (quote fn)
               (cons (quote me) (map make-symbol params))
               (cons (quote do) (map hs-to-sx body)))))))
+    (define
+      hs-safe-obj
+      (fn
+        (obj-ast)
+        (if
+          (and (list? obj-ast) (= (first obj-ast) (quote ref)))
+          (list (quote host-global) (nth obj-ast 1))
+          (if
+            (and (list? obj-ast) (= (first obj-ast) dot-sym))
+            (let
+              ((inner (nth obj-ast 1)) (prop (nth obj-ast 2)))
+              (list (quote host-get) (hs-safe-obj inner) prop))
+            (hs-to-sx obj-ast)))))
+    (define
+      hs-chain-name
+      (fn
+        (obj-ast)
+        (if
+          (and (list? obj-ast) (= (first obj-ast) (quote ref)))
+          (nth obj-ast 1)
+          (if
+            (and (list? obj-ast) (= (first obj-ast) dot-sym))
+            (str (hs-chain-name (nth obj-ast 1)) "." (nth obj-ast 2))
+            (if
+              (and (list? obj-ast) (= (first obj-ast) (quote query)))
+              (nth obj-ast 1)
+              nil)))))
     (fn
       (ast)
       (cond
@@ -1226,12 +1286,21 @@
                   (if
                     (and (list? raw-tgt) (= (first raw-tgt) (quote query)))
                     (list
-                      (quote for-each)
+                      (quote let)
                       (list
-                        (quote fn)
-                        (list (quote _el))
-                        (list (quote dom-add-class) (quote _el) (nth ast 1)))
-                      (list (quote hs-query-all) (nth raw-tgt 1)))
+                        (list
+                          (quote _tgt)
+                          (list (quote hs-query-named-all) (nth raw-tgt 1))))
+                      (list
+                        (quote for-each)
+                        (list
+                          (quote fn)
+                          (list (quote _el))
+                          (list
+                            (quote dom-add-class)
+                            (quote _el)
+                            (nth ast 1)))
+                        (quote _tgt)))
                     (list
                       (quote dom-add-class)
                       (hs-to-sx raw-tgt)
@@ -1244,14 +1313,20 @@
                   (nth ast 2)))
               ((= head (quote set-styles))
                 (let
-                  ((pairs (nth ast 1)) (tgt (hs-to-sx (nth ast 2))))
-                  (cons
-                    (quote do)
-                    (map
-                      (fn
-                        (p)
-                        (list (quote dom-set-style) tgt (first p) (nth p 1)))
-                      pairs))))
+                  ((pairs (nth ast 1)) (tgt-ast (nth ast 2)))
+                  (let
+                    ((tgt (if (and (list? tgt-ast) (= (first tgt-ast) (quote query))) (list (quote hs-named-target) (nth tgt-ast 1) (list (quote hs-query-first) (nth tgt-ast 1))) (hs-to-sx tgt-ast))))
+                    (cons
+                      (quote do)
+                      (map
+                        (fn
+                          (p)
+                          (list
+                            (quote dom-set-style)
+                            tgt
+                            (first p)
+                            (nth p 1)))
+                        pairs)))))
               ((= head (quote multi-add-class))
                 (let
                   ((target (hs-to-sx (nth ast 1)))
@@ -1349,15 +1424,21 @@
                   (if
                     (and (list? raw-tgt) (= (first raw-tgt) (quote query)))
                     (list
-                      (quote for-each)
+                      (quote let)
                       (list
-                        (quote fn)
-                        (list (quote _el))
                         (list
-                          (quote dom-remove-class)
-                          (quote _el)
-                          (nth ast 1)))
-                      (list (quote hs-query-all) (nth raw-tgt 1)))
+                          (quote _tgt)
+                          (list (quote hs-query-named-all) (nth raw-tgt 1))))
+                      (list
+                        (quote for-each)
+                        (list
+                          (quote fn)
+                          (list (quote _el))
+                          (list
+                            (quote dom-remove-class)
+                            (quote _el)
+                            (nth ast 1)))
+                        (quote _tgt)))
                     (list
                       (quote dom-remove-class)
                       (if (nil? raw-tgt) (quote me) (hs-to-sx raw-tgt))
@@ -1401,15 +1482,32 @@
                   ((tgt (nth ast 3)))
                   (list
                     (quote hs-set-attr!)
-                    (hs-to-sx tgt)
+                    (if
+                      (and (list? tgt) (= (first tgt) (quote query)))
+                      (list
+                        (quote hs-named-target)
+                        (nth tgt 1)
+                        (list (quote hs-query-first) (nth tgt 1)))
+                      (hs-to-sx tgt))
                     (nth ast 1)
                     (hs-to-sx (nth ast 2)))))
               ((= head (quote remove-value))
                 (let
-                  ((val (hs-to-sx (nth ast 1))) (tgt (nth ast 2)))
+                  ((val (hs-to-sx (nth ast 1))) (raw-tgt (nth ast 2)))
                   (emit-set
-                    tgt
-                    (list (quote hs-remove-from!) val (hs-to-sx tgt)))))
+                    raw-tgt
+                    (list
+                      (quote hs-remove-from!)
+                      val
+                      (if
+                        (and
+                          (list? raw-tgt)
+                          (= (first raw-tgt) (quote query)))
+                        (list
+                          (quote hs-named-target)
+                          (nth raw-tgt 1)
+                          (list (quote hs-query-first) (nth raw-tgt 1)))
+                        (hs-to-sx raw-tgt))))))
               ((= head (quote empty-target))
                 (let
                   ((tgt (nth ast 1)))
@@ -1440,8 +1538,19 @@
                   (hs-to-sx (nth ast 2))))
               ((= head (quote remove-attr))
                 (let
-                  ((tgt (if (nil? (nth ast 2)) (quote me) (hs-to-sx (nth ast 2)))))
-                  (list (quote dom-remove-attr) tgt (nth ast 1))))
+                  ((raw-tgt (nth ast 2)))
+                  (list
+                    (quote dom-remove-attr)
+                    (if
+                      (and
+                        (list? raw-tgt)
+                        (= (first raw-tgt) (quote query)))
+                      (list
+                        (quote hs-named-target)
+                        (nth raw-tgt 1)
+                        (list (quote hs-query-first) (nth raw-tgt 1)))
+                      (if (nil? raw-tgt) (quote me) (hs-to-sx raw-tgt)))
+                    (nth ast 1))))
               ((= head (quote remove-css))
                 (let
                   ((tgt (if (nil? (nth ast 2)) (quote me) (hs-to-sx (nth ast 2))))
@@ -1452,10 +1561,20 @@
                       (fn (p) (list (quote dom-set-style) tgt p ""))
                       props))))
               ((= head (quote toggle-class))
-                (list
-                  (quote hs-toggle-class!)
-                  (hs-to-sx (nth ast 2))
-                  (nth ast 1)))
+                (let
+                  ((tgt-ast (nth ast 2)))
+                  (list
+                    (quote hs-toggle-class!)
+                    (if
+                      (and
+                        (list? tgt-ast)
+                        (= (first tgt-ast) (quote query)))
+                      (list
+                        (quote hs-named-target)
+                        (nth tgt-ast 1)
+                        (list (quote hs-query-first) (nth tgt-ast 1)))
+                      (hs-to-sx tgt-ast))
+                    (nth ast 1))))
               ((= head (quote toggle-class-for))
                 (list
                   (quote do)
@@ -1510,11 +1629,21 @@
                       (hs-to-sx tgt-ast)
                       (hs-to-sx val-ast)))))
               ((= head (quote toggle-between))
-                (list
-                  (quote hs-toggle-between!)
-                  (hs-to-sx (nth ast 3))
-                  (nth ast 1)
-                  (nth ast 2)))
+                (let
+                  ((tgt-ast (nth ast 3)))
+                  (list
+                    (quote hs-toggle-between!)
+                    (if
+                      (and
+                        (list? tgt-ast)
+                        (= (first tgt-ast) (quote query)))
+                      (list
+                        (quote hs-named-target)
+                        (nth tgt-ast 1)
+                        (list (quote hs-query-first) (nth tgt-ast 1)))
+                      (hs-to-sx tgt-ast))
+                    (nth ast 1)
+                    (nth ast 2))))
               ((= head (quote toggle-style))
                 (let
                   ((raw-tgt (nth ast 2)))
@@ -1538,10 +1667,20 @@
                     (quote list)
                     (map hs-to-sx (slice ast 3 (len ast))))))
               ((= head (quote toggle-attr))
-                (list
-                  (quote hs-toggle-attr!)
-                  (hs-to-sx (nth ast 2))
-                  (nth ast 1)))
+                (let
+                  ((tgt-ast (nth ast 2)))
+                  (list
+                    (quote hs-toggle-attr!)
+                    (if
+                      (and
+                        (list? tgt-ast)
+                        (= (first tgt-ast) (quote query)))
+                      (list
+                        (quote hs-named-target)
+                        (nth tgt-ast 1)
+                        (list (quote hs-query-first) (nth tgt-ast 1)))
+                      (hs-to-sx tgt-ast))
+                    (nth ast 1))))
               ((= head (quote toggle-attr-between))
                 (list
                   (quote hs-toggle-attr-between!)
@@ -1575,7 +1714,22 @@
                       (emit-set
                         raw-tgt
                         (list (quote hs-put-at!) val pos (hs-to-sx raw-tgt))))
-                    (true (list (quote hs-put!) val pos (hs-to-sx raw-tgt))))))
+                    (true
+                      (let
+                        ((tgt-ast raw-tgt))
+                        (list
+                          (quote hs-put!)
+                          val
+                          pos
+                          (if
+                            (and
+                              (list? tgt-ast)
+                              (= (first tgt-ast) (quote query)))
+                            (list
+                              (quote hs-named-target)
+                              (nth tgt-ast 1)
+                              (list (quote hs-query-first) (nth tgt-ast 1)))
+                            (hs-to-sx tgt-ast))))))))
               ((= head (quote if))
                 (if
                   (> (len ast) 3)
@@ -1651,12 +1805,22 @@
                     (detail (if (= (len ast) 4) (nth ast 2) nil)))
                   (list
                     (quote dom-dispatch)
-                    (hs-to-sx tgt)
+                    (let
+                      ((tgt-ast tgt))
+                      (if
+                        (and
+                          (list? tgt-ast)
+                          (= (first tgt-ast) (quote query)))
+                        (list
+                          (quote hs-named-target)
+                          (nth tgt-ast 1)
+                          (list (quote hs-query-first) (nth tgt-ast 1)))
+                        (hs-to-sx tgt-ast)))
                     name
                     (if has-detail (hs-to-sx detail) nil))))
               ((= head (quote hide))
                 (let
-                  ((tgt (let ((raw-tgt (nth ast 1))) (if (and (list? raw-tgt) (= (first raw-tgt) (quote query))) (list (quote hs-query-all) (nth raw-tgt 1)) (hs-to-sx raw-tgt))))
+                  ((tgt (let ((raw-tgt (nth ast 1))) (if (and (list? raw-tgt) (= (first raw-tgt) (quote query))) (list (quote hs-query-named-all) (nth raw-tgt 1)) (hs-to-sx raw-tgt))))
                     (strategy (if (> (len ast) 2) (nth ast 2) "display"))
                     (when-cond (if (> (len ast) 3) (nth ast 3) nil)))
                   (if
@@ -1672,7 +1836,7 @@
                         (hs-to-sx when-cond))))))
               ((= head (quote show))
                 (let
-                  ((tgt (let ((raw-tgt (nth ast 1))) (if (and (list? raw-tgt) (= (first raw-tgt) (quote query))) (list (quote hs-query-all) (nth raw-tgt 1)) (hs-to-sx raw-tgt))))
+                  ((tgt (let ((raw-tgt (nth ast 1))) (if (and (list? raw-tgt) (= (first raw-tgt) (quote query))) (list (quote hs-query-named-all) (nth raw-tgt 1)) (hs-to-sx raw-tgt))))
                     (strategy (if (> (len ast) 2) (nth ast 2) "display"))
                     (when-cond (if (> (len ast) 3) (nth ast 3) nil)))
                   (if
@@ -1735,13 +1899,28 @@
               ((= head (quote call))
                 (let
                   ((raw-fn (nth ast 1))
-                    (fn-expr
-                      (if
-                        (string? raw-fn)
-                        (make-symbol raw-fn)
-                        (hs-to-sx raw-fn)))
                     (args (map hs-to-sx (rest (rest ast)))))
-                  (cons fn-expr args)))
+                  (if
+                    (and (list? raw-fn) (= (first raw-fn) (quote ref)))
+                    (let
+                      ((name (nth raw-fn 1)))
+                      (list
+                        (quote let)
+                        (list
+                          (list
+                            (quote __hs-fn)
+                            (list (quote host-global) name)))
+                        (cons
+                          (quote do)
+                          (list
+                            (list
+                              (quote if)
+                              (list (quote nil?) (quote __hs-fn))
+                              (list (quote raise) (str "'" name "' is null"))
+                              (cons (quote __hs-fn) args))))))
+                    (let
+                      ((fn-expr (if (string? raw-fn) (make-symbol raw-fn) (hs-to-sx raw-fn))))
+                      (cons fn-expr args)))))
               ((= head (quote return))
                 (let
                   ((val (nth ast 1)))
@@ -1754,7 +1933,22 @@
               ((= head (quote throw))
                 (list (quote raise) (hs-to-sx (nth ast 1))))
               ((= head (quote settle))
-                (list (quote hs-settle) (quote me)))
+                (let
+                  ((raw-tgt (nth ast 1)))
+                  (list
+                    (quote hs-settle)
+                    (if
+                      (nil? raw-tgt)
+                      (quote me)
+                      (if
+                        (and
+                          (list? raw-tgt)
+                          (= (first raw-tgt) (quote query)))
+                        (list
+                          (quote hs-named-target)
+                          (nth raw-tgt 1)
+                          (list (quote hs-query-first) (nth raw-tgt 1)))
+                        (hs-to-sx raw-tgt))))))
               ((= head (quote go))
                 (list (quote hs-navigate!) (hs-to-sx (nth ast 1))))
               ((= head (quote ask))
@@ -1874,7 +2068,11 @@
               ((= head (quote install))
                 (cons (quote hs-install) (map hs-to-sx (rest ast))))
               ((= head (quote measure))
-                (list (quote hs-measure) (hs-to-sx (nth ast 1))))
+                (let
+                  ((raw-tgt (nth ast 1)))
+                  (let
+                    ((compiled-tgt (if (and (list? raw-tgt) (= (first raw-tgt) (quote query))) (list (quote hs-named-target) (nth raw-tgt 1) (list (quote hs-query-first) (nth raw-tgt 1))) (hs-to-sx raw-tgt))))
+                    (list (quote hs-measure) compiled-tgt))))
               ((= head (quote increment!))
                 (if
                   (= (len ast) 3)

lib/hyperscript/parser.sx

@@ -2455,7 +2455,16 @@
               ((and (= typ "keyword") (= val "answer"))
                 (do (adv!) (parse-answer-cmd)))
               ((and (= typ "keyword") (= val "settle"))
-                (do (adv!) (list (quote settle))))
+                (do
+                  (adv!)
+                  (if
+                    (or
+                      (at-end?)
+                      (and
+                        (= (tp-type) "keyword")
+                        (or (= (tp-val) "then") (= (tp-val) "end"))))
+                    (list (quote settle))
+                    (list (quote settle) (parse-expr)))))
               ((and (= typ "keyword") (= val "go"))
                 (do (adv!) (parse-go-cmd)))
               ((and (= typ "keyword") (= val "return"))

lib/hyperscript/runtime.sx

@@ -12,37 +12,14 @@
 
 ;; Register an event listener. Returns unlisten function.
 ;; (hs-on target event-name handler) → unlisten-fn
-(begin
-  (define _hs-config-log-all false)
-  (define _hs-log-captured (list))
-  (define
-    hs-set-log-all!
-    (fn (flag) (set! _hs-config-log-all (if flag true false))))
-  (define hs-get-log-captured (fn () _hs-log-captured))
-  (define
-    hs-clear-log-captured!
-    (fn () (begin (set! _hs-log-captured (list)) nil)))
-  (define
-    hs-log-event!
-    (fn
-      (msg)
-      (when
-        _hs-config-log-all
-        (begin
-          (set! _hs-log-captured (append _hs-log-captured (list msg)))
-          (host-call (host-global "console") "log" msg)
-          nil)))))
-
-;; Register for every occurrence (no queuing — each fires independently).
-;; Stock hyperscript queues by default; "every" disables queuing.
 (define
   hs-each
   (fn
     (target action)
     (if (list? target) (for-each action target) (action target))))
 
-;; Run an initializer function immediately.
-;; (hs-init thunk) — called at element boot time
+;; Register for every occurrence (no queuing — each fires independently).
+;; Stock hyperscript queues by default; "every" disables queuing.
 (define
   hs-on
   (fn
@@ -55,17 +32,17 @@
         (dom-set-data target "hs-unlisteners" (append prev (list unlisten)))
         unlisten))))
 
+;; Run an initializer function immediately.
+;; (hs-init thunk) — called at element boot time
+(define
+  hs-on-every
+  (fn (target event-name handler) (dom-listen target event-name handler)))
+
 ;; ── Async / timing ──────────────────────────────────────────────
 
 ;; Wait for a duration in milliseconds.
 ;; In hyperscript, wait is async-transparent — execution pauses.
 ;; Here we use perform/IO suspension for true pause semantics.
-(define
-  hs-on-every
-  (fn (target event-name handler) (dom-listen target event-name handler)))
-
-;; Wait for a DOM event on a target.
-;; (hs-wait-for target event-name) — suspends until event fires
 (define
   hs-on-intersection-attach!
   (fn
@@ -81,15 +58,16 @@
           (host-call observer "observe" target)
           observer)))))
 
-;; Wait for CSS transitions/animations to settle on an element.
+;; Wait for a DOM event on a target.
+;; (hs-wait-for target event-name) — suspends until event fires
 (define hs-init (fn (thunk) (thunk)))
 
+;; Wait for CSS transitions/animations to settle on an element.
+(define hs-wait (fn (ms) (perform (list (quote io-sleep) ms))))
+
 ;; ── Class manipulation ──────────────────────────────────────────
 
 ;; Toggle a single class on an element.
-(define hs-wait (fn (ms) (perform (list (quote io-sleep) ms))))
-
-;; Toggle between two classes — exactly one is active at a time.
 (begin
   (define
     hs-wait-for
@@ -102,21 +80,19 @@
       (target event-name timeout-ms)
       (perform (list (quote io-wait-event) target event-name timeout-ms)))))
 
+;; Toggle between two classes — exactly one is active at a time.
+(define hs-settle (fn (target) (perform (list (quote io-settle) target))))
+
 ;; Take a class from siblings — add to target, remove from others.
 ;; (hs-take! target cls) — like radio button class behavior
-(define hs-settle (fn (target) (perform (list (quote io-settle) target))))
+(define
+  hs-toggle-class!
+  (fn (target cls) (host-call (host-get target "classList") "toggle" cls)))
 
 ;; ── DOM insertion ───────────────────────────────────────────────
 
 ;; Put content at a position relative to a target.
 ;; pos: "into" | "before" | "after"
-(define
-  hs-toggle-class!
-  (fn (target cls) (host-call (host-get target "classList") "toggle" cls)))
-
-;; ── Navigation / traversal ──────────────────────────────────────
-
-;; Navigate to a URL.
 (define
   hs-toggle-between!
   (fn
@@ -126,7 +102,9 @@
       (do (dom-remove-class target cls1) (dom-add-class target cls2))
       (do (dom-remove-class target cls2) (dom-add-class target cls1)))))
 
-;; Find next sibling matching a selector (or any sibling).
+;; ── Navigation / traversal ──────────────────────────────────────
+
+;; Navigate to a URL.
 (define
   hs-toggle-style!
   (fn
@@ -150,7 +128,7 @@
             (dom-set-style target prop "hidden")
             (dom-set-style target prop "")))))))
 
-;; Find previous sibling matching a selector.
+;; Find next sibling matching a selector (or any sibling).
 (define
   hs-toggle-style-between!
   (fn
@@ -162,7 +140,7 @@
         (dom-set-style target prop val2)
         (dom-set-style target prop val1)))))
 
-;; First element matching selector within a scope.
+;; Find previous sibling matching a selector.
 (define
   hs-toggle-style-cycle!
   (fn
@@ -183,7 +161,7 @@
             (true (find-next (rest remaining))))))
       (dom-set-style target prop (find-next vals)))))
 
-;; Last element matching selector.
+;; First element matching selector within a scope.
 (define
   hs-take!
   (fn
@@ -206,7 +184,8 @@
             (when with-cls (dom-remove-class target with-cls))))
         (let
           ((attr-val (if (> (len extra) 0) (first extra) nil))
-            (with-val (if (> (len extra) 1) (nth extra 1) nil)))
+            (with-val
+              (if (> (len extra) 1) (nth extra 1) nil)))
           (do
             (for-each
               (fn
@@ -223,7 +202,7 @@
               (dom-set-attr target name attr-val)
               (dom-set-attr target name ""))))))))
 
-;; First/last within a specific scope.
+;; Last element matching selector.
 (begin
   (define
     hs-element?
@@ -335,6 +314,7 @@
                 (dom-insert-adjacent-html target "beforeend" value)
                 (hs-boot-subtree! target)))))))))
 
+;; First/last within a specific scope.
 (define
   hs-add-to!
   (fn
@@ -347,9 +327,6 @@
           (append target (list value))))
       (true (do (host-call target "push" value) target)))))
 
-;; ── Iteration ───────────────────────────────────────────────────
-
-;; Repeat a thunk N times.
 (define
   hs-remove-from!
   (fn
@@ -357,9 +334,15 @@
     (if
       (list? target)
       (filter (fn (x) (not (= x value))) target)
-      (host-call target "splice" (host-call target "indexOf" value) 1))))
+      (host-call
+        target
+        "splice"
+        (host-call target "indexOf" value)
+        1))))
 
-;; Repeat forever (until break — relies on exception/continuation).
+;; ── Iteration ───────────────────────────────────────────────────
+
+;; Repeat a thunk N times.
 (define
   hs-splice-at!
   (fn
@@ -372,7 +355,10 @@
           ((i (if (< idx 0) (+ n idx) idx)))
           (cond
             ((or (< i 0) (>= i n)) target)
-            (true (concat (slice target 0 i) (slice target (+ i 1) n))))))
+            (true
+              (concat
+                (slice target 0 i)
+                (slice target (+ i 1) n))))))
       (do
         (when
           target
@@ -383,10 +369,7 @@
               (host-call target "splice" i 1))))
         target))))
 
-;; ── Fetch ───────────────────────────────────────────────────────
-
-;; Fetch a URL, parse response according to format.
-;; (hs-fetch url format) — format is "json" | "text" | "html"
+;; Repeat forever (until break — relies on exception/continuation).
 (define
   hs-index
   (fn
@@ -398,10 +381,10 @@
       ((string? obj) (nth obj key))
       (true (host-get obj key)))))
 
-;; ── Type coercion ───────────────────────────────────────────────
+;; ── Fetch ───────────────────────────────────────────────────────
 
-;; Coerce a value to a type by name.
-;; (hs-coerce value type-name) — type-name is "Int", "Float", "String", etc.
+;; Fetch a URL, parse response according to format.
+;; (hs-fetch url format) — format is "json" | "text" | "html"
 (define
   hs-put-at!
   (fn
@@ -423,10 +406,10 @@
                 ((= pos "start") (host-call target "unshift" value)))
               target)))))))
 
-;; ── Object creation ─────────────────────────────────────────────
+;; ── Type coercion ───────────────────────────────────────────────
 
-;; Make a new object of a given type.
-;; (hs-make type-name) — creates empty object/collection
+;; Coerce a value to a type by name.
+;; (hs-coerce value type-name) — type-name is "Int", "Float", "String", etc.
 (define
   hs-dict-without
   (fn
@@ -447,27 +430,27 @@
           (host-call (host-global "Reflect") "deleteProperty" out key)
           out)))))
 
-;; ── Behavior installation ───────────────────────────────────────
+;; ── Object creation ─────────────────────────────────────────────
 
-;; Install a behavior on an element.
-;; A behavior is a function that takes (me ...params) and sets up features.
-;; (hs-install behavior-fn me ...args)
+;; Make a new object of a given type.
+;; (hs-make type-name) — creates empty object/collection
 (define
   hs-set-on!
   (fn
     (props target)
     (for-each (fn (k) (host-set! target k (get props k))) (keys props))))
 
+;; ── Behavior installation ───────────────────────────────────────
+
+;; Install a behavior on an element.
+;; A behavior is a function that takes (me ...params) and sets up features.
+;; (hs-install behavior-fn me ...args)
+(define hs-navigate! (fn (url) (perform (list (quote io-navigate) url))))
+
 ;; ── Measurement ─────────────────────────────────────────────────
 
 ;; Measure an element's bounding rect, store as local variables.
 ;; Returns a dict with x, y, width, height, top, left, right, bottom.
-(define hs-navigate! (fn (url) (perform (list (quote io-navigate) url))))
-
-;; Return the current text selection as a string.  In the browser this is
-;; `window.getSelection().toString()`.  In the mock test runner, a test
-;; setup stashes the desired selection text at `window.__test_selection`
-;; and the fallback path returns that so tests can assert on the result.
 (define
   hs-ask
   (fn
@@ -476,11 +459,10 @@
       ((w (host-global "window")))
       (if w (host-call w "prompt" msg) nil))))
 
-
-;; ── Transition ──────────────────────────────────────────────────
-
-;; Transition a CSS property to a value, optionally with duration.
-;; (hs-transition target prop value duration)
+;; Return the current text selection as a string.  In the browser this is
+;; `window.getSelection().toString()`.  In the mock test runner, a test
+;; setup stashes the desired selection text at `window.__test_selection`
+;; and the fallback path returns that so tests can assert on the result.
 (define
   hs-answer
   (fn
@@ -489,6 +471,11 @@
       ((w (host-global "window")))
       (if w (if (host-call w "confirm" msg) yes-val no-val) no-val))))
 
+
+;; ── Transition ──────────────────────────────────────────────────
+
+;; Transition a CSS property to a value, optionally with duration.
+;; (hs-transition target prop value duration)
 (define
   hs-answer-alert
   (fn
@@ -643,25 +630,25 @@
       (hs-query-all sel)
       (host-call target "querySelectorAll" sel))))
 
-
-
-
-
 (define
   hs-list-set
   (fn
     (lst idx val)
     (append (take lst idx) (cons val (drop lst (+ idx 1))))))
 
+
+
+
+
 (define
   hs-to-number
   (fn (v) (if (number? v) v (or (parse-number (str v)) 0))))
-;; ── Sandbox/test runtime additions ──────────────────────────────
-;; Property access — dot notation and .length
+
 (define
   hs-query-first
   (fn (sel) (host-call (host-global "document") "querySelector" sel)))
-;; DOM query stub — sandbox returns empty list
+;; ── Sandbox/test runtime additions ──────────────────────────────
+;; Property access — dot notation and .length
 (define
   hs-query-last
   (fn
@@ -669,11 +656,9 @@
     (let
       ((all (dom-query-all (dom-body) sel)))
       (if (> (len all) 0) (nth all (- (len all) 1)) nil))))
-;; Method dispatch — obj.method(args)
+;; DOM query stub — sandbox returns empty list
 (define hs-first (fn (scope sel) (dom-query-all scope sel)))
-
-;; ── 0.9.90 features ─────────────────────────────────────────────
-;; beep! — debug logging, returns value unchanged
+;; Method dispatch — obj.method(args)
 (define
   hs-last
   (fn
@@ -681,7 +666,9 @@
     (let
       ((all (dom-query-all scope sel)))
       (if (> (len all) 0) (nth all (- (len all) 1)) nil))))
-;; Property-based is — check obj.key truthiness
+
+;; ── 0.9.90 features ─────────────────────────────────────────────
+;; beep! — debug logging, returns value unchanged
 (define
   hs-repeat-times
   (fn
@@ -699,7 +686,7 @@
               ((= signal "hs-continue") (do-repeat (+ i 1)))
               (true (do-repeat (+ i 1))))))))
     (do-repeat 0)))
-;; Array slicing (inclusive both ends)
+;; Property-based is — check obj.key truthiness
 (define
   hs-repeat-forever
   (fn
@@ -715,7 +702,7 @@
             ((= signal "hs-continue") (do-forever))
             (true (do-forever))))))
     (do-forever)))
-;; Collection: sorted by
+;; Array slicing (inclusive both ends)
 (define
   hs-repeat-while
   (fn
@@ -728,7 +715,7 @@
           ((= signal "hs-break") nil)
           ((= signal "hs-continue") (hs-repeat-while cond-fn thunk))
           (true (hs-repeat-while cond-fn thunk)))))))
-;; Collection: sorted by descending
+;; Collection: sorted by
 (define
   hs-repeat-until
   (fn
@@ -740,7 +727,7 @@
         ((= signal "hs-continue")
           (if (cond-fn) nil (hs-repeat-until cond-fn thunk)))
         (true (if (cond-fn) nil (hs-repeat-until cond-fn thunk)))))))
-;; Collection: split by
+;; Collection: sorted by descending
 (define
   hs-for-each
   (fn
@@ -760,7 +747,7 @@
                 ((= signal "hs-continue") (do-loop (rest remaining)))
                 (true (do-loop (rest remaining))))))))
       (do-loop items))))
-;; Collection: joined by
+;; Collection: split by
 (begin
   (define
     hs-append
@@ -788,7 +775,7 @@
         ((hs-element? target)
           (dom-insert-adjacent-html target "beforeend" (str value)))
         (true nil)))))
-
+;; Collection: joined by
 (define
   hs-sender
   (fn
@@ -1310,10 +1297,14 @@
                 ((ch (substring sel i (+ i 1))))
                 (cond
                   ((= ch ".")
-                    (do (flush!) (set! mode "class") (walk (+ i 1))))
+                    (do
+                      (flush!)
+                      (set! mode "class")
+                      (walk (+ i 1))))
                   ((= ch "#")
                     (do (flush!) (set! mode "id") (walk (+ i 1))))
-                  (true (do (set! cur (str cur ch)) (walk (+ i 1)))))))))
+                  (true
+                    (do (set! cur (str cur ch)) (walk (+ i 1)))))))))
         (walk 0)
         (flush!)
         {:tag tag :classes classes :id id}))))
@@ -1398,6 +1389,7 @@
   hs-strict-eq
   (fn (a b) (and (= (type-of a) (type-of b)) (= a b))))
 
+
 (define
   hs-eq-ignore-case
   (fn (a b) (= (downcase (str a)) (downcase (str b)))))
@@ -1438,7 +1430,10 @@
       ((and (dict? a) (dict? b))
         (let
           ((pos (host-call a "compareDocumentPosition" b)))
-          (if (number? pos) (not (= 0 (mod (/ pos 4) 2))) false)))
+          (if
+            (number? pos)
+            (not (= 0 (mod (/ pos 4) 2)))
+            false)))
       (true (< (str a) (str b))))))
 
 (define
@@ -1540,7 +1535,10 @@
       ((and (dict? a) (dict? b))
         (let
           ((pos (host-call a "compareDocumentPosition" b)))
-          (if (number? pos) (not (= 0 (mod (/ pos 4) 2))) false)))
+          (if
+            (number? pos)
+            (not (= 0 (mod (/ pos 4) 2)))
+            false)))
       (true (< (str a) (str b))))))
 
 (define
@@ -1591,7 +1589,9 @@
 
 (define
   hs-morph-char
-  (fn (s p) (if (or (< p 0) (>= p (string-length s))) nil (nth s p))))
+  (fn
+    (s p)
+    (if (or (< p 0) (>= p (string-length s))) nil (nth s p))))
 
 (define
   hs-morph-index-from
@@ -1619,7 +1619,10 @@
         (q)
         (let
           ((c (hs-morph-char s q)))
-          (if (and c (< (index-of stop c) 0)) (loop (+ q 1)) q))))
+          (if
+            (and c (< (index-of stop c) 0))
+            (loop (+ q 1))
+            q))))
     (let ((e (loop p))) (list (substring s p e) e))))
 
 (define
@@ -1661,7 +1664,9 @@
                                 (append
                                   acc
                                   (list
-                                    (list name (substring s (+ p4 1) close)))))))
+                                    (list
+                                      name
+                                      (substring s (+ p4 1) close)))))))
                           ((= c2 "'")
                             (let
                               ((close (hs-morph-index-from s "'" (+ p4 1))))
@@ -1671,7 +1676,9 @@
                                 (append
                                   acc
                                   (list
-                                    (list name (substring s (+ p4 1) close)))))))
+                                    (list
+                                      name
+                                      (substring s (+ p4 1) close)))))))
                           (true
                             (let
                               ((r2 (hs-morph-read-until s p4 " \t\n/>")))
@@ -1755,7 +1762,9 @@
               (for-each
                 (fn
                   (c)
-                  (when (> (string-length c) 0) (dom-add-class el c)))
+                  (when
+                    (> (string-length c) 0)
+                    (dom-add-class el c)))
                 (split v " ")))
             ((and keep-id (= n "id")) nil)
             (true (dom-set-attr el n v)))))
@@ -1856,7 +1865,8 @@
           ((parts (split resolved ":")))
           (let
             ((prop (first parts))
-              (val (if (> (len parts) 1) (nth parts 1) nil)))
+              (val
+                (if (> (len parts) 1) (nth parts 1) nil)))
             (cond
               ((and (not (= prop "display")) (not (= prop "opacity")) (not (= prop "visibility")) (not (= prop "hidden")) (not (= prop "class-hidden")) (not (= prop "class-invisible")) (not (= prop "class-opacity")) (not (= prop "details")) (not (= prop "dialog")) (dict-has? _hs-hide-strategies prop))
                 (let
@@ -1895,7 +1905,8 @@
           ((parts (split resolved ":")))
           (let
             ((prop (first parts))
-              (val (if (> (len parts) 1) (nth parts 1) nil)))
+              (val
+                (if (> (len parts) 1) (nth parts 1) nil)))
             (cond
               ((and (not (= prop "display")) (not (= prop "opacity")) (not (= prop "visibility")) (not (= prop "hidden")) (not (= prop "class-hidden")) (not (= prop "class-invisible")) (not (= prop "class-opacity")) (not (= prop "details")) (not (= prop "dialog")) (dict-has? _hs-hide-strategies prop))
                 (let
@@ -1999,10 +2010,14 @@
                             (if
                               (= depth 1)
                               j
-                              (find-close (+ j 1) (- depth 1)))
+                              (find-close
+                                (+ j 1)
+                                (- depth 1)))
                             (if
                               (= (nth raw j) "{")
-                              (find-close (+ j 1) (+ depth 1))
+                              (find-close
+                                (+ j 1)
+                                (+ depth 1))
                               (find-close (+ j 1) depth))))))
                     (let
                       ((close (find-close start 1)))
@@ -2093,7 +2108,10 @@
               (if
                 (= (len lst) 0)
                 -1
-                (if (= (first lst) item) i (idx-loop (rest lst) (+ i 1))))))
+                (if
+                  (= (first lst) item)
+                  i
+                  (idx-loop (rest lst) (+ i 1))))))
           (idx-loop obj 0)))
       (true nil))))
 
@@ -2179,7 +2197,8 @@
                 (cond
                   ((= end "hs-pick-end") n)
                   ((= end "hs-pick-start") 0)
-                  ((and (number? end) (< end 0)) (max 0 (+ n end)))
+                  ((and (number? end) (< end 0))
+                    (max 0 (+ n end)))
                   (true end))))
             (cond
               ((string? col) (slice col s e))
@@ -2466,6 +2485,50 @@
           ((nth entry 2) val)))
       _hs-dom-watchers)))
 
+(define hs-prolog-hook nil)
+
+(define hs-set-prolog-hook! (fn (f) (set! hs-prolog-hook f)))
+
+(define
+  prolog
+  (fn
+    (db goal)
+    (if
+      (nil? hs-prolog-hook)
+      (raise "prolog hook not installed")
+      (hs-prolog-hook db goal))))
+
+(define
+  hs-null-error!
+  (fn (selector) (raise (str "'" selector "' is null"))))
+
+(define
+  hs-named-target
+  (fn (selector value) (if (nil? value) (hs-null-error! selector) value)))
+
+(define
+  hs-named-target-list
+  (fn
+    (selector values)
+    (if (nil? values) (hs-null-error! selector) values)))
+
+(define
+  hs-query-named-all
+  (fn
+    (selector)
+    (let
+      ((results (hs-query-all selector)))
+      (if
+        (and
+          (or
+            (nil? results)
+            (and (list? results) (= (len results) 0)))
+          (string? selector)
+          (> (len selector) 0)
+          (= (substring selector 0 1) "#"))
+        (hs-null-error! selector)
+        results))))
+
 (define
   hs-dom-is-ancestor?
   (fn

lib/js/conformance.sh

@@ -49,6 +49,8 @@ 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

lib/js/regex.sx

@@ -0,0 +1,943 @@
+;; 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)

lib/js/runtime.sx

@@ -2032,7 +2032,15 @@
           (&rest args)
           (cond
             ((= (len args) 0) nil)
-            ((js-regex? (nth args 0)) (js-regex-stub-exec (nth args 0) s))
+            ((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)))))
             (else
               (let
                 ((needle (js-to-string (nth args 0))))
@@ -2041,7 +2049,7 @@
                   (if
                     (= idx -1)
                     nil
-                    (let ((res (list))) (append! res needle) res))))))))
+                    (let ((res (list))) (begin (append! res needle) res)))))))))
       ((= name "at")
         (fn
           (i)
@@ -2099,6 +2107,20 @@
       ((= 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

lib/js/stdlib.sx

@@ -0,0 +1,239 @@
+;; 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)

lib/js/test.sh

@@ -33,6 +33,10 @@ 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)
@@ -1323,6 +1327,166 @@ 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
 
 
@@ -2042,6 +2206,81 @@ 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"

lib/js/test262-runner.py

@@ -798,6 +798,7 @@ 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()

lib/js/transpile.sx

@@ -935,12 +935,12 @@
 
 (define
   js-transpile-var
-  (fn (kind decls) (cons (js-sym "begin") (js-vardecl-forms decls))))
+  (fn (kind decls) (cons (js-sym "begin") (js-vardecl-forms kind decls))))
 
 (define
   js-vardecl-forms
   (fn
-    (decls)
+    (kind 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 (rest decls))))
+                (js-vardecl-forms kind (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 (rest decls))))))
+                    (js-vardecl-forms kind (rest decls))))))
             ((js-tag? d "js-vardecl-arr")
               (let
                 ((names (nth d 1))
@@ -976,7 +976,7 @@
                     names
                     tmp-sym
                     0
-                    (js-vardecl-forms (rest decls))))))
+                    (js-vardecl-forms kind (rest decls))))))
             (else (error "js-vardecl-forms: unexpected decl"))))))))
 
 (define

lib/lua/conformance.py

@@ -1,348 +0,0 @@
-#!/usr/bin/env python3
-"""lua-conformance — run the PUC-Rio Lua 5.1 test suite against Lua-on-SX.
-
-Walks lib/lua/lua-tests/*.lua, evaluates each via `lua-eval-ast` on a
-long-lived sx_server.exe subprocess, classifies pass/fail/timeout per file,
-and writes lib/lua/scoreboard.{json,md}.
-
-Modelled on lib/js/test262-runner.py but much simpler: each Lua test file is
-its own unit (they're self-contained assertion scripts; they pass if they
-complete without raising). No harness stub, no frontmatter, no worker pool.
-
-Usage:
-    python3 lib/lua/conformance.py
-    python3 lib/lua/conformance.py --filter locals
-    python3 lib/lua/conformance.py --per-test-timeout 3 -v
-"""
-from __future__ import annotations
-
-import argparse
-import json
-import os
-import re
-import select
-import subprocess
-import sys
-import time
-from collections import Counter
-from pathlib import Path
-
-REPO = Path(__file__).resolve().parents[2]
-SX_SERVER_PRIMARY = REPO / "hosts" / "ocaml" / "_build" / "default" / "bin" / "sx_server.exe"
-SX_SERVER_FALLBACK = Path("/root/rose-ash/hosts/ocaml/_build/default/bin/sx_server.exe")
-TESTS_DIR = REPO / "lib" / "lua" / "lua-tests"
-
-DEFAULT_TIMEOUT = 8.0
-
-# Files that require facilities we don't (and won't soon) support.
-# Still classified as skip rather than fail so the scoreboard stays honest.
-HARDCODED_SKIP = {
-    "all.lua":        "driver uses dofile to chain other tests",
-    "api.lua":        "requires testC (C debug library)",
-    "checktable.lua": "internal debug helpers",
-    "code.lua":       "bytecode inspection via debug library",
-    "db.lua":         "debug library",
-    "files.lua":      "io library",
-    "gc.lua":         "collectgarbage / finalisers",
-    "main.lua":       "standalone interpreter driver",
-}
-
-RX_OK_INLINE = re.compile(r"^\(ok (\d+) (.*)\)\s*$")
-RX_OK_LEN = re.compile(r"^\(ok-len (\d+) \d+\)\s*$")
-RX_ERR = re.compile(r"^\(error (\d+) (.*)\)\s*$")
-
-
-def pick_sx_server() -> Path:
-    if SX_SERVER_PRIMARY.exists():
-        return SX_SERVER_PRIMARY
-    return SX_SERVER_FALLBACK
-
-
-def sx_escape_nested(s: str) -> str:
-    """Two-level escape: (eval "(lua-eval-ast \"<src>\")").
-
-    Outer literal is consumed by `eval` then the inner literal by `lua-eval-ast`.
-    """
-    inner = (
-        s.replace("\\", "\\\\")
-        .replace('"', '\\"')
-        .replace("\n", "\\n")
-        .replace("\r", "\\r")
-        .replace("\t", "\\t")
-    )
-    return inner.replace("\\", "\\\\").replace('"', '\\"')
-
-
-def classify_error(msg: str) -> str:
-    m = msg.lower()
-    sym = re.search(r"undefined symbol:\s*\\?\"?([^\"\s)]+)", msg, re.I)
-    if sym:
-        return f"undefined symbol: {sym.group(1).strip(chr(34))}"
-    if "undefined symbol" in m:
-        return "undefined symbol"
-    if "lua: arith" in m:
-        return "arith type error"
-    if "lua-transpile" in m:
-        return "transpile: unsupported node"
-    if "lua-parse" in m:
-        return "parse error"
-    if "lua-tokenize" in m:
-        return "tokenize error"
-    if "unknown node" in m:
-        return "unknown AST node"
-    if "not yet supported" in m:
-        return "not yet supported"
-    if "nth: index out" in m or "nth:" in m:
-        return "nth index error"
-    if "timeout" in m:
-        return "timeout"
-    # Strip SX-side wrapping and trim
-    trimmed = msg.strip('"').strip()
-    return f"other: {trimmed[:80]}"
-
-
-class Session:
-    def __init__(self, sx_server: Path, timeout: float):
-        self.sx_server = sx_server
-        self.timeout = timeout
-        self.proc: subprocess.Popen | None = None
-        self._buf = b""
-        self._fd = -1
-
-    def start(self) -> None:
-        self.proc = subprocess.Popen(
-            [str(self.sx_server)],
-            stdin=subprocess.PIPE,
-            stdout=subprocess.PIPE,
-            stderr=subprocess.DEVNULL,
-            cwd=str(REPO),
-            bufsize=0,
-        )
-        self._fd = self.proc.stdout.fileno()
-        self._buf = b""
-        os.set_blocking(self._fd, False)
-        self._wait_for("(ready)", timeout=15.0)
-        self._run(1, '(load "lib/lua/tokenizer.sx")', 60)
-        self._run(2, '(load "lib/lua/parser.sx")', 60)
-        self._run(3, '(load "lib/lua/runtime.sx")', 60)
-        self._run(4, '(load "lib/lua/transpile.sx")', 60)
-
-    def stop(self) -> None:
-        if self.proc is None:
-            return
-        try:
-            self.proc.stdin.close()
-        except Exception:
-            pass
-        try:
-            self.proc.terminate()
-            self.proc.wait(timeout=3)
-        except Exception:
-            try:
-                self.proc.kill()
-            except Exception:
-                pass
-        self.proc = None
-
-    def _readline(self, timeout: float) -> str | None:
-        deadline = time.monotonic() + timeout
-        while True:
-            nl = self._buf.find(b"\n")
-            if nl >= 0:
-                line = self._buf[: nl + 1]
-                self._buf = self._buf[nl + 1 :]
-                return line.decode("utf-8", errors="replace")
-            remaining = deadline - time.monotonic()
-            if remaining <= 0:
-                raise TimeoutError("readline timeout")
-            try:
-                rlist, _, _ = select.select([self._fd], [], [], remaining)
-            except (OSError, ValueError):
-                return None
-            if not rlist:
-                raise TimeoutError("readline timeout")
-            try:
-                chunk = os.read(self._fd, 65536)
-            except (BlockingIOError, InterruptedError):
-                continue
-            except OSError:
-                return None
-            if not chunk:
-                if self._buf:
-                    rv = self._buf.decode("utf-8", errors="replace")
-                    self._buf = b""
-                    return rv
-                return None
-            self._buf += chunk
-
-    def _wait_for(self, token: str, timeout: float) -> None:
-        start = time.monotonic()
-        while time.monotonic() - start < timeout:
-            line = self._readline(timeout - (time.monotonic() - start))
-            if line is None:
-                raise RuntimeError("sx_server closed stdout before ready")
-            if token in line:
-                return
-        raise TimeoutError(f"timeout waiting for {token}")
-
-    def _run(self, epoch: int, cmd: str, timeout: float):
-        payload = f"(epoch {epoch})\n{cmd}\n".encode("utf-8")
-        try:
-            self.proc.stdin.write(payload)
-            self.proc.stdin.flush()
-        except (BrokenPipeError, OSError):
-            raise RuntimeError("sx_server stdin closed")
-        deadline = time.monotonic() + timeout
-        while time.monotonic() < deadline:
-            remaining = deadline - time.monotonic()
-            if remaining <= 0:
-                raise TimeoutError(f"epoch {epoch} timeout")
-            line = self._readline(remaining)
-            if line is None:
-                raise RuntimeError("sx_server closed stdout mid-epoch")
-            m = RX_OK_INLINE.match(line)
-            if m and int(m.group(1)) == epoch:
-                return "ok", m.group(2)
-            m = RX_OK_LEN.match(line)
-            if m and int(m.group(1)) == epoch:
-                val = self._readline(deadline - time.monotonic()) or ""
-                return "ok", val.rstrip("\n")
-            m = RX_ERR.match(line)
-            if m and int(m.group(1)) == epoch:
-                return "error", m.group(2)
-        raise TimeoutError(f"epoch {epoch} timeout")
-
-    def run_lua(self, epoch: int, src: str):
-        escaped = sx_escape_nested(src)
-        cmd = f'(eval "(lua-eval-ast \\"{escaped}\\")")'
-        return self._run(epoch, cmd, self.timeout)
-
-
-def main() -> int:
-    ap = argparse.ArgumentParser()
-    ap.add_argument("--per-test-timeout", type=float, default=DEFAULT_TIMEOUT)
-    ap.add_argument("--filter", type=str, default=None,
-                    help="only run tests whose filename contains this substring")
-    ap.add_argument("-v", "--verbose", action="store_true")
-    ap.add_argument("--no-scoreboard", action="store_true",
-                    help="do not write scoreboard.{json,md}")
-    args = ap.parse_args()
-
-    sx_server = pick_sx_server()
-    if not sx_server.exists():
-        print(f"ERROR: sx_server not found at {sx_server}", file=sys.stderr)
-        return 1
-    if not TESTS_DIR.exists():
-        print(f"ERROR: no tests dir at {TESTS_DIR}", file=sys.stderr)
-        return 1
-
-    tests = sorted(TESTS_DIR.glob("*.lua"))
-    if args.filter:
-        tests = [p for p in tests if args.filter in p.name]
-    if not tests:
-        print("No tests matched.", file=sys.stderr)
-        return 1
-
-    print(f"Running {len(tests)} Lua test file(s)…", file=sys.stderr)
-    session = Session(sx_server, args.per_test_timeout)
-    session.start()
-
-    results = []
-    failure_modes: Counter = Counter()
-
-    try:
-        for i, path in enumerate(tests, start=1):
-            name = path.name
-            skip_reason = HARDCODED_SKIP.get(name)
-            if skip_reason:
-                results.append({"name": name, "status": "skip", "reason": skip_reason, "ms": 0})
-                if args.verbose:
-                    print(f"  - {name}: SKIP ({skip_reason})")
-                continue
-
-            try:
-                src = path.read_text(encoding="utf-8")
-            except UnicodeDecodeError:
-                src = path.read_text(encoding="latin-1")
-            t0 = time.monotonic()
-            try:
-                kind, payload = session.run_lua(100 + i, src)
-                ms = int((time.monotonic() - t0) * 1000)
-                if kind == "ok":
-                    results.append({"name": name, "status": "pass", "reason": "", "ms": ms})
-                    if args.verbose:
-                        print(f"  + {name}: PASS ({ms}ms)")
-                else:
-                    reason = classify_error(payload)
-                    failure_modes[reason] += 1
-                    results.append({"name": name, "status": "fail", "reason": reason, "ms": ms})
-                    if args.verbose:
-                        print(f"  - {name}: FAIL — {reason}")
-            except TimeoutError:
-                ms = int((time.monotonic() - t0) * 1000)
-                failure_modes["timeout"] += 1
-                results.append({"name": name, "status": "timeout", "reason": "per-test timeout",
-                                "ms": ms})
-                if args.verbose:
-                    print(f"  - {name}: TIMEOUT ({ms}ms)")
-                # Restart after a timeout to shed any stuck state.
-                session.stop()
-                session.start()
-    finally:
-        session.stop()
-
-    n_pass = sum(1 for r in results if r["status"] == "pass")
-    n_fail = sum(1 for r in results if r["status"] == "fail")
-    n_timeout = sum(1 for r in results if r["status"] == "timeout")
-    n_skip = sum(1 for r in results if r["status"] == "skip")
-    n_total = len(results)
-    n_runnable = n_total - n_skip
-    pct = (n_pass / n_runnable * 100.0) if n_runnable else 0.0
-
-    print()
-    print(f"Lua-on-SX conformance: {n_pass}/{n_runnable} runnable pass ({pct:.1f}%)  "
-          f"fail={n_fail} timeout={n_timeout} skip={n_skip} total={n_total}")
-    if failure_modes:
-        print("Top failure modes:")
-        for mode, count in failure_modes.most_common(10):
-            print(f"  {count}x  {mode}")
-
-    if not args.no_scoreboard:
-        sb = {
-            "totals": {
-                "pass": n_pass, "fail": n_fail, "timeout": n_timeout,
-                "skip": n_skip, "total": n_total, "runnable": n_runnable,
-                "pass_rate": round(pct, 1),
-            },
-            "top_failure_modes": failure_modes.most_common(20),
-            "results": results,
-        }
-        (REPO / "lib" / "lua" / "scoreboard.json").write_text(
-            json.dumps(sb, indent=2), encoding="utf-8"
-        )
-        md = [
-            "# Lua-on-SX conformance scoreboard",
-            "",
-            f"**Pass rate:** {n_pass}/{n_runnable} runnable ({pct:.1f}%)",
-            f"fail={n_fail} timeout={n_timeout} skip={n_skip} total={n_total}",
-            "",
-            "## Top failure modes",
-            "",
-        ]
-        for mode, count in failure_modes.most_common(10):
-            md.append(f"- **{count}x** {mode}")
-        md.extend(["", "## Per-test results", "",
-                   "| Test | Status | Reason | ms |",
-                   "|---|---|---|---:|"])
-        for r in results:
-            reason = r["reason"] or "-"
-            md.append(f"| {r['name']} | {r['status']} | {reason} | {r['ms']} |")
-        (REPO / "lib" / "lua" / "scoreboard.md").write_text(
-            "\n".join(md) + "\n", encoding="utf-8"
-        )
-
-    return 0 if (n_fail == 0 and n_timeout == 0) else 1
-
-
-if __name__ == "__main__":
-    sys.exit(main())

lib/lua/conformance.sh

@@ -1,13 +0,0 @@
-#!/usr/bin/env bash
-# Lua-on-SX conformance runner — walks lib/lua/lua-tests/*.lua, runs each via
-# `lua-eval-ast` on a long-lived sx_server.exe subprocess, classifies
-# pass/fail/timeout, and writes lib/lua/scoreboard.{json,md}.
-#
-# Usage:
-#   bash lib/lua/conformance.sh               # full suite
-#   bash lib/lua/conformance.sh --filter sort # filter by filename substring
-#   bash lib/lua/conformance.sh -v            # per-file verbose
-
-set -uo pipefail
-cd "$(git rev-parse --show-toplevel)"
-exec python3 lib/lua/conformance.py "$@"

lib/lua/lua-tests/README

@@ -1,41 +0,0 @@
-This tarball contains the official test scripts for Lua 5.1.
-Unlike Lua itself, these tests do not aim portability, small footprint,
-or easy of use. (Their main goal is to try to crash Lua.) They are not
-intended for general use. You are wellcome to use them, but expect to
-have to "dirt your hands".
-
-The tarball should expand in the following contents:
-  - several .lua scripts with the tests
-  - a main "all.lua" Lua script that invokes all the other scripts
-  - a subdirectory "libs" with an empty subdirectory "libs/P1",
-    to be used by the scripts
-  - a subdirectory "etc" with some extra files
-
-To run the tests, do as follows:
-
-- go to the test directory
-
-- set LUA_PATH to "?;./?.lua" (or, better yet, set LUA_PATH to "./?.lua;;"
-  and LUA_INIT to "package.path = '?;'..package.path")
-
-- run "lua all.lua"
-
-
---------------------------------------------
-Internal tests
---------------------------------------------
-
-Some tests need a special library, "testC", that gives access to
-several internal structures in Lua.
-This library is only available when Lua is compiled in debug mode.
-The scripts automatically detect its absence and skip those tests.
-
-If you want to run these tests, move etc/ltests.c and etc/ltests.h to
-the directory with the source Lua files, and recompile Lua with
-the option -DLUA_USER_H='"ltests.h"' (or its equivalent to define
-LUA_USER_H as the string "ltests.h", including the quotes). This
-option not only adds the testC library, but it adds several other
-internal tests as well. After the recompilation, run the tests
-as before.
-
-

lib/lua/lua-tests/all.lua

@@ -1,137 +0,0 @@
-#!../lua
-
-math.randomseed(0)
-
-collectgarbage("setstepmul", 180)
-collectgarbage("setpause", 190)
-
-
---[=[
-  example of a long [comment],
-  [[spanning several [lines]]]
-
-]=]
-
-print("current path:\n  " .. string.gsub(package.path, ";", "\n  "))
-
-
-local msgs = {}
-function Message (m)
-  print(m)
-  msgs[#msgs+1] = string.sub(m, 3, -3)
-end
-
-
-local c = os.clock()
-
-assert(os.setlocale"C")
-
-local T,print,gcinfo,format,write,assert,type =
-      T,print,gcinfo,string.format,io.write,assert,type
-
-local function formatmem (m)
-  if m < 1024 then return m
-  else
-    m = m/1024 - m/1024%1
-    if m < 1024 then return m.."K"
-    else
-      m = m/1024 - m/1024%1
-      return m.."M"
-    end
-  end
-end
-
-local showmem = function ()
-  if not T then
-    print(format("    ---- total memory: %s ----\n", formatmem(gcinfo())))
-  else
-    T.checkmemory()
-    local a,b,c = T.totalmem()
-    local d,e = gcinfo()
-    print(format(
-  "\n    ---- total memory: %s (%dK), max use: %s,  blocks: %d\n",
-                        formatmem(a),  d,      formatmem(c),           b))
-  end
-end
-
-
---
--- redefine dofile to run files through dump/undump
---
-dofile = function (n)
-  showmem()
-  local f = assert(loadfile(n))
-  local b = string.dump(f)
-  f = assert(loadstring(b))
-  return f()
-end
-
-dofile('main.lua')
-
-do
-  local u = newproxy(true)
-  local newproxy, stderr = newproxy, io.stderr
-  getmetatable(u).__gc = function (o)
-    stderr:write'.'
-    newproxy(o)
-  end
-end
-
-local f = assert(loadfile('gc.lua'))
-f()
-dofile('db.lua')
-assert(dofile('calls.lua') == deep and deep)
-dofile('strings.lua')
-dofile('literals.lua')
-assert(dofile('attrib.lua') == 27)
-assert(dofile('locals.lua') == 5)
-dofile('constructs.lua')
-dofile('code.lua')
-do
-  local f = coroutine.wrap(assert(loadfile('big.lua')))
-  assert(f() == 'b')
-  assert(f() == 'a')
-end
-dofile('nextvar.lua')
-dofile('pm.lua')
-dofile('api.lua')
-assert(dofile('events.lua') == 12)
-dofile('vararg.lua')
-dofile('closure.lua')
-dofile('errors.lua')
-dofile('math.lua')
-dofile('sort.lua')
-assert(dofile('verybig.lua') == 10); collectgarbage()
-dofile('files.lua')
-
-if #msgs > 0 then
-  print("\ntests not performed:")
-  for i=1,#msgs do
-    print(msgs[i])
-  end
-  print()
-end
-
-print("final OK !!!")
-print('cleaning all!!!!')
-
-debug.sethook(function (a) assert(type(a) == 'string') end, "cr")
-
-local _G, collectgarbage, showmem, print, format, clock =
-      _G, collectgarbage, showmem, print, format, os.clock
-
-local a={}
-for n in pairs(_G) do a[n] = 1 end
-a.tostring = nil
-a.___Glob = nil
-for n in pairs(a) do _G[n] = nil end
-
-a = nil
-collectgarbage()
-collectgarbage()
-collectgarbage()
-collectgarbage()
-collectgarbage()
-collectgarbage();showmem()
-
-print(format("\n\ntotal time: %.2f\n", clock()-c))

lib/lua/lua-tests/api.lua

@@ -1,711 +0,0 @@
-
-if T==nil then
-  (Message or print)('\a\n >>> testC not active: skipping API tests <<<\n\a')
-  return
-end
-
-
-
-function tcheck (t1, t2)
-  table.remove(t1, 1)  -- remove code
-  assert(table.getn(t1) == table.getn(t2))
-  for i=1,table.getn(t1) do assert(t1[i] == t2[i]) end
-end
-
-function pack(...) return arg end
-
-
-print('testing C API')
-
--- testing allignment
-a = T.d2s(12458954321123)
-assert(string.len(a) == 8)   -- sizeof(double)
-assert(T.s2d(a) == 12458954321123)
-
-a,b,c = T.testC("pushnum 1; pushnum 2; pushnum 3; return 2")
-assert(a == 2 and b == 3 and not c)
-
--- test that all trues are equal
-a,b,c = T.testC("pushbool 1; pushbool 2; pushbool 0; return 3")
-assert(a == b and a == true and c == false)
-a,b,c = T.testC"pushbool 0; pushbool 10; pushnil;\
-                      tobool -3; tobool -3; tobool -3; return 3"
-assert(a==0 and b==1 and c==0)
-
-
-a,b,c = T.testC("gettop; return 2", 10, 20, 30, 40)
-assert(a == 40 and b == 5 and not c)
-
-t = pack(T.testC("settop 5; gettop; return .", 2, 3))
-tcheck(t, {n=4,2,3})
-
-t = pack(T.testC("settop 0; settop 15; return 10", 3, 1, 23))
-assert(t.n == 10 and t[1] == nil and t[10] == nil)
-
-t = pack(T.testC("remove -2; gettop; return .", 2, 3, 4))
-tcheck(t, {n=2,2,4})
-
-t = pack(T.testC("insert -1; gettop; return .", 2, 3))
-tcheck(t, {n=2,2,3})
-
-t = pack(T.testC("insert 3; gettop; return .", 2, 3, 4, 5))
-tcheck(t, {n=4,2,5,3,4})
-
-t = pack(T.testC("replace 2; gettop; return .", 2, 3, 4, 5))
-tcheck(t, {n=3,5,3,4})
-
-t = pack(T.testC("replace -2; gettop; return .", 2, 3, 4, 5))
-tcheck(t, {n=3,2,3,5})
-
-t = pack(T.testC("remove 3; gettop; return .", 2, 3, 4, 5))
-tcheck(t, {n=3,2,4,5})
-
-t = pack(T.testC("insert 3; pushvalue 3; remove 3; pushvalue 2; remove 2; \
-                  insert 2; pushvalue 1; remove 1; insert 1; \
-      insert -2; pushvalue -2; remove -3; gettop; return .",
-      2, 3, 4, 5, 10, 40, 90))
-tcheck(t, {n=7,2,3,4,5,10,40,90})
-
-t = pack(T.testC("concat 5; gettop; return .", "alo", 2, 3, "joao", 12))
-tcheck(t, {n=1,"alo23joao12"})
-
--- testing MULTRET
-t = pack(T.testC("rawcall 2,-1; gettop; return .",
-     function (a,b) return 1,2,3,4,a,b end, "alo", "joao"))
-tcheck(t, {n=6,1,2,3,4,"alo", "joao"})
-
-do  -- test returning more results than fit in the caller stack
-  local a = {}
-  for i=1,1000 do a[i] = true end; a[999] = 10
-  local b = T.testC([[call 1 -1; pop 1; tostring -1; return 1]], unpack, a)
-  assert(b == "10")
-end
-
-
--- testing lessthan
-assert(T.testC("lessthan 2 5, return 1", 3, 2, 2, 4, 2, 2))
-assert(T.testC("lessthan 5 2, return 1", 4, 2, 2, 3, 2, 2))
-assert(not T.testC("lessthan 2 -3, return 1", "4", "2", "2", "3", "2", "2"))
-assert(not T.testC("lessthan -3 2, return 1", "3", "2", "2", "4", "2", "2"))
-
-local b = {__lt = function (a,b) return a[1] < b[1] end}
-local a1,a3,a4 = setmetatable({1}, b),
-                 setmetatable({3}, b),
-                 setmetatable({4}, b)
-assert(T.testC("lessthan 2 5, return 1", a3, 2, 2, a4, 2, 2))
-assert(T.testC("lessthan 5 -6, return 1", a4, 2, 2, a3, 2, 2))
-a,b = T.testC("lessthan 5 -6, return 2", a1, 2, 2, a3, 2, 20)
-assert(a == 20 and b == false)
-
-
--- testing lua_is
-
-function count (x, n)
-  n = n or 2
-  local prog = [[
-    isnumber %d;
-    isstring %d;
-    isfunction %d;
-    iscfunction %d;
-    istable %d;
-    isuserdata %d;
-    isnil %d;
-    isnull %d;
-    return 8
-  ]]
-  prog = string.format(prog, n, n, n, n, n, n, n, n)
-  local a,b,c,d,e,f,g,h = T.testC(prog, x)
-  return a+b+c+d+e+f+g+(100*h)
-end
-
-assert(count(3) == 2)
-assert(count('alo') == 1)
-assert(count('32') == 2)
-assert(count({}) == 1)
-assert(count(print) == 2)
-assert(count(function () end) == 1)
-assert(count(nil) == 1)
-assert(count(io.stdin) == 1)
-assert(count(nil, 15) == 100)
-
--- testing lua_to...
-
-function to (s, x, n)
-  n = n or 2
-  return T.testC(string.format("%s %d; return 1", s, n), x)
-end
-
-assert(to("tostring", {}) == nil)
-assert(to("tostring", "alo") == "alo")
-assert(to("tostring", 12) == "12")
-assert(to("tostring", 12, 3) == nil)
-assert(to("objsize", {}) == 0)
-assert(to("objsize", "alo\0\0a") == 6)
-assert(to("objsize", T.newuserdata(0)) == 0)
-assert(to("objsize", T.newuserdata(101)) == 101)
-assert(to("objsize", 12) == 2)
-assert(to("objsize", 12, 3) == 0)
-assert(to("tonumber", {}) == 0)
-assert(to("tonumber", "12") == 12)
-assert(to("tonumber", "s2") == 0)
-assert(to("tonumber", 1, 20) == 0)
-a = to("tocfunction", math.deg)
-assert(a(3) == math.deg(3) and a ~= math.deg)
-
-
--- testing errors
-
-a = T.testC([[
-  loadstring 2; call 0,1;
-  pushvalue 3; insert -2; call 1, 1;
-  call 0, 0;
-  return 1
-]], "x=150", function (a) assert(a==nil); return 3 end)
-
-assert(type(a) == 'string' and x == 150)
-
-function check3(p, ...)
-  assert(arg.n == 3)
-  assert(string.find(arg[3], p))
-end
-check3(":1:", T.testC("loadstring 2; gettop; return .", "x="))
-check3("cannot read", T.testC("loadfile 2; gettop; return .", "."))
-check3("cannot open xxxx", T.testC("loadfile 2; gettop; return .", "xxxx"))
-
--- testing table access
-
-a = {x=0, y=12}
-x, y = T.testC("gettable 2; pushvalue 4; gettable 2; return 2",
-                a, 3, "y", 4, "x")
-assert(x == 0 and y == 12)
-T.testC("settable -5", a, 3, 4, "x", 15)
-assert(a.x == 15)
-a[a] = print
-x = T.testC("gettable 2; return 1", a)  -- table and key are the same object!
-assert(x == print)
-T.testC("settable 2", a, "x")    -- table and key are the same object!
-assert(a[a] == "x")
-
-b = setmetatable({p = a}, {})
-getmetatable(b).__index = function (t, i) return t.p[i] end
-k, x = T.testC("gettable 3, return 2", 4, b, 20, 35, "x")
-assert(x == 15 and k == 35)
-getmetatable(b).__index = function (t, i) return a[i] end
-getmetatable(b).__newindex = function (t, i,v ) a[i] = v end
-y = T.testC("insert 2; gettable -5; return 1", 2, 3, 4, "y", b)
-assert(y == 12)
-k = T.testC("settable -5, return 1", b, 3, 4, "x", 16)
-assert(a.x == 16 and k == 4)
-a[b] = 'xuxu'
-y = T.testC("gettable 2, return 1", b)
-assert(y == 'xuxu')
-T.testC("settable 2", b, 19)
-assert(a[b] == 19)
-
--- testing next
-a = {}
-t = pack(T.testC("next; gettop; return .", a, nil))
-tcheck(t, {n=1,a})
-a = {a=3}
-t = pack(T.testC("next; gettop; return .", a, nil))
-tcheck(t, {n=3,a,'a',3})
-t = pack(T.testC("next; pop 1; next; gettop; return .", a, nil))
-tcheck(t, {n=1,a})
-
-
-
--- testing upvalues
-
-do
-  local A = T.testC[[ pushnum 10; pushnum 20; pushcclosure 2; return 1]]
-  t, b, c = A([[pushvalue U0; pushvalue U1; pushvalue U2; return 3]])
-  assert(b == 10 and c == 20 and type(t) == 'table')
-  a, b = A([[tostring U3; tonumber U4; return 2]])
-  assert(a == nil and b == 0)
-  A([[pushnum 100; pushnum 200; replace U2; replace U1]])
-  b, c = A([[pushvalue U1; pushvalue U2; return 2]])
-  assert(b == 100 and c == 200)
-  A([[replace U2; replace U1]], {x=1}, {x=2})
-  b, c = A([[pushvalue U1; pushvalue U2; return 2]])
-  assert(b.x == 1 and c.x == 2)
-  T.checkmemory()
-end
-
-local f = T.testC[[ pushnum 10; pushnum 20; pushcclosure 2; return 1]]
-assert(T.upvalue(f, 1) == 10 and
-       T.upvalue(f, 2) == 20 and
-       T.upvalue(f, 3) == nil)
-T.upvalue(f, 2, "xuxu")
-assert(T.upvalue(f, 2) == "xuxu")
-
-
--- testing environments
-
-assert(T.testC"pushvalue G; return 1" == _G)
-assert(T.testC"pushvalue E; return 1" == _G)
-local a = {}
-T.testC("replace E; return 1", a)
-assert(T.testC"pushvalue G; return 1" == _G)
-assert(T.testC"pushvalue E; return 1" == a)
-assert(debug.getfenv(T.testC) == a)
-assert(debug.getfenv(T.upvalue) == _G)
--- userdata inherit environment
-local u = T.testC"newuserdata 0; return 1"
-assert(debug.getfenv(u) == a)
--- functions inherit environment
-u = T.testC"pushcclosure 0; return 1"
-assert(debug.getfenv(u) == a)
-debug.setfenv(T.testC, _G)
-assert(T.testC"pushvalue E; return 1" == _G)
-
-local b = newproxy()
-assert(debug.getfenv(b) == _G)
-assert(debug.setfenv(b, a))
-assert(debug.getfenv(b) == a)
-
-
-
--- testing locks (refs)
-
--- reuse of references
-local i = T.ref{}
-T.unref(i)
-assert(T.ref{} == i)
-
-Arr = {}
-Lim = 100
-for i=1,Lim do   -- lock many objects
-  Arr[i] = T.ref({})
-end
-
-assert(T.ref(nil) == -1 and T.getref(-1) == nil)
-T.unref(-1); T.unref(-1)
-
-for i=1,Lim do   -- unlock all them
-  T.unref(Arr[i])
-end
-
-function printlocks ()
-  local n = T.testC("gettable R; return 1", "n")
-  print("n", n)
-  for i=0,n do
-    print(i, T.testC("gettable R; return 1", i))
-  end
-end
-
-
-for i=1,Lim do   -- lock many objects
-  Arr[i] = T.ref({})
-end
-
-for i=1,Lim,2 do   -- unlock half of them
-  T.unref(Arr[i])
-end
-
-assert(type(T.getref(Arr[2])) == 'table')
-
-
-assert(T.getref(-1) == nil)
-
-
-a = T.ref({})
-
-collectgarbage()
-
-assert(type(T.getref(a)) == 'table')
-
-
--- colect in cl the `val' of all collected userdata
-tt = {}
-cl = {n=0}
-A = nil; B = nil
-local F
-F = function (x)
-  local udval = T.udataval(x)
-  table.insert(cl, udval)
-  local d = T.newuserdata(100)   -- cria lixo
-  d = nil
-  assert(debug.getmetatable(x).__gc == F)
-  loadstring("table.insert({}, {})")()   -- cria mais lixo
-  collectgarbage()   -- forca coleta de lixo durante coleta!
-  assert(debug.getmetatable(x).__gc == F)   -- coleta anterior nao melou isso?
-  local dummy = {}    -- cria lixo durante coleta
-  if A ~= nil then
-    assert(type(A) == "userdata")
-    assert(T.udataval(A) == B)
-    debug.getmetatable(A)    -- just acess it
-  end
-  A = x   -- ressucita userdata
-  B = udval
-  return 1,2,3
-end
-tt.__gc = F
-
--- test whether udate collection frees memory in the right time
-do
-  collectgarbage();
-  collectgarbage();
-  local x = collectgarbage("count");
-  local a = T.newuserdata(5001)
-  assert(T.testC("objsize 2; return 1", a) == 5001)
-  assert(collectgarbage("count") >= x+4) 
-  a = nil
-  collectgarbage();
-  assert(collectgarbage("count") <= x+1)
-  -- udata without finalizer
-  x = collectgarbage("count")
-  collectgarbage("stop")
-  for i=1,1000 do newproxy(false) end
-  assert(collectgarbage("count") > x+10)
-  collectgarbage()
-  assert(collectgarbage("count") <= x+1)
-  -- udata with finalizer
-  x = collectgarbage("count")
-  collectgarbage()
-  collectgarbage("stop")
-  a = newproxy(true)
-  getmetatable(a).__gc = function () end
-  for i=1,1000 do newproxy(a) end
-  assert(collectgarbage("count") >= x+10)
-  collectgarbage()  -- this collection only calls TM, without freeing memory
-  assert(collectgarbage("count") >= x+10)
-  collectgarbage()  -- now frees memory
-  assert(collectgarbage("count") <= x+1)
-end
-
-
-collectgarbage("stop")
-
--- create 3 userdatas with tag `tt'
-a = T.newuserdata(0); debug.setmetatable(a, tt); na = T.udataval(a)
-b = T.newuserdata(0); debug.setmetatable(b, tt); nb = T.udataval(b)
-c = T.newuserdata(0); debug.setmetatable(c, tt); nc = T.udataval(c)
-
--- create userdata without meta table
-x = T.newuserdata(4)
-y = T.newuserdata(0)
-
-assert(debug.getmetatable(x) == nil and debug.getmetatable(y) == nil)
-
-d=T.ref(a);
-e=T.ref(b);
-f=T.ref(c);
-t = {T.getref(d), T.getref(e), T.getref(f)}
-assert(t[1] == a and t[2] == b and t[3] == c)
-
-t=nil; a=nil; c=nil;
-T.unref(e); T.unref(f)
-
-collectgarbage()
-
--- check that unref objects have been collected
-assert(table.getn(cl) == 1 and cl[1] == nc)
-
-x = T.getref(d)
-assert(type(x) == 'userdata' and debug.getmetatable(x) == tt)
-x =nil
-tt.b = b  -- create cycle
-tt=nil    -- frees tt for GC
-A = nil
-b = nil
-T.unref(d);
-n5 = T.newuserdata(0)
-debug.setmetatable(n5, {__gc=F})
-n5 = T.udataval(n5)
-collectgarbage()
-assert(table.getn(cl) == 4)
--- check order of collection
-assert(cl[2] == n5 and cl[3] == nb and cl[4] == na)
-
-
-a, na = {}, {}
-for i=30,1,-1 do
-  a[i] = T.newuserdata(0)
-  debug.setmetatable(a[i], {__gc=F})
-  na[i] = T.udataval(a[i])
-end
-cl = {}
-a = nil; collectgarbage()
-assert(table.getn(cl) == 30)
-for i=1,30 do assert(cl[i] == na[i]) end
-na = nil
-
-
-for i=2,Lim,2 do   -- unlock the other half
-  T.unref(Arr[i])
-end
-
-x = T.newuserdata(41); debug.setmetatable(x, {__gc=F})
-assert(T.testC("objsize 2; return 1", x) == 41)
-cl = {}
-a = {[x] = 1}
-x = T.udataval(x)
-collectgarbage()
--- old `x' cannot be collected (`a' still uses it)
-assert(table.getn(cl) == 0)
-for n in pairs(a) do a[n] = nil end
-collectgarbage()
-assert(table.getn(cl) == 1 and cl[1] == x)   -- old `x' must be collected
-
--- testing lua_equal
-assert(T.testC("equal 2 4; return 1", print, 1, print, 20))
-assert(T.testC("equal 3 2; return 1", 'alo', "alo"))
-assert(T.testC("equal 2 3; return 1", nil, nil))
-assert(not T.testC("equal 2 3; return 1", {}, {}))
-assert(not T.testC("equal 2 3; return 1"))
-assert(not T.testC("equal 2 3; return 1", 3))
-
--- testing lua_equal with fallbacks
-do
-  local map = {}
-  local t = {__eq = function (a,b) return map[a] == map[b] end}
-  local function f(x)
-    local u = T.newuserdata(0)
-    debug.setmetatable(u, t)
-    map[u] = x
-    return u
-  end
-  assert(f(10) == f(10))
-  assert(f(10) ~= f(11))
-  assert(T.testC("equal 2 3; return 1", f(10), f(10)))
-  assert(not T.testC("equal 2 3; return 1", f(10), f(20)))
-  t.__eq = nil
-  assert(f(10) ~= f(10))
-end
-
-print'+'
-
-
-
--------------------------------------------------------------------------
-do   -- testing errors during GC
-  local a = {}
-  for i=1,20 do
-    a[i] = T.newuserdata(i)   -- creates several udata
-  end
-  for i=1,20,2 do   -- mark half of them to raise error during GC
-    debug.setmetatable(a[i], {__gc = function (x) error("error inside gc") end})
-  end
-  for i=2,20,2 do   -- mark the other half to count and to create more garbage
-    debug.setmetatable(a[i], {__gc = function (x) loadstring("A=A+1")() end})
-  end
-  _G.A = 0
-  a = 0
-  while 1 do
-  if xpcall(collectgarbage, function (s) a=a+1 end) then
-    break   -- stop if no more errors
-  end
-  end
-  assert(a == 10)  -- number of errors
-  assert(A == 10)  -- number of normal collections
-end
--------------------------------------------------------------------------
--- test for userdata vals
-do
-  local a = {}; local lim = 30
-  for i=0,lim do a[i] = T.pushuserdata(i) end
-  for i=0,lim do assert(T.udataval(a[i]) == i) end
-  for i=0,lim do assert(T.pushuserdata(i) == a[i]) end
-  for i=0,lim do a[a[i]] = i end
-  for i=0,lim do a[T.pushuserdata(i)] = i end
-  assert(type(tostring(a[1])) == "string")
-end
-
-
--------------------------------------------------------------------------
--- testing multiple states
-T.closestate(T.newstate());
-L1 = T.newstate()
-assert(L1)
-assert(pack(T.doremote(L1, "function f () return 'alo', 3 end; f()")).n == 0)
-
-a, b = T.doremote(L1, "return f()")
-assert(a == 'alo' and b == '3')
-
-T.doremote(L1, "_ERRORMESSAGE = nil")
--- error: `sin' is not defined
-a, b = T.doremote(L1, "return sin(1)")
-assert(a == nil and b == 2)   -- 2 == run-time error
-
--- error: syntax error
-a, b, c = T.doremote(L1, "return a+")
-assert(a == nil and b == 3 and type(c) == "string")   -- 3 == syntax error
-
-T.loadlib(L1)
-a, b = T.doremote(L1, [[
-  a = strlibopen()
-  a = packageopen()
-  a = baselibopen(); assert(a == _G and require("_G") == a)
-  a = iolibopen(); assert(type(a.read) == "function")
-  assert(require("io") == a)
-  a = tablibopen(); assert(type(a.insert) == "function")
-  a = dblibopen(); assert(type(a.getlocal) == "function")
-  a = mathlibopen(); assert(type(a.sin) == "function")
-  return string.sub('okinama', 1, 2)
-]])
-assert(a == "ok")
-
-T.closestate(L1);
-
-L1 = T.newstate()
-T.loadlib(L1)
-T.doremote(L1, "a = {}")
-T.testC(L1, [[pushstring a; gettable G; pushstring x; pushnum 1;
-             settable -3]])
-assert(T.doremote(L1, "return a.x") == "1")
-
-T.closestate(L1)
-
-L1 = nil
-
-print('+')
-
--------------------------------------------------------------------------
--- testing memory limits
--------------------------------------------------------------------------
-collectgarbage()
-T.totalmem(T.totalmem()+5000)   -- set low memory limit (+5k)
-assert(not pcall(loadstring"local a={}; for i=1,100000 do a[i]=i end"))
-T.totalmem(1000000000)          -- restore high limit
-
-
-local function stack(x) if x>0 then stack(x-1) end end
-
--- test memory errors; increase memory limit in small steps, so that
--- we get memory errors in different parts of a given task, up to there
--- is enough memory to complete the task without errors
-function testamem (s, f)
-  collectgarbage()
-  stack(10)    -- ensure minimum stack size
-  local M = T.totalmem()
-  local oldM = M
-  local a,b = nil
-  while 1 do
-    M = M+3   -- increase memory limit in small steps
-    T.totalmem(M)
-    a, b = pcall(f)
-    if a and b then break end       -- stop when no more errors
-    collectgarbage()
-    if not a and not string.find(b, "memory") then   -- `real' error?
-      T.totalmem(1000000000)  -- restore high limit
-      error(b, 0)
-    end
-  end
-  T.totalmem(1000000000)  -- restore high limit
-  print("\nlimit for " .. s .. ": " .. M-oldM)
-  return b
-end
-
-
--- testing memory errors when creating a new state
-
-b = testamem("state creation", T.newstate)
-T.closestate(b);  -- close new state
-
-
--- testing threads
-
-function expand (n,s)
-  if n==0 then return "" end
-  local e = string.rep("=", n)
-  return string.format("T.doonnewstack([%s[ %s;\n collectgarbage(); %s]%s])\n",
-                              e, s, expand(n-1,s), e)
-end
-
-G=0; collectgarbage(); a =collectgarbage("count")
-loadstring(expand(20,"G=G+1"))()
-assert(G==20); collectgarbage();  -- assert(gcinfo() <= a+1)
-
-testamem("thread creation", function ()
-  return T.doonnewstack("x=1") == 0  -- try to create thread
-end)
-
-
--- testing memory x compiler
-
-testamem("loadstring", function ()
-  return loadstring("x=1")  -- try to do a loadstring
-end)
-
-
-local testprog = [[
-local function foo () return end
-local t = {"x"}
-a = "aaa"
-for _, v in ipairs(t) do a=a..v end
-return true
-]]
-
--- testing memory x dofile
-_G.a = nil
-local t =os.tmpname()
-local f = assert(io.open(t, "w"))
-f:write(testprog)
-f:close()
-testamem("dofile", function ()
-  local a = loadfile(t)
-  return a and a()
-end)
-assert(os.remove(t))
-assert(_G.a == "aaax")
-
-
--- other generic tests
-
-testamem("string creation", function ()
-  local a, b = string.gsub("alo alo", "(a)", function (x) return x..'b' end)
-  return (a == 'ablo ablo')
-end)
-
-testamem("dump/undump", function ()
-  local a = loadstring(testprog)
-  local b = a and string.dump(a)
-  a = b and loadstring(b)
-  return a and a()
-end)
-
-local t = os.tmpname()
-testamem("file creation", function ()
-  local f = assert(io.open(t, 'w'))
-  assert (not io.open"nomenaoexistente")
-  io.close(f);
-  return not loadfile'nomenaoexistente'
-end)
-assert(os.remove(t))
-
-testamem("table creation", function ()
-  local a, lim = {}, 10
-  for i=1,lim do a[i] = i; a[i..'a'] = {} end
-  return (type(a[lim..'a']) == 'table' and a[lim] == lim)
-end)
-
-local a = 1
-close = nil
-testamem("closure creation", function ()
-  function close (b,c)
-   return function (x) return a+b+c+x end
-  end
-  return (close(2,3)(4) == 10)
-end)
-
-testamem("coroutines", function ()
-  local a = coroutine.wrap(function ()
-              coroutine.yield(string.rep("a", 10))
-              return {}
-            end)
-  assert(string.len(a()) == 10)
-  return a()
-end)
-
-print'+'
-
--- testing some auxlib functions
-assert(T.gsub("alo.alo.uhuh.", ".", "//") == "alo//alo//uhuh//")
-assert(T.gsub("alo.alo.uhuh.", "alo", "//") == "//.//.uhuh.")
-assert(T.gsub("", "alo", "//") == "")
-assert(T.gsub("...", ".", "/.") == "/././.")
-assert(T.gsub("...", "...", "") == "")
-
-
-print'OK'
-

lib/lua/lua-tests/attrib.lua

@@ -1,339 +0,0 @@
-do --[
-
-print "testing require"
-
-assert(require"string" == string)
-assert(require"math" == math)
-assert(require"table" == table)
-assert(require"io" == io)
-assert(require"os" == os)
-assert(require"debug" == debug)
-assert(require"coroutine" == coroutine)
-
-assert(type(package.path) == "string")
-assert(type(package.cpath) == "string")
-assert(type(package.loaded) == "table")
-assert(type(package.preload) == "table")
-
-
-local DIR = "libs/"
-
-local function createfiles (files, preextras, posextras)
-  for n,c in pairs(files) do
-    io.output(DIR..n)
-    io.write(string.format(preextras, n))
-    io.write(c)
-    io.write(string.format(posextras, n))
-    io.close(io.output())
-  end
-end
-
-function removefiles (files)
-  for n in pairs(files) do
-    os.remove(DIR..n)
-  end
-end
-
-local files = {
-  ["A.lua"] = "",
-  ["B.lua"] = "assert(...=='B');require 'A'",
-  ["A.lc"] = "",
-  ["A"] = "",
-  ["L"] = "",
-  ["XXxX"] = "",
-  ["C.lua"] = "package.loaded[...] = 25; require'C'"
-}
-
-AA = nil
-local extras = [[
-NAME = '%s'
-REQUIRED = ...
-return AA]]
-
-createfiles(files, "", extras)
-
-
-local oldpath = package.path
-
-package.path = string.gsub("D/?.lua;D/?.lc;D/?;D/??x?;D/L", "D/", DIR)
-
-local try = function (p, n, r)
-  NAME = nil
-  local rr = require(p)
-  assert(NAME == n)
-  assert(REQUIRED == p)
-  assert(rr == r)
-end
-
-assert(require"C" == 25)
-assert(require"C" == 25)
-AA = nil
-try('B', 'B.lua', true)
-assert(package.loaded.B)
-assert(require"B" == true)
-assert(package.loaded.A)
-package.loaded.A = nil
-try('B', nil, true)   -- should not reload package
-try('A', 'A.lua', true)
-package.loaded.A = nil
-os.remove(DIR..'A.lua')
-AA = {}
-try('A', 'A.lc', AA)  -- now must find second option
-assert(require("A") == AA)
-AA = false
-try('K', 'L', false)     -- default option
-try('K', 'L', false)     -- default option (should reload it)
-assert(rawget(_G, "_REQUIREDNAME") == nil)
-
-AA = "x"
-try("X", "XXxX", AA)
-
-
-removefiles(files)
-
-
--- testing require of sub-packages
-
-package.path = string.gsub("D/?.lua;D/?/init.lua", "D/", DIR)
-
-files = {
-  ["P1/init.lua"] = "AA = 10",
-  ["P1/xuxu.lua"] = "AA = 20",
-}
-
-createfiles(files, "module(..., package.seeall)\n", "")
-AA = 0
-
-local m = assert(require"P1")
-assert(m == P1 and m._NAME == "P1" and AA == 0 and m.AA == 10)
-assert(require"P1" == P1 and P1 == m)
-assert(require"P1" == P1)
-assert(P1._PACKAGE == "")
-
-local m = assert(require"P1.xuxu")
-assert(m == P1.xuxu and m._NAME == "P1.xuxu" and AA == 0 and m.AA == 20)
-assert(require"P1.xuxu" == P1.xuxu and P1.xuxu == m)
-assert(require"P1.xuxu" == P1.xuxu)
-assert(require"P1" == P1)
-assert(P1.xuxu._PACKAGE == "P1.")
-assert(P1.AA == 10 and P1._PACKAGE == "")
-assert(P1._G == _G and P1.xuxu._G == _G)
-
-
-
-removefiles(files)
-
-
-package.path = ""
-assert(not pcall(require, "file_does_not_exist"))
-package.path = "??\0?"
-assert(not pcall(require, "file_does_not_exist1"))
-
-package.path = oldpath
-
--- check 'require' error message
-local fname = "file_does_not_exist2"
-local m, err = pcall(require, fname)
-for t in string.gmatch(package.path..";"..package.cpath, "[^;]+") do
-  t = string.gsub(t, "?", fname)
-  assert(string.find(err, t, 1, true))
-end
-
-
-local function import(...)
-  local f = {...}
-  return function (m)
-    for i=1, #f do m[f[i]] = _G[f[i]] end
-  end
-end
-
-local assert, module, package = assert, module, package
-X = nil; x = 0; assert(_G.x == 0)   -- `x' must be a global variable
-module"X"; x = 1; assert(_M.x == 1)
-module"X.a.b.c"; x = 2; assert(_M.x == 2)
-module("X.a.b", package.seeall); x = 3
-assert(X._NAME == "X" and X.a.b.c._NAME == "X.a.b.c" and X.a.b._NAME == "X.a.b")
-assert(X._M == X and X.a.b.c._M == X.a.b.c and X.a.b._M == X.a.b)
-assert(X.x == 1 and X.a.b.c.x == 2 and X.a.b.x == 3)
-assert(X._PACKAGE == "" and X.a.b.c._PACKAGE == "X.a.b." and
-       X.a.b._PACKAGE == "X.a.")
-assert(_PACKAGE.."c" == "X.a.c")
-assert(X.a._NAME == nil and X.a._M == nil)
-module("X.a", import("X")) ; x = 4
-assert(X.a._NAME == "X.a" and X.a.x == 4 and X.a._M == X.a)
-module("X.a.b", package.seeall); assert(x == 3); x = 5
-assert(_NAME == "X.a.b" and X.a.b.x == 5)
-
-assert(X._G == nil and X.a._G == nil and X.a.b._G == _G and X.a.b.c._G == nil)
-
-setfenv(1, _G)
-assert(x == 0)
-
-assert(not pcall(module, "x"))
-assert(not pcall(module, "math.sin"))
-
-
--- testing C libraries
-
-
-local p = ""   -- On Mac OS X, redefine this to "_"
-
--- assert(loadlib == package.loadlib)   -- only for compatibility
-local f, err, when = package.loadlib("libs/lib1.so", p.."luaopen_lib1")
-if not f then
-  (Message or print)('\a\n >>> cannot load dynamic library <<<\n\a')
-  print(err, when)
-else
-  f()   -- open library
-  assert(require("lib1") == lib1)
-  collectgarbage()
-  assert(lib1.id("x") == "x")
-  f = assert(package.loadlib("libs/lib1.so", p.."anotherfunc"))
-  assert(f(10, 20) == "1020\n")
-  f, err, when = package.loadlib("libs/lib1.so", p.."xuxu")
-  assert(not f and type(err) == "string" and when == "init")
-  package.cpath = "libs/?.so"
-  require"lib2"
-  assert(lib2.id("x") == "x")
-  local fs = require"lib1.sub"
-  assert(fs == lib1.sub and next(lib1.sub) == nil)
-  module("lib2", package.seeall)
-  f = require"-lib2"
-  assert(f.id("x") == "x" and _M == f and _NAME == "lib2")
-  module("lib1.sub", package.seeall)
-  assert(_M == fs)
-  setfenv(1, _G)
- 
-end
-f, err, when = package.loadlib("donotexist", p.."xuxu")
-assert(not f and type(err) == "string" and (when == "open" or when == "absent"))
-
-
--- testing preload
-
-do
-  local p = package
-  package = {}
-  p.preload.pl = function (...)
-    module(...)
-    function xuxu (x) return x+20 end
-  end
-
-  require"pl"
-  assert(require"pl" == pl)
-  assert(pl.xuxu(10) == 30)
-
-  package = p
-  assert(type(package.path) == "string")
-end
-
-
-
-end  --]
-
-print('+')
-
-print("testing assignments, logical operators, and constructors")
-
-local res, res2 = 27
-
-a, b = 1, 2+3
-assert(a==1 and b==5)
-a={}
-function f() return 10, 11, 12 end
-a.x, b, a[1] = 1, 2, f()
-assert(a.x==1 and b==2 and a[1]==10)
-a[f()], b, a[f()+3] = f(), a, 'x'
-assert(a[10] == 10 and b == a and a[13] == 'x')
-
-do
-  local f = function (n) local x = {}; for i=1,n do x[i]=i end;
-                         return unpack(x) end;
-  local a,b,c
-  a,b = 0, f(1)
-  assert(a == 0 and b == 1)
-  A,b = 0, f(1)
-  assert(A == 0 and b == 1)
-  a,b,c = 0,5,f(4)
-  assert(a==0 and b==5 and c==1)
-  a,b,c = 0,5,f(0)
-  assert(a==0 and b==5 and c==nil)
-end
-
-
-a, b, c, d = 1 and nil, 1 or nil, (1 and (nil or 1)), 6
-assert(not a and b and c and d==6)
-
-d = 20
-a, b, c, d = f()
-assert(a==10 and b==11 and c==12 and d==nil)
-a,b = f(), 1, 2, 3, f()
-assert(a==10 and b==1)
-
-assert(a<b == false and a>b == true)
-assert((10 and 2) == 2)
-assert((10 or 2) == 10)
-assert((10 or assert(nil)) == 10)
-assert(not (nil and assert(nil)))
-assert((nil or "alo") == "alo")
-assert((nil and 10) == nil)
-assert((false and 10) == false)
-assert((true or 10) == true)
-assert((false or 10) == 10)
-assert(false ~= nil)
-assert(nil ~= false)
-assert(not nil == true)
-assert(not not nil == false)
-assert(not not 1 == true)
-assert(not not a == true)
-assert(not not (6 or nil) == true)
-assert(not not (nil and 56) == false)
-assert(not not (nil and true) == false)
-print('+')
-
-a = {}
-a[true] = 20
-a[false] = 10
-assert(a[1<2] == 20 and a[1>2] == 10)
-
-function f(a) return a end
-
-local a = {}
-for i=3000,-3000,-1 do a[i] = i; end
-a[10e30] = "alo"; a[true] = 10; a[false] = 20
-assert(a[10e30] == 'alo' and a[not 1] == 20 and a[10<20] == 10)
-for i=3000,-3000,-1 do assert(a[i] == i); end
-a[print] = assert
-a[f] = print
-a[a] = a
-assert(a[a][a][a][a][print] == assert)
-a[print](a[a[f]] == a[print])
-a = nil
-
-a = {10,9,8,7,6,5,4,3,2; [-3]='a', [f]=print, a='a', b='ab'}
-a, a.x, a.y = a, a[-3]
-assert(a[1]==10 and a[-3]==a.a and a[f]==print and a.x=='a' and not a.y)
-a[1], f(a)[2], b, c = {['alo']=assert}, 10, a[1], a[f], 6, 10, 23, f(a), 2
-a[1].alo(a[2]==10 and b==10 and c==print)
-
-a[2^31] = 10; a[2^31+1] = 11; a[-2^31] = 12;
-a[2^32] = 13; a[-2^32] = 14; a[2^32+1] = 15; a[10^33] = 16;
-
-assert(a[2^31] == 10 and a[2^31+1] == 11 and a[-2^31] == 12 and
-       a[2^32] == 13 and a[-2^32] == 14 and a[2^32+1] == 15 and
-       a[10^33] == 16)
-
-a = nil
-
-
-do
-  local a,i,j,b
-  a = {'a', 'b'}; i=1; j=2; b=a
-  i, a[i], a, j, a[j], a[i+j] = j, i, i, b, j, i
-  assert(i == 2 and b[1] == 1 and a == 1 and j == b and b[2] == 2 and
-         b[3] == 1)
-end
-
-print('OK')
-
-return res

lib/lua/lua-tests/big.lua

@@ -1,381 +0,0 @@
-print "testing string length overflow"
-
-local longs = string.rep("\0", 2^25)
-local function catter (i)
-  return assert(loadstring(
-    string.format("return function(a) return a%s end",
-                     string.rep("..a", i-1))))()
-end
-rep129 = catter(129)
-local a, b = pcall(rep129, longs)
-assert(not a and string.find(b, "overflow"))
-print('+')
-
-
-require "checktable"
-
---[[ lots of empty lines (to force SETLINEW)
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
---]]
-
-
-a,b = nil,nil
-while not b do
-if a then
-b = {  -- lots of strings (to force JMPW and PUSHCONSTANTW)
-"n1", "n2", "n3", "n4", "n5", "n6", "n7", "n8", "n9", "n10",
-"n11", "n12", "j301", "j302", "j303", "j304", "j305", "j306", "j307", "j308",
-"j309", "a310", "n311", "n312", "n313", "n314", "n315", "n316", "n317", "n318",
-"n319", "n320", "n321", "n322", "n323", "n324", "n325", "n326", "n327", "n328",
-"a329", "n330", "n331", "n332", "n333", "n334", "n335", "n336", "n337", "n338",
-"n339", "n340", "n341", "z342", "n343", "n344", "n345", "n346", "n347", "n348",
-"n349", "n350", "n351", "n352", "r353", "n354", "n355", "n356", "n357", "n358",
-"n359", "n360", "n361", "n362", "n363", "n364", "n365", "n366", "z367", "n368",
-"n369", "n370", "n371", "n372", "n373", "n374", "n375", "a376", "n377", "n378",
-"n379", "n380", "n381", "n382", "n383", "n384", "n385", "n386", "n387", "n388",
-"n389", "n390", "n391", "n392", "n393", "n394", "n395", "n396", "n397", "n398",
-"n399", "n400", "n13", "n14", "n15", "n16", "n17", "n18", "n19", "n20",
-"n21", "n22", "n23", "a24", "n25", "n26", "n27", "n28", "n29", "j30",
-"n31", "n32", "n33", "n34", "n35", "n36", "n37", "n38", "n39", "n40",
-"n41", "n42", "n43", "n44", "n45", "n46", "n47", "n48", "n49", "n50",
-"n51", "n52", "n53", "n54", "n55", "n56", "n57", "n58", "n59", "n60",
-"n61", "n62", "n63", "n64", "n65", "a66", "z67", "n68", "n69", "n70",
-"n71", "n72", "n73", "n74", "n75", "n76", "n77", "n78", "n79", "n80",
-"n81", "n82", "n83", "n84", "n85", "n86", "n87", "n88", "n89", "n90",
-"n91", "n92", "n93", "n94", "n95", "n96", "n97", "n98", "n99", "n100",
-"n201", "n202", "n203", "n204", "n205", "n206", "n207", "n208", "n209", "n210",
-"n211", "n212", "n213", "n214", "n215", "n216", "n217", "n218", "n219", "n220",
-"n221", "n222", "n223", "n224", "n225", "n226", "n227", "n228", "n229", "n230",
-"n231", "n232", "n233", "n234", "n235", "n236", "n237", "n238", "n239", "a240",
-"a241", "a242", "a243", "a244", "a245", "a246", "a247", "a248", "a249", "n250",
-"n251", "n252", "n253", "n254", "n255", "n256", "n257", "n258", "n259", "n260",
-"n261", "n262", "n263", "n264", "n265", "n266", "n267", "n268", "n269", "n270",
-"n271", "n272", "n273", "n274", "n275", "n276", "n277", "n278", "n279", "n280",
-"n281", "n282", "n283", "n284", "n285", "n286", "n287", "n288", "n289", "n290",
-"n291", "n292", "n293", "n294", "n295", "n296", "n297", "n298", "n299"
-; x=23}
-else a = 1 end
-
-
-end
-
-assert(b.x == 23)
-print('+')
-
-stat(b)
-
-repeat
-a = {
-n1 = 1.5, n2 = 2.5, n3 = 3.5, n4 = 4.5, n5 = 5.5, n6 = 6.5, n7 = 7.5,
-n8 = 8.5, n9 = 9.5, n10 = 10.5, n11 = 11.5, n12 = 12.5,
-j301 = 301.5, j302 = 302.5, j303 = 303.5, j304 = 304.5, j305 = 305.5,
-j306 = 306.5, j307 = 307.5, j308 = 308.5, j309 = 309.5, a310 = 310.5,
-n311 = 311.5, n312 = 312.5, n313 = 313.5, n314 = 314.5, n315 = 315.5,
-n316 = 316.5, n317 = 317.5, n318 = 318.5, n319 = 319.5, n320 = 320.5,
-n321 = 321.5, n322 = 322.5, n323 = 323.5, n324 = 324.5, n325 = 325.5,
-n326 = 326.5, n327 = 327.5, n328 = 328.5, a329 = 329.5, n330 = 330.5,
-n331 = 331.5, n332 = 332.5, n333 = 333.5, n334 = 334.5, n335 = 335.5,
-n336 = 336.5, n337 = 337.5, n338 = 338.5, n339 = 339.5, n340 = 340.5,
-n341 = 341.5, z342 = 342.5, n343 = 343.5, n344 = 344.5, n345 = 345.5,
-n346 = 346.5, n347 = 347.5, n348 = 348.5, n349 = 349.5, n350 = 350.5,
-n351 = 351.5, n352 = 352.5, r353 = 353.5, n354 = 354.5, n355 = 355.5,
-n356 = 356.5, n357 = 357.5, n358 = 358.5, n359 = 359.5, n360 = 360.5,
-n361 = 361.5, n362 = 362.5, n363 = 363.5, n364 = 364.5, n365 = 365.5,
-n366 = 366.5, z367 = 367.5, n368 = 368.5, n369 = 369.5, n370 = 370.5,
-n371 = 371.5, n372 = 372.5, n373 = 373.5, n374 = 374.5, n375 = 375.5,
-a376 = 376.5, n377 = 377.5, n378 = 378.5, n379 = 379.5, n380 = 380.5,
-n381 = 381.5, n382 = 382.5, n383 = 383.5, n384 = 384.5, n385 = 385.5,
-n386 = 386.5, n387 = 387.5, n388 = 388.5, n389 = 389.5, n390 = 390.5,
-n391 = 391.5, n392 = 392.5, n393 = 393.5, n394 = 394.5, n395 = 395.5,
-n396 = 396.5, n397 = 397.5, n398 = 398.5, n399 = 399.5, n400 = 400.5,
-n13 = 13.5, n14 = 14.5, n15 = 15.5, n16 = 16.5, n17 = 17.5,
-n18 = 18.5, n19 = 19.5, n20 = 20.5, n21 = 21.5, n22 = 22.5,
-n23 = 23.5, a24 = 24.5, n25 = 25.5, n26 = 26.5, n27 = 27.5,
-n28 = 28.5, n29 = 29.5, j30 = 30.5, n31 = 31.5, n32 = 32.5,
-n33 = 33.5, n34 = 34.5, n35 = 35.5, n36 = 36.5, n37 = 37.5,
-n38 = 38.5, n39 = 39.5, n40 = 40.5, n41 = 41.5, n42 = 42.5,
-n43 = 43.5, n44 = 44.5, n45 = 45.5, n46 = 46.5, n47 = 47.5,
-n48 = 48.5, n49 = 49.5, n50 = 50.5, n51 = 51.5, n52 = 52.5,
-n53 = 53.5, n54 = 54.5, n55 = 55.5, n56 = 56.5, n57 = 57.5,
-n58 = 58.5, n59 = 59.5, n60 = 60.5, n61 = 61.5, n62 = 62.5,
-n63 = 63.5, n64 = 64.5, n65 = 65.5, a66 = 66.5, z67 = 67.5,
-n68 = 68.5, n69 = 69.5, n70 = 70.5, n71 = 71.5, n72 = 72.5,
-n73 = 73.5, n74 = 74.5, n75 = 75.5, n76 = 76.5, n77 = 77.5,
-n78 = 78.5, n79 = 79.5, n80 = 80.5, n81 = 81.5, n82 = 82.5,
-n83 = 83.5, n84 = 84.5, n85 = 85.5, n86 = 86.5, n87 = 87.5,
-n88 = 88.5, n89 = 89.5, n90 = 90.5, n91 = 91.5, n92 = 92.5,
-n93 = 93.5, n94 = 94.5, n95 = 95.5, n96 = 96.5, n97 = 97.5,
-n98 = 98.5, n99 = 99.5, n100 = 100.5, n201 = 201.5, n202 = 202.5,
-n203 = 203.5, n204 = 204.5, n205 = 205.5, n206 = 206.5, n207 = 207.5,
-n208 = 208.5, n209 = 209.5, n210 = 210.5, n211 = 211.5, n212 = 212.5,
-n213 = 213.5, n214 = 214.5, n215 = 215.5, n216 = 216.5, n217 = 217.5,
-n218 = 218.5, n219 = 219.5, n220 = 220.5, n221 = 221.5, n222 = 222.5,
-n223 = 223.5, n224 = 224.5, n225 = 225.5, n226 = 226.5, n227 = 227.5,
-n228 = 228.5, n229 = 229.5, n230 = 230.5, n231 = 231.5, n232 = 232.5,
-n233 = 233.5, n234 = 234.5, n235 = 235.5, n236 = 236.5, n237 = 237.5,
-n238 = 238.5, n239 = 239.5, a240 = 240.5, a241 = 241.5, a242 = 242.5,
-a243 = 243.5, a244 = 244.5, a245 = 245.5, a246 = 246.5, a247 = 247.5,
-a248 = 248.5, a249 = 249.5, n250 = 250.5, n251 = 251.5, n252 = 252.5,
-n253 = 253.5, n254 = 254.5, n255 = 255.5, n256 = 256.5, n257 = 257.5,
-n258 = 258.5, n259 = 259.5, n260 = 260.5, n261 = 261.5, n262 = 262.5,
-n263 = 263.5, n264 = 264.5, n265 = 265.5, n266 = 266.5, n267 = 267.5,
-n268 = 268.5, n269 = 269.5, n270 = 270.5, n271 = 271.5, n272 = 272.5,
-n273 = 273.5, n274 = 274.5, n275 = 275.5, n276 = 276.5, n277 = 277.5,
-n278 = 278.5, n279 = 279.5, n280 = 280.5, n281 = 281.5, n282 = 282.5,
-n283 = 283.5, n284 = 284.5, n285 = 285.5, n286 = 286.5, n287 = 287.5,
-n288 = 288.5, n289 = 289.5, n290 = 290.5, n291 = 291.5, n292 = 292.5,
-n293 = 293.5, n294 = 294.5, n295 = 295.5, n296 = 296.5, n297 = 297.5,
-n298 = 298.5, n299 = 299.5, j300 = 300} or 1
-until 1
-
-assert(a.n299 == 299.5)
-xxx = 1
-assert(xxx == 1)
-
-stat(a)
-
-function a:findfield (f)
-  local i,v = next(self, nil)
-  while i ~= f do
-    if not i then return end
-    i,v = next(self, i)
-  end
-  return v
-end
-
-local ii = 0
-i = 1
-while b[i] do
-  local r = a:findfield(b[i]);
-  assert(a[b[i]] == r)
-  ii = math.max(ii,i)
-  i = i+1
-end
-
-assert(ii == 299)
-
-function xxxx (x) coroutine.yield('b'); return ii+x end
-
-assert(xxxx(10) == 309)
-
-a = nil
-b = nil
-a1 = nil
-
-print("tables with table indices:")
-i = 1; a={}
-while i <= 1023 do a[{}] = i; i=i+1 end
-stat(a)
-a = nil
-
-print("tables with function indices:")
-a={}
-for i=1,511 do local x; a[function () return x end] = i end
-stat(a)
-a = nil
-
-print'OK'
-
-return 'a'

lib/lua/lua-tests/calls.lua

@@ -1,294 +0,0 @@
-print("testing functions and calls")
-
--- get the opportunity to test 'type' too ;)
-
-assert(type(1<2) == 'boolean')
-assert(type(true) == 'boolean' and type(false) == 'boolean')
-assert(type(nil) == 'nil' and type(-3) == 'number' and type'x' == 'string' and
-       type{} == 'table' and type(type) == 'function')
-
-assert(type(assert) == type(print))
-f = nil
-function f (x) return a:x (x) end
-assert(type(f) == 'function')
-
-
--- testing local-function recursion
-fact = false
-do
-  local res = 1
-  local function fact (n)
-    if n==0 then return res
-    else return n*fact(n-1)
-    end
-  end
-  assert(fact(5) == 120)
-end
-assert(fact == false)
-
--- testing declarations
-a = {i = 10}
-self = 20
-function a:x (x) return x+self.i end
-function a.y (x) return x+self end
-
-assert(a:x(1)+10 == a.y(1))
-
-a.t = {i=-100}
-a["t"].x = function (self, a,b) return self.i+a+b end
-
-assert(a.t:x(2,3) == -95)
-
-do
-  local a = {x=0}
-  function a:add (x) self.x, a.y = self.x+x, 20; return self end
-  assert(a:add(10):add(20):add(30).x == 60 and a.y == 20)
-end
-
-local a = {b={c={}}}
-
-function a.b.c.f1 (x) return x+1 end
-function a.b.c:f2 (x,y) self[x] = y end
-assert(a.b.c.f1(4) == 5)
-a.b.c:f2('k', 12); assert(a.b.c.k == 12)
-
-print('+')
-
-t = nil   -- 'declare' t
-function f(a,b,c) local d = 'a'; t={a,b,c,d} end
-
-f(      -- this line change must be valid
-  1,2)
-assert(t[1] == 1 and t[2] == 2 and t[3] == nil and t[4] == 'a')
-f(1,2,   -- this one too
-      3,4)
-assert(t[1] == 1 and t[2] == 2 and t[3] == 3 and t[4] == 'a')
-
-function fat(x)
-  if x <= 1 then return 1
-  else return x*loadstring("return fat(" .. x-1 .. ")")()
-  end
-end
-
-assert(loadstring "loadstring 'assert(fat(6)==720)' () ")()
-a = loadstring('return fat(5), 3')
-a,b = a()
-assert(a == 120 and b == 3)
-print('+')
-
-function err_on_n (n)
-  if n==0 then error(); exit(1);
-  else err_on_n (n-1); exit(1);
-  end
-end
-
-do
-  function dummy (n)
-    if n > 0 then
-      assert(not pcall(err_on_n, n))
-      dummy(n-1)
-    end
-  end
-end
-
-dummy(10)
-
-function deep (n)
-  if n>0 then deep(n-1) end
-end
-deep(10)
-deep(200)
-
--- testing tail call
-function deep (n) if n>0 then return deep(n-1) else return 101 end end
-assert(deep(30000) == 101)
-a = {}
-function a:deep (n) if n>0 then return self:deep(n-1) else return 101 end end
-assert(a:deep(30000) == 101)
-
-print('+')
-
-
-a = nil
-(function (x) a=x end)(23)
-assert(a == 23 and (function (x) return x*2 end)(20) == 40)
-
-
-local x,y,z,a
-a = {}; lim = 2000
-for i=1, lim do a[i]=i end
-assert(select(lim, unpack(a)) == lim and select('#', unpack(a)) == lim)
-x = unpack(a)
-assert(x == 1)
-x = {unpack(a)}
-assert(table.getn(x) == lim and x[1] == 1 and x[lim] == lim)
-x = {unpack(a, lim-2)}
-assert(table.getn(x) == 3 and x[1] == lim-2 and x[3] == lim)
-x = {unpack(a, 10, 6)}
-assert(next(x) == nil)   -- no elements
-x = {unpack(a, 11, 10)}
-assert(next(x) == nil)   -- no elements
-x,y = unpack(a, 10, 10)
-assert(x == 10 and y == nil)
-x,y,z = unpack(a, 10, 11)
-assert(x == 10 and y == 11 and z == nil)
-a,x = unpack{1}
-assert(a==1 and x==nil)
-a,x = unpack({1,2}, 1, 1)
-assert(a==1 and x==nil)
-
-
--- testing closures
-
--- fixed-point operator
-Y = function (le)
-      local function a (f)
-        return le(function (x) return f(f)(x) end)
-      end
-      return a(a)
-    end
-
-
--- non-recursive factorial
-
-F = function (f)
-      return function (n)
-               if n == 0 then return 1
-               else return n*f(n-1) end
-             end
-    end
-
-fat = Y(F)
-
-assert(fat(0) == 1 and fat(4) == 24 and Y(F)(5)==5*Y(F)(4))
-
-local function g (z)
-  local function f (a,b,c,d)
-    return function (x,y) return a+b+c+d+a+x+y+z end
-  end
-  return f(z,z+1,z+2,z+3)
-end
-
-f = g(10)
-assert(f(9, 16) == 10+11+12+13+10+9+16+10)
-
-Y, F, f = nil
-print('+')
-
--- testing multiple returns
-
-function unlpack (t, i)
-  i = i or 1
-  if (i <= table.getn(t)) then
-    return t[i], unlpack(t, i+1)
-  end
-end
-
-function equaltab (t1, t2)
-  assert(table.getn(t1) == table.getn(t2))
-  for i,v1 in ipairs(t1) do
-    assert(v1 == t2[i])
-  end
-end
-
-local function pack (...)
-  local x = {...}
-  x.n = select('#', ...)
-  return x
-end
-
-function f() return 1,2,30,4 end
-function ret2 (a,b) return a,b end
-
-local a,b,c,d = unlpack{1,2,3}
-assert(a==1 and b==2 and c==3 and d==nil)
-a = {1,2,3,4,false,10,'alo',false,assert}
-equaltab(pack(unlpack(a)), a)
-equaltab(pack(unlpack(a), -1), {1,-1})
-a,b,c,d = ret2(f()), ret2(f())
-assert(a==1 and b==1 and c==2 and d==nil)
-a,b,c,d = unlpack(pack(ret2(f()), ret2(f())))
-assert(a==1 and b==1 and c==2 and d==nil)
-a,b,c,d = unlpack(pack(ret2(f()), (ret2(f()))))
-assert(a==1 and b==1 and c==nil and d==nil)
-
-a = ret2{ unlpack{1,2,3}, unlpack{3,2,1}, unlpack{"a", "b"}}
-assert(a[1] == 1 and a[2] == 3 and a[3] == "a" and a[4] == "b")
-
-
--- testing calls with 'incorrect' arguments
-rawget({}, "x", 1)
-rawset({}, "x", 1, 2)
-assert(math.sin(1,2) == math.sin(1))
-table.sort({10,9,8,4,19,23,0,0}, function (a,b) return a<b end, "extra arg")
-
-
--- test for generic load
-x = "-- a comment\0\0\0\n  x = 10 + \n23; \
-     local a = function () x = 'hi' end; \
-     return '\0'"
-local i = 0
-function read1 (x)
-  return function ()
-    collectgarbage()
-    i=i+1
-    return string.sub(x, i, i)
-  end
-end
-
-a = assert(load(read1(x), "modname"))
-assert(a() == "\0" and _G.x == 33)
-assert(debug.getinfo(a).source == "modname")
-
-x = string.dump(loadstring("x = 1; return x"))
-i = 0
-a = assert(load(read1(x)))
-assert(a() == 1 and _G.x == 1)
-
-i = 0
-local a, b = load(read1("*a = 123"))
-assert(not a and type(b) == "string" and i == 2)
-
-a, b = load(function () error("hhi") end)
-assert(not a and string.find(b, "hhi"))
-
--- test generic load with nested functions
-x = [[
-  return function (x)
-    return function (y)
-     return function (z)
-       return x+y+z
-     end
-   end
-  end
-]]
-
-a = assert(load(read1(x)))
-assert(a()(2)(3)(10) == 15)
-
-
--- test for dump/undump with upvalues
-local a, b = 20, 30
-x = loadstring(string.dump(function (x)
-  if x == "set" then a = 10+b; b = b+1 else
-  return a
-  end
-end))
-assert(x() == nil)
-assert(debug.setupvalue(x, 1, "hi") == "a")
-assert(x() == "hi")
-assert(debug.setupvalue(x, 2, 13) == "b")
-assert(not debug.setupvalue(x, 3, 10))   -- only 2 upvalues
-x("set")
-assert(x() == 23)
-x("set")
-assert(x() == 24)
-
-
--- test for bug in parameter adjustment
-assert((function () return nil end)(4) == nil)
-assert((function () local a; return a end)(4) == nil)
-assert((function (a) return a end)() == nil)
-
-print('OK')
-return deep

lib/lua/lua-tests/checktable.lua

@@ -1,77 +0,0 @@
-
-assert(rawget(_G, "stat") == nil)  -- module not loaded before
-
-if T == nil then
-  stat = function () print"`querytab' nao ativo" end
-  return
-end
-
-
-function checktable (t)
-  local asize, hsize, ff = T.querytab(t)
-  local l = {}
-  for i=0,hsize-1 do
-    local key,val,next = T.querytab(t, i + asize)
-    if key == nil then
-      assert(l[i] == nil and val==nil and next==nil)
-    elseif key == "<undef>" then
-      assert(val==nil)
-    else
-      assert(t[key] == val)
-      local mp = T.hash(key, t)
-      if l[i] then
-        assert(l[i] == mp)
-      elseif mp ~= i then
-        l[i] = mp
-      else  -- list head
-        l[mp] = {mp}   -- first element
-        while next do
-          assert(ff <= next and next < hsize)
-          if l[next] then assert(l[next] == mp) else l[next] = mp end
-          table.insert(l[mp], next)
-          key,val,next = T.querytab(t, next)
-          assert(key)
-        end
-      end
-    end
-  end
-  l.asize = asize; l.hsize = hsize; l.ff = ff
-  return l
-end
-
-function mostra (t)
-  local asize, hsize, ff = T.querytab(t)
-  print(asize, hsize, ff)
-  print'------'
-  for i=0,asize-1 do
-    local _, v = T.querytab(t, i)
-    print(string.format("[%d] -", i), v)
-  end
-  print'------'
-  for i=0,hsize-1 do
-    print(i, T.querytab(t, i+asize))
-  end
-  print'-------------'
-end
-
-function stat (t)
-  t = checktable(t)
-  local nelem, nlist = 0, 0
-  local maxlist = {}
-  for i=0,t.hsize-1 do
-    if type(t[i]) == 'table' then
-      local n = table.getn(t[i])
-      nlist = nlist+1
-      nelem = nelem + n
-      if not maxlist[n] then maxlist[n] = 0 end
-      maxlist[n] = maxlist[n]+1
-    end
-  end
-  print(string.format("hsize=%d  elements=%d  load=%.2f  med.len=%.2f (asize=%d)",
-          t.hsize, nelem, nelem/t.hsize, nelem/nlist, t.asize))
-  for i=1,table.getn(maxlist) do
-    local n = maxlist[i] or 0
-    print(string.format("%5d %10d %.2f%%", i, n, n*100/nlist))
-  end
-end
-

lib/lua/lua-tests/closure.lua

@@ -1,422 +0,0 @@
-print "testing closures and coroutines"
-
-local A,B = 0,{g=10}
-function f(x)
-  local a = {}
-  for i=1,1000 do
-    local y = 0
-    do
-      a[i] = function () B.g = B.g+1; y = y+x; return y+A end
-    end
-  end
-  local dummy = function () return a[A] end
-  collectgarbage()
-  A = 1; assert(dummy() == a[1]); A = 0;
-  assert(a[1]() == x)
-  assert(a[3]() == x)
-  collectgarbage()
-  assert(B.g == 12)
-  return a
-end
-
-a = f(10)
--- force a GC in this level
-local x = {[1] = {}}   -- to detect a GC
-setmetatable(x, {__mode = 'kv'})
-while x[1] do   -- repeat until GC
-  local a = A..A..A..A  -- create garbage
-  A = A+1
-end
-assert(a[1]() == 20+A)
-assert(a[1]() == 30+A)
-assert(a[2]() == 10+A)
-collectgarbage()
-assert(a[2]() == 20+A)
-assert(a[2]() == 30+A)
-assert(a[3]() == 20+A)
-assert(a[8]() == 10+A)
-assert(getmetatable(x).__mode == 'kv')
-assert(B.g == 19)
-
--- testing closures with 'for' control variable
-a = {}
-for i=1,10 do
-  a[i] = {set = function(x) i=x end, get = function () return i end}
-  if i == 3 then break end
-end
-assert(a[4] == nil)
-a[1].set(10)
-assert(a[2].get() == 2)
-a[2].set('a')
-assert(a[3].get() == 3)
-assert(a[2].get() == 'a')
-
-a = {}
-for i, k in pairs{'a', 'b'} do
-  a[i] = {set = function(x, y) i=x; k=y end,
-          get = function () return i, k end}
-  if i == 2 then break end
-end
-a[1].set(10, 20)
-local r,s = a[2].get()
-assert(r == 2 and s == 'b')
-r,s = a[1].get()
-assert(r == 10 and s == 20)
-a[2].set('a', 'b')
-r,s = a[2].get()
-assert(r == "a" and s == "b")
-
-
--- testing closures with 'for' control variable x break
-for i=1,3 do
-  f = function () return i end
-  break
-end
-assert(f() == 1)
-
-for k, v in pairs{"a", "b"} do
-  f = function () return k, v end
-  break
-end
-assert(({f()})[1] == 1)
-assert(({f()})[2] == "a")
-
-
--- testing closure x break x return x errors
-
-local b
-function f(x)
-  local first = 1
-  while 1 do
-    if x == 3 and not first then return end
-    local a = 'xuxu'
-    b = function (op, y)
-          if op == 'set' then
-            a = x+y
-          else
-            return a
-          end
-        end
-    if x == 1 then do break end
-    elseif x == 2 then return
-    else if x ~= 3 then error() end
-    end
-    first = nil
-  end
-end
-
-for i=1,3 do
-  f(i)
-  assert(b('get') == 'xuxu')
-  b('set', 10); assert(b('get') == 10+i)
-  b = nil
-end
-
-pcall(f, 4);
-assert(b('get') == 'xuxu')
-b('set', 10); assert(b('get') == 14)
-
-
-local w
--- testing multi-level closure
-function f(x)
-  return function (y)
-    return function (z) return w+x+y+z end
-  end
-end
-
-y = f(10)
-w = 1.345
-assert(y(20)(30) == 60+w)
-
--- testing closures x repeat-until
-
-local a = {}
-local i = 1
-repeat
-  local x = i
-  a[i] = function () i = x+1; return x end
-until i > 10 or a[i]() ~= x
-assert(i == 11 and a[1]() == 1 and a[3]() == 3 and i == 4)
-
-print'+'
-
-
--- test for correctly closing upvalues in tail calls of vararg functions
-local function t ()
-  local function c(a,b) assert(a=="test" and b=="OK") end
-  local function v(f, ...) c("test", f() ~= 1 and "FAILED" or "OK") end
-  local x = 1
-  return v(function() return x end)
-end
-t()
-
-
--- coroutine tests
-
-local f
-
-assert(coroutine.running() == nil)
-
-
--- tests for global environment
-
-local function foo (a)
-  setfenv(0, a)
-  coroutine.yield(getfenv())
-  assert(getfenv(0) == a)
-  assert(getfenv(1) == _G)
-  assert(getfenv(loadstring"") == a)
-  return getfenv()
-end
-
-f = coroutine.wrap(foo)
-local a = {}
-assert(f(a) == _G)
-local a,b = pcall(f)
-assert(a and b == _G)
-
-
--- tests for multiple yield/resume arguments
-
-local function eqtab (t1, t2)
-  assert(table.getn(t1) == table.getn(t2))
-  for i,v in ipairs(t1) do
-    assert(t2[i] == v)
-  end
-end
-
-_G.x = nil   -- declare x
-function foo (a, ...)
-  assert(coroutine.running() == f)
-  assert(coroutine.status(f) == "running")
-  local arg = {...}
-  for i=1,table.getn(arg) do
-    _G.x = {coroutine.yield(unpack(arg[i]))}
-  end
-  return unpack(a)
-end
-
-f = coroutine.create(foo)
-assert(type(f) == "thread" and coroutine.status(f) == "suspended")
-assert(string.find(tostring(f), "thread"))
-local s,a,b,c,d
-s,a,b,c,d = coroutine.resume(f, {1,2,3}, {}, {1}, {'a', 'b', 'c'})
-assert(s and a == nil and coroutine.status(f) == "suspended")
-s,a,b,c,d = coroutine.resume(f)
-eqtab(_G.x, {})
-assert(s and a == 1 and b == nil)
-s,a,b,c,d = coroutine.resume(f, 1, 2, 3)
-eqtab(_G.x, {1, 2, 3})
-assert(s and a == 'a' and b == 'b' and c == 'c' and d == nil)
-s,a,b,c,d = coroutine.resume(f, "xuxu")
-eqtab(_G.x, {"xuxu"})
-assert(s and a == 1 and b == 2 and c == 3 and d == nil)
-assert(coroutine.status(f) == "dead")
-s, a = coroutine.resume(f, "xuxu")
-assert(not s and string.find(a, "dead") and coroutine.status(f) == "dead")
-
-
--- yields in tail calls
-local function foo (i) return coroutine.yield(i) end
-f = coroutine.wrap(function ()
-  for i=1,10 do
-    assert(foo(i) == _G.x)
-  end
-  return 'a'
-end)
-for i=1,10 do _G.x = i; assert(f(i) == i) end
-_G.x = 'xuxu'; assert(f('xuxu') == 'a')
-
--- recursive
-function pf (n, i)
-  coroutine.yield(n)
-  pf(n*i, i+1)
-end
-
-f = coroutine.wrap(pf)
-local s=1
-for i=1,10 do
-  assert(f(1, 1) == s)
-  s = s*i
-end
-
--- sieve
-function gen (n)
-  return coroutine.wrap(function ()
-    for i=2,n do coroutine.yield(i) end
-  end)
-end
-
-
-function filter (p, g)
-  return coroutine.wrap(function ()
-    while 1 do
-      local n = g()
-      if n == nil then return end
-      if math.mod(n, p) ~= 0 then coroutine.yield(n) end
-    end
-  end)
-end
-
-local x = gen(100)
-local a = {}
-while 1 do
-  local n = x()
-  if n == nil then break end
-  table.insert(a, n)
-  x = filter(n, x)
-end
-
-assert(table.getn(a) == 25 and a[table.getn(a)] == 97)
-
-
--- errors in coroutines
-function foo ()
-  assert(debug.getinfo(1).currentline == debug.getinfo(foo).linedefined + 1)
-  assert(debug.getinfo(2).currentline == debug.getinfo(goo).linedefined)
-  coroutine.yield(3)
-  error(foo)
-end
-
-function goo() foo() end
-x = coroutine.wrap(goo)
-assert(x() == 3)
-local a,b = pcall(x)
-assert(not a and b == foo)
-
-x = coroutine.create(goo)
-a,b = coroutine.resume(x)
-assert(a and b == 3)
-a,b = coroutine.resume(x)
-assert(not a and b == foo and coroutine.status(x) == "dead")
-a,b = coroutine.resume(x)
-assert(not a and string.find(b, "dead") and coroutine.status(x) == "dead")
-
-
--- co-routines x for loop
-function all (a, n, k)
-  if k == 0 then coroutine.yield(a)
-  else
-    for i=1,n do
-      a[k] = i
-      all(a, n, k-1)
-    end
-  end
-end
-
-local a = 0
-for t in coroutine.wrap(function () all({}, 5, 4) end) do
-  a = a+1
-end
-assert(a == 5^4)
-
-
--- access to locals of collected corroutines
-local C = {}; setmetatable(C, {__mode = "kv"})
-local x = coroutine.wrap (function ()
-            local a = 10
-            local function f () a = a+10; return a end
-            while true do
-              a = a+1
-              coroutine.yield(f)
-            end
-          end)
-
-C[1] = x;
-
-local f = x()
-assert(f() == 21 and x()() == 32 and x() == f)
-x = nil
-collectgarbage()
-assert(C[1] == nil)
-assert(f() == 43 and f() == 53)
-
-
--- old bug: attempt to resume itself
-
-function co_func (current_co)
-  assert(coroutine.running() == current_co)
-  assert(coroutine.resume(current_co) == false)
-  assert(coroutine.resume(current_co) == false)
-  return 10
-end
-
-local co = coroutine.create(co_func)
-local a,b = coroutine.resume(co, co)
-assert(a == true and b == 10)
-assert(coroutine.resume(co, co) == false)
-assert(coroutine.resume(co, co) == false)
-
--- access to locals of erroneous coroutines
-local x = coroutine.create (function ()
-            local a = 10
-            _G.f = function () a=a+1; return a end
-            error('x')
-          end)
-
-assert(not coroutine.resume(x))
--- overwrite previous position of local `a'
-assert(not coroutine.resume(x, 1, 1, 1, 1, 1, 1, 1))
-assert(_G.f() == 11)
-assert(_G.f() == 12)
-
-
-if not T then
-  (Message or print)('\a\n >>> testC not active: skipping yield/hook tests <<<\n\a')
-else
-
-  local turn
-  
-  function fact (t, x)
-    assert(turn == t)
-    if x == 0 then return 1
-    else return x*fact(t, x-1)
-    end
-  end
-
-  local A,B,a,b = 0,0,0,0
-
-  local x = coroutine.create(function ()
-    T.setyhook("", 2)
-    A = fact("A", 10)
-  end)
-
-  local y = coroutine.create(function ()
-    T.setyhook("", 3)
-    B = fact("B", 11)
-  end)
-
-  while A==0 or B==0 do
-    if A==0 then turn = "A"; T.resume(x) end
-    if B==0 then turn = "B"; T.resume(y) end
-  end
-
-  assert(B/A == 11)
-end
-
-
--- leaving a pending coroutine open
-_X = coroutine.wrap(function ()
-      local a = 10
-      local x = function () a = a+1 end
-      coroutine.yield()
-    end)
-
-_X()
-
-
--- coroutine environments
-co = coroutine.create(function ()
-       coroutine.yield(getfenv(0))
-       return loadstring("return a")()
-     end)
-
-a = {a = 15}
-debug.setfenv(co, a)
-assert(debug.getfenv(co) == a)
-assert(select(2, coroutine.resume(co)) == a)
-assert(select(2, coroutine.resume(co)) == a.a)
-
-
-print'OK'

lib/lua/lua-tests/code.lua

@@ -1,143 +0,0 @@
-
-if T==nil then
-  (Message or print)('\a\n >>> testC not active: skipping opcode tests <<<\n\a')
-  return
-end
-print "testing code generation and optimizations"
-
-
--- this code gave an error for the code checker
-do
-  local function f (a)
-  for k,v,w in a do end
-  end
-end
-
-
-function check (f, ...)
-  local c = T.listcode(f)
-  for i=1, arg.n do
-    -- print(arg[i], c[i])
-    assert(string.find(c[i], '- '..arg[i]..' *%d'))
-  end
-  assert(c[arg.n+2] == nil)
-end
-
-
-function checkequal (a, b)
-  a = T.listcode(a)
-  b = T.listcode(b)
-  for i = 1, table.getn(a) do
-    a[i] = string.gsub(a[i], '%b()', '')   -- remove line number
-    b[i] = string.gsub(b[i], '%b()', '')   -- remove line number
-    assert(a[i] == b[i])
-  end
-end
-
-
--- some basic instructions
-check(function ()
-  (function () end){f()}
-end, 'CLOSURE', 'NEWTABLE', 'GETGLOBAL', 'CALL', 'SETLIST', 'CALL', 'RETURN')
-
-
--- sequence of LOADNILs
-check(function ()
-  local a,b,c
-  local d; local e;
-  a = nil; d=nil
-end, 'RETURN')
-
-
--- single return
-check (function (a,b,c) return a end, 'RETURN')
-
-
--- infinite loops
-check(function () while true do local a = -1 end end,
-'LOADK', 'JMP', 'RETURN')
-
-check(function () while 1 do local a = -1 end end,
-'LOADK', 'JMP', 'RETURN')
-
-check(function () repeat local x = 1 until false end,
-'LOADK', 'JMP', 'RETURN')
-
-check(function () repeat local x until nil end,
-'LOADNIL', 'JMP', 'RETURN')
-
-check(function () repeat local x = 1 until true end,
-'LOADK', 'RETURN')
-
-
--- concat optimization
-check(function (a,b,c,d) return a..b..c..d end,
-  'MOVE', 'MOVE', 'MOVE', 'MOVE', 'CONCAT', 'RETURN')
-
--- not
-check(function () return not not nil end, 'LOADBOOL', 'RETURN')
-check(function () return not not false end, 'LOADBOOL', 'RETURN')
-check(function () return not not true end, 'LOADBOOL', 'RETURN')
-check(function () return not not 1 end, 'LOADBOOL', 'RETURN')
-
--- direct access to locals
-check(function ()
-  local a,b,c,d
-  a = b*2
-  c[4], a[b] = -((a + d/-20.5 - a[b]) ^ a.x), b
-end,
-  'MUL',
-  'DIV', 'ADD', 'GETTABLE', 'SUB', 'GETTABLE', 'POW',
-    'UNM', 'SETTABLE', 'SETTABLE', 'RETURN')
-
-
--- direct access to constants
-check(function ()
-  local a,b
-  a.x = 0
-  a.x = b
-  a[b] = 'y'
-  a = 1 - a
-  b = 1/a
-  b = 5+4
-  a[true] = false
-end,
-  'SETTABLE', 'SETTABLE', 'SETTABLE', 'SUB', 'DIV', 'LOADK',
-  'SETTABLE', 'RETURN')
-
-local function f () return -((2^8 + -(-1)) % 8)/2 * 4 - 3 end
-
-check(f, 'LOADK', 'RETURN')
-assert(f() == -5)
-
-check(function ()
-  local a,b,c
-  b[c], a = c, b
-  b[a], a = c, b
-  a, b = c, a
-  a = a
-end, 
-  'MOVE', 'MOVE', 'SETTABLE',
-  'MOVE', 'MOVE', 'MOVE', 'SETTABLE',
-  'MOVE', 'MOVE', 'MOVE',
-  -- no code for a = a
-  'RETURN')
-
-
--- x == nil , x ~= nil
-checkequal(function () if (a==nil) then a=1 end; if a~=nil then a=1 end end,
-           function () if (a==9) then a=1 end; if a~=9 then a=1 end end)
-
-check(function () if a==nil then a=1 end end,
-'GETGLOBAL', 'EQ', 'JMP', 'LOADK', 'SETGLOBAL', 'RETURN')
-
--- de morgan
-checkequal(function () local a; if not (a or b) then b=a end end,
-           function () local a; if (not a and not b) then b=a end end)
-
-checkequal(function (l) local a; return 0 <= a and a <= l end,
-           function (l) local a; return not (not(a >= 0) or not(a <= l)) end)
-
-
-print 'OK'
-

lib/lua/lua-tests/constructs.lua

@@ -1,240 +0,0 @@
-print "testing syntax"
-
--- testing priorities
-
-assert(2^3^2 == 2^(3^2));
-assert(2^3*4 == (2^3)*4);
-assert(2^-2 == 1/4 and -2^- -2 == - - -4);
-assert(not nil and 2 and not(2>3 or 3<2));
-assert(-3-1-5 == 0+0-9);
-assert(-2^2 == -4 and (-2)^2 == 4 and 2*2-3-1 == 0);
-assert(2*1+3/3 == 3 and 1+2 .. 3*1 == "33");
-assert(not(2+1 > 3*1) and "a".."b" > "a");
-
-assert(not ((true or false) and nil))
-assert(      true or false  and nil)
-
-local a,b = 1,nil;
-assert(-(1 or 2) == -1 and (1 and 2)+(-1.25 or -4) == 0.75);
-x = ((b or a)+1 == 2 and (10 or a)+1 == 11); assert(x);
-x = (((2<3) or 1) == true and (2<3 and 4) == 4); assert(x);
-
-x,y=1,2;
-assert((x>y) and x or y == 2);
-x,y=2,1;
-assert((x>y) and x or y == 2);
-
-assert(1234567890 == tonumber('1234567890') and 1234567890+1 == 1234567891)
-
-
--- silly loops
-repeat until 1; repeat until true;
-while false do end; while nil do end;
-
-do  -- test old bug (first name could not be an `upvalue')
- local a; function f(x) x={a=1}; x={x=1}; x={G=1} end
-end
-
-function f (i)
-  if type(i) ~= 'number' then return i,'jojo'; end;
-  if i > 0 then return i, f(i-1); end;
-end
-
-x = {f(3), f(5), f(10);};
-assert(x[1] == 3 and x[2] == 5 and x[3] == 10 and x[4] == 9 and x[12] == 1);
-assert(x[nil] == nil)
-x = {f'alo', f'xixi', nil};
-assert(x[1] == 'alo' and x[2] == 'xixi' and x[3] == nil);
-x = {f'alo'..'xixi'};
-assert(x[1] == 'aloxixi')
-x = {f{}}
-assert(x[2] == 'jojo' and type(x[1]) == 'table')
-
-
-local f = function (i)
-  if i < 10 then return 'a';
-  elseif i < 20 then return 'b';
-  elseif i < 30 then return 'c';
-  end;
-end
-
-assert(f(3) == 'a' and f(12) == 'b' and f(26) == 'c' and f(100) == nil)
-
-for i=1,1000 do break; end;
-n=100;
-i=3;
-t = {};
-a=nil
-while not a do
-  a=0; for i=1,n do for i=i,1,-1 do a=a+1; t[i]=1; end; end;
-end
-assert(a == n*(n+1)/2 and i==3);
-assert(t[1] and t[n] and not t[0] and not t[n+1])
-
-function f(b)
-  local x = 1;
-  repeat
-    local a;
-    if b==1 then local b=1; x=10; break
-    elseif b==2 then x=20; break;
-    elseif b==3 then x=30;
-    else local a,b,c,d=math.sin(1); x=x+1;
-    end
-  until x>=12;
-  return x;
-end;
-
-assert(f(1) == 10 and f(2) == 20 and f(3) == 30 and f(4)==12)
-
-
-local f = function (i)
-  if i < 10 then return 'a'
-  elseif i < 20 then return 'b'
-  elseif i < 30 then return 'c'
-  else return 8
-  end
-end
-
-assert(f(3) == 'a' and f(12) == 'b' and f(26) == 'c' and f(100) == 8)
-
-local a, b = nil, 23
-x = {f(100)*2+3 or a, a or b+2}
-assert(x[1] == 19 and x[2] == 25)
-x = {f=2+3 or a, a = b+2}
-assert(x.f == 5 and x.a == 25)
-
-a={y=1}
-x = {a.y}
-assert(x[1] == 1)
-
-function f(i)
-  while 1 do
-    if i>0 then i=i-1;
-    else return; end;
-  end;
-end;
-
-function g(i)
-  while 1 do
-    if i>0 then i=i-1
-    else return end
-  end
-end
-
-f(10); g(10);
-
-do
-  function f () return 1,2,3; end
-  local a, b, c = f();
-  assert(a==1 and b==2 and c==3)
-  a, b, c = (f());
-  assert(a==1 and b==nil and c==nil)
-end
-
-local a,b = 3 and f();
-assert(a==1 and b==nil)
-
-function g() f(); return; end;
-assert(g() == nil)
-function g() return nil or f() end
-a,b = g()
-assert(a==1 and b==nil)
-
-print'+';
-
-
-f = [[
-return function ( a , b , c , d , e )
-  local x = a >= b or c or ( d and e ) or nil
-  return x
-end , { a = 1 , b = 2 >= 1 , } or { 1 };
-]]
-f = string.gsub(f, "%s+", "\n");   -- force a SETLINE between opcodes
-f,a = loadstring(f)();
-assert(a.a == 1 and a.b)
-
-function g (a,b,c,d,e)
-  if not (a>=b or c or d and e or nil) then return 0; else return 1; end;
-end
-
-function h (a,b,c,d,e)
-  while (a>=b or c or (d and e) or nil) do return 1; end;
-  return 0;
-end;
-
-assert(f(2,1) == true and g(2,1) == 1 and h(2,1) == 1)
-assert(f(1,2,'a') == 'a' and g(1,2,'a') == 1 and h(1,2,'a') == 1)
-assert(f(1,2,'a')
-~=          -- force SETLINE before nil
-nil, "")
-assert(f(1,2,'a') == 'a' and g(1,2,'a') == 1 and h(1,2,'a') == 1)
-assert(f(1,2,nil,1,'x') == 'x' and g(1,2,nil,1,'x') == 1 and
-                                   h(1,2,nil,1,'x') == 1)
-assert(f(1,2,nil,nil,'x') == nil and g(1,2,nil,nil,'x') == 0 and
-                                     h(1,2,nil,nil,'x') == 0)
-assert(f(1,2,nil,1,nil) == nil and g(1,2,nil,1,nil) == 0 and
-                                   h(1,2,nil,1,nil) == 0)
-
-assert(1 and 2<3 == true and 2<3 and 'a'<'b' == true)
-x = 2<3 and not 3; assert(x==false)
-x = 2<1 or (2>1 and 'a'); assert(x=='a')
-
-
-do
-  local a; if nil then a=1; else a=2; end;    -- this nil comes as PUSHNIL 2
-  assert(a==2)
-end
-
-function F(a)
-  assert(debug.getinfo(1, "n").name == 'F')
-  return a,2,3
-end
-
-a,b = F(1)~=nil; assert(a == true and b == nil);
-a,b = F(nil)==nil; assert(a == true and b == nil)
-
-----------------------------------------------------------------
--- creates all combinations of 
--- [not] ([not] arg op [not] (arg op [not] arg ))
--- and tests each one
-
-function ID(x) return x end
-
-function f(t, i)
-  local b = t.n
-  local res = math.mod(math.floor(i/c), b)+1
-  c = c*b
-  return t[res]
-end
-
-local arg = {" ( 1 < 2 ) ", " ( 1 >= 2 ) ", " F ( ) ", "  nil "; n=4}
-
-local op = {" and ", " or ", " == ", " ~= "; n=4}
-
-local neg = {" ", " not "; n=2}
-
-local i = 0
-repeat
-  c = 1
-  local s = f(neg, i)..'ID('..f(neg, i)..f(arg, i)..f(op, i)..
-            f(neg, i)..'ID('..f(arg, i)..f(op, i)..f(neg, i)..f(arg, i)..'))'
-  local s1 = string.gsub(s, 'ID', '')
-  K,X,NX,WX1,WX2 = nil
-  s = string.format([[
-      local a = %s
-      local b = not %s
-      K = b
-      local xxx; 
-      if %s then X = a  else X = b end
-      if %s then NX = b  else NX = a end
-      while %s do WX1 = a; break end
-      while %s do WX2 = a; break end
-      repeat if (%s) then break end; assert(b)  until not(%s)
-  ]], s1, s, s1, s, s1, s, s1, s, s)
-  assert(loadstring(s))()
-  assert(X and not NX and not WX1 == K and not WX2 == K)
-  if math.mod(i,4000) == 0 then print('+') end
-  i = i+1
-until i==c
-
-print'OK'

lib/lua/lua-tests/db.lua

@@ -1,499 +0,0 @@
--- testing debug library
-
-local function dostring(s) return assert(loadstring(s))() end
-
-print"testing debug library and debug information"
-
-do
-local a=1
-end
-
-function test (s, l, p)
-  collectgarbage()   -- avoid gc during trace
-  local function f (event, line)
-    assert(event == 'line')
-    local l = table.remove(l, 1)
-    if p then print(l, line) end
-    assert(l == line, "wrong trace!!")
-  end
-  debug.sethook(f,"l"); loadstring(s)(); debug.sethook()
-  assert(table.getn(l) == 0)
-end
-
-
-do
-  local a = debug.getinfo(print)
-  assert(a.what == "C" and a.short_src == "[C]")
-  local b = debug.getinfo(test, "SfL")
-  assert(b.name == nil and b.what == "Lua" and b.linedefined == 11 and
-         b.lastlinedefined == b.linedefined + 10 and
-         b.func == test and not string.find(b.short_src, "%["))
-  assert(b.activelines[b.linedefined + 1] and
-         b.activelines[b.lastlinedefined])
-  assert(not b.activelines[b.linedefined] and
-         not b.activelines[b.lastlinedefined + 1])
-end
-
-
--- test file and string names truncation
-a = "function f () end"
-local function dostring (s, x) return loadstring(s, x)() end
-dostring(a)
-assert(debug.getinfo(f).short_src == string.format('[string "%s"]', a))
-dostring(a..string.format("; %s\n=1", string.rep('p', 400)))
-assert(string.find(debug.getinfo(f).short_src, '^%[string [^\n]*%.%.%."%]$'))
-dostring("\n"..a)
-assert(debug.getinfo(f).short_src == '[string "..."]')
-dostring(a, "")
-assert(debug.getinfo(f).short_src == '[string ""]')
-dostring(a, "@xuxu")
-assert(debug.getinfo(f).short_src == "xuxu")
-dostring(a, "@"..string.rep('p', 1000)..'t')
-assert(string.find(debug.getinfo(f).short_src, "^%.%.%.p*t$"))
-dostring(a, "=xuxu")
-assert(debug.getinfo(f).short_src == "xuxu")
-dostring(a, string.format("=%s", string.rep('x', 500)))
-assert(string.find(debug.getinfo(f).short_src, "^x*"))
-dostring(a, "=")
-assert(debug.getinfo(f).short_src == "")
-a = nil; f = nil;
-
-
-repeat
-  local g = {x = function ()
-    local a = debug.getinfo(2)
-    assert(a.name == 'f' and a.namewhat == 'local')
-    a = debug.getinfo(1)
-    assert(a.name == 'x' and a.namewhat == 'field')
-    return 'xixi'
-  end}
-  local f = function () return 1+1 and (not 1 or g.x()) end
-  assert(f() == 'xixi')
-  g = debug.getinfo(f)
-  assert(g.what == "Lua" and g.func == f and g.namewhat == "" and not g.name)
-
-  function f (x, name)   -- local!
-    name = name or 'f'
-    local a = debug.getinfo(1)
-    assert(a.name == name and a.namewhat == 'local')
-    return x
-  end
-
-  -- breaks in different conditions
-  if 3>4 then break end; f()
-  if 3<4 then a=1 else break end; f()
-  while 1 do local x=10; break end; f()
-  local b = 1
-  if 3>4 then return math.sin(1) end; f()
-  a = 3<4; f()
-  a = 3<4 or 1; f()
-  repeat local x=20; if 4>3 then f() else break end; f() until 1
-  g = {}
-  f(g).x = f(2) and f(10)+f(9)
-  assert(g.x == f(19))
-  function g(x) if not x then return 3 end return (x('a', 'x')) end
-  assert(g(f) == 'a')
-until 1
-
-test([[if
-math.sin(1)
-then
-  a=1
-else
-  a=2
-end
-]], {2,4,7})
-
-test([[--
-if nil then
-  a=1
-else
-  a=2
-end
-]], {2,5,6})
-
-test([[a=1
-repeat
-  a=a+1
-until a==3
-]], {1,3,4,3,4})
-
-test([[ do
-  return
-end
-]], {2})
-
-test([[local a
-a=1
-while a<=3 do
-  a=a+1
-end
-]], {2,3,4,3,4,3,4,3,5})
-
-test([[while math.sin(1) do
-  if math.sin(1)
-  then
-    break
-  end
-end
-a=1]], {1,2,4,7})
-
-test([[for i=1,3 do
-  a=i
-end
-]], {1,2,1,2,1,2,1,3})
-
-test([[for i,v in pairs{'a','b'} do
-  a=i..v
-end
-]], {1,2,1,2,1,3})
-
-test([[for i=1,4 do a=1 end]], {1,1,1,1,1})
-
-
-
-print'+'
-
-a = {}; L = nil
-local glob = 1
-local oldglob = glob
-debug.sethook(function (e,l)
-  collectgarbage()   -- force GC during a hook
-  local f, m, c = debug.gethook()
-  assert(m == 'crl' and c == 0)
-  if e == "line" then
-    if glob ~= oldglob then
-      L = l-1   -- get the first line where "glob" has changed
-      oldglob = glob
-    end
-  elseif e == "call" then
-      local f = debug.getinfo(2, "f").func
-      a[f] = 1
-  else assert(e == "return")
-  end
-end, "crl")
-
-function f(a,b)
-  collectgarbage()
-  local _, x = debug.getlocal(1, 1)
-  local _, y = debug.getlocal(1, 2)
-  assert(x == a and y == b)
-  assert(debug.setlocal(2, 3, "pera") == "AA".."AA")
-  assert(debug.setlocal(2, 4, "maçã") == "B")
-  x = debug.getinfo(2)
-  assert(x.func == g and x.what == "Lua" and x.name == 'g' and
-         x.nups == 0 and string.find(x.source, "^@.*db%.lua"))
-  glob = glob+1
-  assert(debug.getinfo(1, "l").currentline == L+1)
-  assert(debug.getinfo(1, "l").currentline == L+2)
-end
-
-function foo()
-  glob = glob+1
-  assert(debug.getinfo(1, "l").currentline == L+1)
-end; foo()  -- set L
--- check line counting inside strings and empty lines
-
-_ = 'alo\
-alo' .. [[
-
-]]
---[[
-]]
-assert(debug.getinfo(1, "l").currentline == L+11)  -- check count of lines
-
-
-function g(...)
-  do local a,b,c; a=math.sin(40); end
-  local feijao
-  local AAAA,B = "xuxu", "mamão"
-  f(AAAA,B)
-  assert(AAAA == "pera" and B == "maçã")
-  do
-     local B = 13
-     local x,y = debug.getlocal(1,5)
-     assert(x == 'B' and y == 13)
-  end
-end
-
-g()
-
-
-assert(a[f] and a[g] and a[assert] and a[debug.getlocal] and not a[print])
-
-
--- tests for manipulating non-registered locals (C and Lua temporaries)
-
-local n, v = debug.getlocal(0, 1)
-assert(v == 0 and n == "(*temporary)")
-local n, v = debug.getlocal(0, 2)
-assert(v == 2 and n == "(*temporary)")
-assert(not debug.getlocal(0, 3))
-assert(not debug.getlocal(0, 0))
-
-function f()
-  assert(select(2, debug.getlocal(2,3)) == 1)
-  assert(not debug.getlocal(2,4))
-  debug.setlocal(2, 3, 10)
-  return 20
-end
-
-function g(a,b) return (a+1) + f() end
-
-assert(g(0,0) == 30)
- 
-
-debug.sethook(nil);
-assert(debug.gethook() == nil)
-
-
--- testing access to function arguments
-
-X = nil
-a = {}
-function a:f (a, b, ...) local c = 13 end
-debug.sethook(function (e)
-  assert(e == "call")
-  dostring("XX = 12")  -- test dostring inside hooks
-  -- testing errors inside hooks
-  assert(not pcall(loadstring("a='joao'+1")))
-  debug.sethook(function (e, l) 
-    assert(debug.getinfo(2, "l").currentline == l)
-    local f,m,c = debug.gethook()
-    assert(e == "line")
-    assert(m == 'l' and c == 0)
-    debug.sethook(nil)  -- hook is called only once
-    assert(not X)       -- check that
-    X = {}; local i = 1
-    local x,y
-    while 1 do
-      x,y = debug.getlocal(2, i)
-      if x==nil then break end
-      X[x] = y
-      i = i+1
-    end
-  end, "l")
-end, "c")
-
-a:f(1,2,3,4,5)
-assert(X.self == a and X.a == 1   and X.b == 2 and X.arg.n == 3 and X.c == nil)
-assert(XX == 12)
-assert(debug.gethook() == nil)
-
-
--- testing upvalue access
-local function getupvalues (f)
-  local t = {}
-  local i = 1
-  while true do
-    local name, value = debug.getupvalue(f, i)
-    if not name then break end
-    assert(not t[name])
-    t[name] = value
-    i = i + 1
-  end
-  return t
-end
-
-local a,b,c = 1,2,3
-local function foo1 (a) b = a; return c end
-local function foo2 (x) a = x; return c+b end
-assert(debug.getupvalue(foo1, 3) == nil)
-assert(debug.getupvalue(foo1, 0) == nil)
-assert(debug.setupvalue(foo1, 3, "xuxu") == nil)
-local t = getupvalues(foo1)
-assert(t.a == nil and t.b == 2 and t.c == 3)
-t = getupvalues(foo2)
-assert(t.a == 1 and t.b == 2 and t.c == 3)
-assert(debug.setupvalue(foo1, 1, "xuxu") == "b")
-assert(({debug.getupvalue(foo2, 3)})[2] == "xuxu")
--- cannot manipulate C upvalues from Lua
-assert(debug.getupvalue(io.read, 1) == nil)  
-assert(debug.setupvalue(io.read, 1, 10) == nil)  
-
-
--- testing count hooks
-local a=0
-debug.sethook(function (e) a=a+1 end, "", 1)
-a=0; for i=1,1000 do end; assert(1000 < a and a < 1012)
-debug.sethook(function (e) a=a+1 end, "", 4)
-a=0; for i=1,1000 do end; assert(250 < a and a < 255)
-local f,m,c = debug.gethook()
-assert(m == "" and c == 4)
-debug.sethook(function (e) a=a+1 end, "", 4000)
-a=0; for i=1,1000 do end; assert(a == 0)
-debug.sethook(print, "", 2^24 - 1)   -- count upperbound
-local f,m,c = debug.gethook()
-assert(({debug.gethook()})[3] == 2^24 - 1)
-debug.sethook()
-
-
--- tests for tail calls
-local function f (x)
-  if x then
-    assert(debug.getinfo(1, "S").what == "Lua")
-    local tail = debug.getinfo(2)
-    assert(not pcall(getfenv, 3))
-    assert(tail.what == "tail" and tail.short_src == "(tail call)" and
-           tail.linedefined == -1 and tail.func == nil)
-    assert(debug.getinfo(3, "f").func == g1)
-    assert(getfenv(3))
-    assert(debug.getinfo(4, "S").what == "tail")
-    assert(not pcall(getfenv, 5))
-    assert(debug.getinfo(5, "S").what == "main")
-    assert(getfenv(5))
-    print"+"
-    end
-end
-
-function g(x) return f(x) end
-
-function g1(x) g(x) end
-
-local function h (x) local f=g1; return f(x) end
-
-h(true)
-
-local b = {}
-debug.sethook(function (e) table.insert(b, e) end, "cr")
-h(false)
-debug.sethook()
-local res = {"return",   -- first return (from sethook)
-  "call", "call", "call", "call",
-  "return", "tail return", "return", "tail return",
-  "call",    -- last call (to sethook)
-}
-for _, k in ipairs(res) do assert(k == table.remove(b, 1)) end
-
-
-lim = 30000
-local function foo (x)
-  if x==0 then
-    assert(debug.getinfo(lim+2).what == "main")
-    for i=2,lim do assert(debug.getinfo(i, "S").what == "tail") end
-  else return foo(x-1)
-  end
-end
-
-foo(lim)
-
-
-print"+"
-
-
--- testing traceback
-
-assert(debug.traceback(print) == print)
-assert(debug.traceback(print, 4) == print)
-assert(string.find(debug.traceback("hi", 4), "^hi\n"))
-assert(string.find(debug.traceback("hi"), "^hi\n"))
-assert(not string.find(debug.traceback("hi"), "'traceback'"))
-assert(string.find(debug.traceback("hi", 0), "'traceback'"))
-assert(string.find(debug.traceback(), "^stack traceback:\n"))
-
--- testing debugging of coroutines
-
-local function checktraceback (co, p)
-  local tb = debug.traceback(co)
-  local i = 0
-  for l in string.gmatch(tb, "[^\n]+\n?") do
-    assert(i == 0 or string.find(l, p[i]))
-    i = i+1
-  end
-  assert(p[i] == nil)
-end
-
-
-local function f (n)
-  if n > 0 then return f(n-1)
-  else coroutine.yield() end
-end
-
-local co = coroutine.create(f)
-coroutine.resume(co, 3)
-checktraceback(co, {"yield", "db.lua", "tail", "tail", "tail"})
-
-
-co = coroutine.create(function (x)
-       local a = 1
-       coroutine.yield(debug.getinfo(1, "l"))
-       coroutine.yield(debug.getinfo(1, "l").currentline)
-       return a
-     end)
-
-local tr = {}
-local foo = function (e, l) table.insert(tr, l) end
-debug.sethook(co, foo, "l")
-
-local _, l = coroutine.resume(co, 10)
-local x = debug.getinfo(co, 1, "lfLS")
-assert(x.currentline == l.currentline and x.activelines[x.currentline])
-assert(type(x.func) == "function")
-for i=x.linedefined + 1, x.lastlinedefined do
-  assert(x.activelines[i])
-  x.activelines[i] = nil
-end
-assert(next(x.activelines) == nil)   -- no 'extra' elements
-assert(debug.getinfo(co, 2) == nil)
-local a,b = debug.getlocal(co, 1, 1)
-assert(a == "x" and b == 10)
-a,b = debug.getlocal(co, 1, 2)
-assert(a == "a" and b == 1)
-debug.setlocal(co, 1, 2, "hi")
-assert(debug.gethook(co) == foo)
-assert(table.getn(tr) == 2 and
-       tr[1] == l.currentline-1 and tr[2] == l.currentline)
-
-a,b,c = pcall(coroutine.resume, co)
-assert(a and b and c == l.currentline+1)
-checktraceback(co, {"yield", "in function <"})
-
-a,b = coroutine.resume(co)
-assert(a and b == "hi")
-assert(table.getn(tr) == 4 and tr[4] == l.currentline+2)
-assert(debug.gethook(co) == foo)
-assert(debug.gethook() == nil)
-checktraceback(co, {})
-
-
--- check traceback of suspended (or dead with error) coroutines
-
-function f(i) if i==0 then error(i) else coroutine.yield(); f(i-1) end end
-
-co = coroutine.create(function (x) f(x) end)
-a, b = coroutine.resume(co, 3)
-t = {"'yield'", "'f'", "in function <"}
-while coroutine.status(co) == "suspended" do
-  checktraceback(co, t)
-  a, b = coroutine.resume(co)
-  table.insert(t, 2, "'f'")   -- one more recursive call to 'f'
-end
-t[1] = "'error'"
-checktraceback(co, t)
-
-
--- test acessing line numbers of a coroutine from a resume inside
--- a C function (this is a known bug in Lua 5.0)
-
-local function g(x)
-    coroutine.yield(x)
-end
-
-local function f (i)
-  debug.sethook(function () end, "l")
-  for j=1,1000 do
-    g(i+j)
-  end
-end
-
-local co = coroutine.wrap(f)
-co(10)
-pcall(co)
-pcall(co)
-
-
-assert(type(debug.getregistry()) == "table")
-
-
-print"OK"
-

lib/lua/lua-tests/errors.lua

@@ -1,250 +0,0 @@
-print("testing errors")
-
-function doit (s)
-  local f, msg = loadstring(s)
-  if f == nil then return msg end
-  local cond, msg = pcall(f)
-  return (not cond) and msg
-end
-
-
-function checkmessage (prog, msg)
-  assert(string.find(doit(prog), msg, 1, true))
-end
-
-function checksyntax (prog, extra, token, line)
-  local msg = doit(prog)
-  token = string.gsub(token, "(%p)", "%%%1")
-  local pt = string.format([[^%%[string ".*"%%]:%d: .- near '%s'$]],
-                           line, token)
-  assert(string.find(msg, pt))
-  assert(string.find(msg, msg, 1, true))
-end
-
-
--- test error message with no extra info
-assert(doit("error('hi', 0)") == 'hi')
-
--- test error message with no info
-assert(doit("error()") == nil)
-
-
--- test common errors/errors that crashed in the past
-assert(doit("unpack({}, 1, n=2^30)"))
-assert(doit("a=math.sin()"))
-assert(not doit("tostring(1)") and doit("tostring()"))
-assert(doit"tonumber()")
-assert(doit"repeat until 1; a")
-checksyntax("break label", "", "label", 1)
-assert(doit";")
-assert(doit"a=1;;")
-assert(doit"return;;")
-assert(doit"assert(false)")
-assert(doit"assert(nil)")
-assert(doit"a=math.sin\n(3)")
-assert(doit("function a (... , ...) end"))
-assert(doit("function a (, ...) end"))
-
-checksyntax([[
-  local a = {4
-
-]], "'}' expected (to close '{' at line 1)", "<eof>", 3)
-
-
--- tests for better error messages
-
-checkmessage("a=1; bbbb=2; a=math.sin(3)+bbbb(3)", "global 'bbbb'")
-checkmessage("a=1; local a,bbbb=2,3; a = math.sin(1) and bbbb(3)",
-       "local 'bbbb'")
-checkmessage("a={}; do local a=1 end a:bbbb(3)", "method 'bbbb'")
-checkmessage("local a={}; a.bbbb(3)", "field 'bbbb'")
-assert(not string.find(doit"a={13}; local bbbb=1; a[bbbb](3)", "'bbbb'"))
-checkmessage("a={13}; local bbbb=1; a[bbbb](3)", "number")
-
-aaa = nil
-checkmessage("aaa.bbb:ddd(9)", "global 'aaa'")
-checkmessage("local aaa={bbb=1}; aaa.bbb:ddd(9)", "field 'bbb'")
-checkmessage("local aaa={bbb={}}; aaa.bbb:ddd(9)", "method 'ddd'")
-checkmessage("local a,b,c; (function () a = b+1 end)()", "upvalue 'b'")
-assert(not doit"local aaa={bbb={ddd=next}}; aaa.bbb:ddd(nil)")
-
-checkmessage("b=1; local aaa='a'; x=aaa+b", "local 'aaa'")
-checkmessage("aaa={}; x=3/aaa", "global 'aaa'")
-checkmessage("aaa='2'; b=nil;x=aaa*b", "global 'b'")
-checkmessage("aaa={}; x=-aaa", "global 'aaa'")
-assert(not string.find(doit"aaa={}; x=(aaa or aaa)+(aaa and aaa)", "'aaa'"))
-assert(not string.find(doit"aaa={}; (aaa or aaa)()", "'aaa'"))
-
-checkmessage([[aaa=9
-repeat until 3==3
-local x=math.sin(math.cos(3))
-if math.sin(1) == x then return math.sin(1) end   -- tail call
-local a,b = 1, {
-  {x='a'..'b'..'c', y='b', z=x},
-  {1,2,3,4,5} or 3+3<=3+3,
-  3+1>3+1,
-  {d = x and aaa[x or y]}}
-]], "global 'aaa'")
-
-checkmessage([[
-local x,y = {},1
-if math.sin(1) == 0 then return 3 end    -- return
-x.a()]], "field 'a'")
-
-checkmessage([[
-prefix = nil
-insert = nil
-while 1 do  
-  local a
-  if nil then break end
-  insert(prefix, a)
-end]], "global 'insert'")
-
-checkmessage([[  -- tail call
-  return math.sin("a")
-]], "'sin'")
-
-checkmessage([[collectgarbage("nooption")]], "invalid option")
-
-checkmessage([[x = print .. "a"]], "concatenate")
-
-checkmessage("getmetatable(io.stdin).__gc()", "no value")
-
-print'+'
-
-
--- testing line error
-
-function lineerror (s)
-  local err,msg = pcall(loadstring(s))
-  local line = string.match(msg, ":(%d+):")
-  return line and line+0
-end
-
-assert(lineerror"local a\n for i=1,'a' do \n print(i) \n end" == 2)
-assert(lineerror"\n local a \n for k,v in 3 \n do \n print(k) \n end" == 3)
-assert(lineerror"\n\n for k,v in \n 3 \n do \n print(k) \n end" == 4)
-assert(lineerror"function a.x.y ()\na=a+1\nend" == 1)
-
-local p = [[
-function g() f() end
-function f(x) error('a', X) end
-g()
-]]
-X=3;assert(lineerror(p) == 3)
-X=0;assert(lineerror(p) == nil)
-X=1;assert(lineerror(p) == 2)
-X=2;assert(lineerror(p) == 1)
-
-lineerror = nil
-
-C = 0
-local l = debug.getinfo(1, "l").currentline; function y () C=C+1; y() end
-
-local function checkstackmessage (m)
-  return (string.find(m, "^.-:%d+: stack overflow"))
-end
-assert(checkstackmessage(doit('y()')))
-assert(checkstackmessage(doit('y()')))
-assert(checkstackmessage(doit('y()')))
--- teste de linhas em erro
-C = 0
-local l1
-local function g()
-  l1 = debug.getinfo(1, "l").currentline; y()
-end
-local _, stackmsg = xpcall(g, debug.traceback)
-local stack = {}
-for line in string.gmatch(stackmsg, "[^\n]*") do
-  local curr = string.match(line, ":(%d+):")
-  if curr then table.insert(stack, tonumber(curr)) end
-end
-local i=1
-while stack[i] ~= l1 do
-  assert(stack[i] == l)
-  i = i+1
-end
-assert(i > 15)
-
-
--- error in error handling
-local res, msg = xpcall(error, error)
-assert(not res and type(msg) == 'string')
-
-local function f (x)
-  if x==0 then error('a\n')
-  else
-    local aux = function () return f(x-1) end
-    local a,b = xpcall(aux, aux)
-    return a,b
-  end
-end
-f(3)
-
--- non string messages
-function f() error{msg='x'} end
-res, msg = xpcall(f, function (r) return {msg=r.msg..'y'} end)
-assert(msg.msg == 'xy')
-
-print('+')
-checksyntax("syntax error", "", "error", 1)
-checksyntax("1.000", "", "1.000", 1)
-checksyntax("[[a]]", "", "[[a]]", 1)
-checksyntax("'aa'", "", "'aa'", 1)
-
--- test 255 as first char in a chunk
-checksyntax("\255a = 1", "", "\255", 1)
-
-doit('I = loadstring("a=9+"); a=3')
-assert(a==3 and I == nil)
-print('+')
-
-lim = 1000
-if rawget(_G, "_soft") then lim = 100 end
-for i=1,lim do
-  doit('a = ')
-  doit('a = 4+nil')
-end
-
-
--- testing syntax limits
-local function testrep (init, rep)
-  local s = "local a; "..init .. string.rep(rep, 400)
-  local a,b = loadstring(s)
-  assert(not a and string.find(b, "syntax levels"))
-end
-testrep("a=", "{")
-testrep("a=", "(")
-testrep("", "a(")
-testrep("", "do ")
-testrep("", "while a do ")
-testrep("", "if a then else ")
-testrep("", "function foo () ")
-testrep("a=", "a..")
-testrep("a=", "a^")
-
-
--- testing other limits
--- upvalues
-local  s = "function foo ()\n  local "
-for j = 1,70 do
-  s = s.."a"..j..", "
-end
-s = s.."b\n"
-for j = 1,70 do
-  s = s.."function foo"..j.." ()\n a"..j.."=3\n"
-end
-local a,b = loadstring(s)
-assert(string.find(b, "line 3"))
-
--- local variables
-s = "\nfunction foo ()\n  local "
-for j = 1,300 do
-  s = s.."a"..j..", " 
-end
-s = s.."b\n"
-local a,b = loadstring(s)
-assert(string.find(b, "line 2"))
-
-
-print('OK')

lib/lua/lua-tests/events.lua

@@ -1,360 +0,0 @@
-print('testing metatables')
-
-X = 20; B = 30
-
-setfenv(1, setmetatable({}, {__index=_G}))
-
-collectgarbage()
-
-X = X+10
-assert(X == 30 and _G.X == 20)
-B = false
-assert(B == false)
-B = nil
-assert(B == 30)
-
-assert(getmetatable{} == nil)
-assert(getmetatable(4) == nil)
-assert(getmetatable(nil) == nil)
-a={}; setmetatable(a, {__metatable = "xuxu",
-                    __tostring=function(x) return x.name end})
-assert(getmetatable(a) == "xuxu")
-assert(tostring(a) == nil)
--- cannot change a protected metatable
-assert(pcall(setmetatable, a, {}) == false)
-a.name = "gororoba"
-assert(tostring(a) == "gororoba")
-
-local a, t = {10,20,30; x="10", y="20"}, {}
-assert(setmetatable(a,t) == a)
-assert(getmetatable(a) == t)
-assert(setmetatable(a,nil) == a)
-assert(getmetatable(a) == nil)
-assert(setmetatable(a,t) == a)
-
-
-function f (t, i, e)
-  assert(not e)
-  local p = rawget(t, "parent")
-  return (p and p[i]+3), "dummy return"
-end
-
-t.__index = f
-
-a.parent = {z=25, x=12, [4] = 24}
-assert(a[1] == 10 and a.z == 28 and a[4] == 27 and a.x == "10")
-
-collectgarbage()
-
-a = setmetatable({}, t)
-function f(t, i, v) rawset(t, i, v-3) end
-t.__newindex = f
-a[1] = 30; a.x = "101"; a[5] = 200
-assert(a[1] == 27 and a.x == 98 and a[5] == 197)
-
-
-local c = {}
-a = setmetatable({}, t)
-t.__newindex = c
-a[1] = 10; a[2] = 20; a[3] = 90
-assert(c[1] == 10 and c[2] == 20 and c[3] == 90)
-
-
-do
-  local a;
-  a = setmetatable({}, {__index = setmetatable({},
-                     {__index = setmetatable({},
-                     {__index = function (_,n) return a[n-3]+4, "lixo" end})})})
-  a[0] = 20
-  for i=0,10 do
-    assert(a[i*3] == 20 + i*4)
-  end
-end
-
-
-do  -- newindex
-  local foi
-  local a = {}
-  for i=1,10 do a[i] = 0; a['a'..i] = 0; end
-  setmetatable(a, {__newindex = function (t,k,v) foi=true; rawset(t,k,v) end})
-  foi = false; a[1]=0; assert(not foi)
-  foi = false; a['a1']=0; assert(not foi)
-  foi = false; a['a11']=0; assert(foi)
-  foi = false; a[11]=0; assert(foi)
-  foi = false; a[1]=nil; assert(not foi)
-  foi = false; a[1]=nil; assert(foi)
-end
-
-
-function f (t, ...) return t, {...} end
-t.__call = f
-
-do
-  local x,y = a(unpack{'a', 1})
-  assert(x==a and y[1]=='a' and y[2]==1 and y[3]==nil)
-  x,y = a()
-  assert(x==a and y[1]==nil)
-end
-
-
-local b = setmetatable({}, t)
-setmetatable(b,t)
-
-function f(op)
-  return function (...) cap = {[0] = op, ...} ; return (...) end
-end
-t.__add = f("add")
-t.__sub = f("sub")
-t.__mul = f("mul")
-t.__div = f("div")
-t.__mod = f("mod")
-t.__unm = f("unm")
-t.__pow = f("pow")
-
-assert(b+5 == b)
-assert(cap[0] == "add" and cap[1] == b and cap[2] == 5 and cap[3]==nil)
-assert(b+'5' == b)
-assert(cap[0] == "add" and cap[1] == b and cap[2] == '5' and cap[3]==nil)
-assert(5+b == 5)
-assert(cap[0] == "add" and cap[1] == 5 and cap[2] == b and cap[3]==nil)
-assert('5'+b == '5')
-assert(cap[0] == "add" and cap[1] == '5' and cap[2] == b and cap[3]==nil)
-b=b-3; assert(getmetatable(b) == t)
-assert(5-a == 5)
-assert(cap[0] == "sub" and cap[1] == 5 and cap[2] == a and cap[3]==nil)
-assert('5'-a == '5')
-assert(cap[0] == "sub" and cap[1] == '5' and cap[2] == a and cap[3]==nil)
-assert(a*a == a)
-assert(cap[0] == "mul" and cap[1] == a and cap[2] == a and cap[3]==nil)
-assert(a/0 == a)
-assert(cap[0] == "div" and cap[1] == a and cap[2] == 0 and cap[3]==nil)
-assert(a%2 == a)
-assert(cap[0] == "mod" and cap[1] == a and cap[2] == 2 and cap[3]==nil)
-assert(-a == a)
-assert(cap[0] == "unm" and cap[1] == a)
-assert(a^4 == a)
-assert(cap[0] == "pow" and cap[1] == a and cap[2] == 4 and cap[3]==nil)
-assert(a^'4' == a)
-assert(cap[0] == "pow" and cap[1] == a and cap[2] == '4' and cap[3]==nil)
-assert(4^a == 4)
-assert(cap[0] == "pow" and cap[1] == 4 and cap[2] == a and cap[3]==nil)
-assert('4'^a == '4')
-assert(cap[0] == "pow" and cap[1] == '4' and cap[2] == a and cap[3]==nil)
-
-
-t = {}
-t.__lt = function (a,b,c)
-  collectgarbage()
-  assert(c == nil)
-  if type(a) == 'table' then a = a.x end
-  if type(b) == 'table' then b = b.x end
- return a<b, "dummy"
-end
-
-function Op(x) return setmetatable({x=x}, t) end
-
-local function test ()
-  assert(not(Op(1)<Op(1)) and (Op(1)<Op(2)) and not(Op(2)<Op(1)))
-  assert(not(Op('a')<Op('a')) and (Op('a')<Op('b')) and not(Op('b')<Op('a')))
-  assert((Op(1)<=Op(1)) and (Op(1)<=Op(2)) and not(Op(2)<=Op(1)))
-  assert((Op('a')<=Op('a')) and (Op('a')<=Op('b')) and not(Op('b')<=Op('a')))
-  assert(not(Op(1)>Op(1)) and not(Op(1)>Op(2)) and (Op(2)>Op(1)))
-  assert(not(Op('a')>Op('a')) and not(Op('a')>Op('b')) and (Op('b')>Op('a')))
-  assert((Op(1)>=Op(1)) and not(Op(1)>=Op(2)) and (Op(2)>=Op(1)))
-  assert((Op('a')>=Op('a')) and not(Op('a')>=Op('b')) and (Op('b')>=Op('a')))
-end
-
-test()
-
-t.__le = function (a,b,c)
-  assert(c == nil)
-  if type(a) == 'table' then a = a.x end
-  if type(b) == 'table' then b = b.x end
- return a<=b, "dummy"
-end
-
-test()  -- retest comparisons, now using both `lt' and `le'
-
-
--- test `partial order'
-
-local function Set(x)
-  local y = {}
-  for _,k in pairs(x) do y[k] = 1 end
-  return setmetatable(y, t)
-end
-
-t.__lt = function (a,b)
-  for k in pairs(a) do
-    if not b[k] then return false end
-    b[k] = nil
-  end
-  return next(b) ~= nil
-end
-
-t.__le = nil
-
-assert(Set{1,2,3} < Set{1,2,3,4})
-assert(not(Set{1,2,3,4} < Set{1,2,3,4}))
-assert((Set{1,2,3,4} <= Set{1,2,3,4}))
-assert((Set{1,2,3,4} >= Set{1,2,3,4}))
-assert((Set{1,3} <= Set{3,5}))   -- wrong!! model needs a `le' method ;-)
-
-t.__le = function (a,b)
-  for k in pairs(a) do
-    if not b[k] then return false end
-  end
-  return true
-end
-
-assert(not (Set{1,3} <= Set{3,5}))   -- now its OK!
-assert(not(Set{1,3} <= Set{3,5}))
-assert(not(Set{1,3} >= Set{3,5}))
-
-t.__eq = function (a,b)
-  for k in pairs(a) do
-    if not b[k] then return false end
-    b[k] = nil
-  end
-  return next(b) == nil
-end
-
-local s = Set{1,3,5}
-assert(s == Set{3,5,1})
-assert(not rawequal(s, Set{3,5,1}))
-assert(rawequal(s, s))
-assert(Set{1,3,5,1} == Set{3,5,1})
-assert(Set{1,3,5} ~= Set{3,5,1,6})
-t[Set{1,3,5}] = 1
-assert(t[Set{1,3,5}] == nil)   -- `__eq' is not valid for table accesses
-
-
-t.__concat = function (a,b,c)
-  assert(c == nil)
-  if type(a) == 'table' then a = a.val end
-  if type(b) == 'table' then b = b.val end
-  if A then return a..b
-  else
-    return setmetatable({val=a..b}, t)
-  end
-end
-
-c = {val="c"}; setmetatable(c, t)
-d = {val="d"}; setmetatable(d, t)
-
-A = true
-assert(c..d == 'cd')
-assert(0 .."a".."b"..c..d.."e".."f"..(5+3).."g" == "0abcdef8g")
-
-A = false
-x = c..d
-assert(getmetatable(x) == t and x.val == 'cd')
-x = 0 .."a".."b"..c..d.."e".."f".."g"
-assert(x.val == "0abcdefg")
-
-
--- test comparison compatibilities
-local t1, t2, c, d
-t1 = {};  c = {}; setmetatable(c, t1)
-d = {}
-t1.__eq = function () return true end
-t1.__lt = function () return true end
-assert(c ~= d and not pcall(function () return c < d end))
-setmetatable(d, t1)
-assert(c == d and c < d and not(d <= c))
-t2 = {}
-t2.__eq = t1.__eq
-t2.__lt = t1.__lt
-setmetatable(d, t2)
-assert(c == d and c < d and not(d <= c))
-
-
-
--- test for several levels of calls
-local i
-local tt = {
-  __call = function (t, ...)
-    i = i+1
-    if t.f then return t.f(...)
-    else return {...}
-    end
-  end
-}
-
-local a = setmetatable({}, tt)
-local b = setmetatable({f=a}, tt)
-local c = setmetatable({f=b}, tt)
-
-i = 0
-x = c(3,4,5)
-assert(i == 3 and x[1] == 3 and x[3] == 5)
-
-
-assert(_G.X == 20)
-assert(_G == getfenv(0))
-
-print'+'
-
-local _g = _G
-setfenv(1, setmetatable({}, {__index=function (_,k) return _g[k] end}))
-
--- testing proxies
-assert(getmetatable(newproxy()) == nil)
-assert(getmetatable(newproxy(false)) == nil)
-
-local u = newproxy(true)
-
-getmetatable(u).__newindex = function (u,k,v)
-  getmetatable(u)[k] = v
-end
-
-getmetatable(u).__index = function (u,k)
-  return getmetatable(u)[k]
-end
-
-for i=1,10 do u[i] = i end
-for i=1,10 do assert(u[i] == i) end
-
-local k = newproxy(u)
-assert(getmetatable(k) == getmetatable(u))
-
-
-a = {}
-rawset(a, "x", 1, 2, 3)
-assert(a.x == 1 and rawget(a, "x", 3) == 1)
-
-print '+'
-
--- testing metatables for basic types
-mt = {}
-debug.setmetatable(10, mt)
-assert(getmetatable(-2) == mt)
-mt.__index = function (a,b) return a+b end
-assert((10)[3] == 13)
-assert((10)["3"] == 13)
-debug.setmetatable(23, nil)
-assert(getmetatable(-2) == nil)
-
-debug.setmetatable(true, mt)
-assert(getmetatable(false) == mt)
-mt.__index = function (a,b) return a or b end
-assert((true)[false] == true)
-assert((false)[false] == false)
-debug.setmetatable(false, nil)
-assert(getmetatable(true) == nil)
-
-debug.setmetatable(nil, mt)
-assert(getmetatable(nil) == mt)
-mt.__add = function (a,b) return (a or 0) + (b or 0) end
-assert(10 + nil == 10)
-assert(nil + 23 == 23)
-assert(nil + nil == 0)
-debug.setmetatable(nil, nil)
-assert(getmetatable(nil) == nil)
-
-debug.setmetatable(nil, {})
-
-
-print 'OK'
-
-return 12

lib/lua/lua-tests/files.lua

@@ -1,324 +0,0 @@
-
-print('testing i/o')
-
-assert(io.input(io.stdin) == io.stdin)
-assert(io.output(io.stdout) == io.stdout)
-
-
-assert(type(io.input()) == "userdata" and io.type(io.output()) == "file")
-assert(io.type(8) == nil)
-local a = {}; setmetatable(a, {})
-assert(io.type(a) == nil)
-
-local a,b,c = io.open('xuxu_nao_existe')
-assert(not a and type(b) == "string" and type(c) == "number")
-
-a,b,c = io.open('/a/b/c/d', 'w')
-assert(not a and type(b) == "string" and type(c) == "number")
-
-local file = os.tmpname()
-local otherfile = os.tmpname()
-
-assert(os.setlocale('C', 'all'))
-
-io.input(io.stdin); io.output(io.stdout);
-
-os.remove(file)
-assert(loadfile(file) == nil)
-assert(io.open(file) == nil)
-io.output(file)
-assert(io.output() ~= io.stdout)
-
-assert(io.output():seek() == 0)
-assert(io.write("alo alo"))
-assert(io.output():seek() == string.len("alo alo"))
-assert(io.output():seek("cur", -3) == string.len("alo alo")-3)
-assert(io.write("joao"))
-assert(io.output():seek("end") == string.len("alo joao"))
-
-assert(io.output():seek("set") == 0)
-
-assert(io.write('"álo"', "{a}\n", "second line\n", "third line \n"))
-assert(io.write('çfourth_line'))
-io.output(io.stdout)
-collectgarbage()  -- file should be closed by GC
-assert(io.input() == io.stdin and rawequal(io.output(), io.stdout))
-print('+')
-
--- test GC for files
-collectgarbage()
-for i=1,120 do
-  for i=1,5 do
-    io.input(file)
-    assert(io.open(file, 'r'))
-    io.lines(file)
-  end
-  collectgarbage()
-end
-
-assert(os.rename(file, otherfile))
-assert(os.rename(file, otherfile) == nil)
-
-io.output(io.open(otherfile, "a"))
-assert(io.write("\n\n\t\t  3450\n"));
-io.close()
-
--- test line generators
-assert(os.rename(otherfile, file))
-io.output(otherfile)
-local f = io.lines(file)
-while f() do end;
-assert(not pcall(f))  -- read lines after EOF
-assert(not pcall(f))  -- read lines after EOF
--- copy from file to otherfile
-for l in io.lines(file) do io.write(l, "\n") end
-io.close()
--- copy from otherfile back to file
-local f = assert(io.open(otherfile))
-assert(io.type(f) == "file")
-io.output(file)
-assert(io.output():read() == nil)
-for l in f:lines() do io.write(l, "\n") end
-assert(f:close()); io.close()
-assert(not pcall(io.close, f))   -- error trying to close again
-assert(tostring(f) == "file (closed)")
-assert(io.type(f) == "closed file")
-io.input(file)
-f = io.open(otherfile):lines()
-for l in io.lines() do assert(l == f()) end
-assert(os.remove(otherfile))
-
-io.input(file)
-do  -- test error returns
-  local a,b,c = io.input():write("xuxu")
-  assert(not a and type(b) == "string" and type(c) == "number")
-end
-assert(io.read(0) == "")   -- not eof
-assert(io.read(5, '*l') == '"álo"')
-assert(io.read(0) == "")
-assert(io.read() == "second line")
-local x = io.input():seek()
-assert(io.read() == "third line ")
-assert(io.input():seek("set", x))
-assert(io.read('*l') == "third line ")
-assert(io.read(1) == "ç")
-assert(io.read(string.len"fourth_line") == "fourth_line")
-assert(io.input():seek("cur", -string.len"fourth_line"))
-assert(io.read() == "fourth_line")
-assert(io.read() == "")  -- empty line
-assert(io.read('*n') == 3450)
-assert(io.read(1) == '\n')
-assert(io.read(0) == nil)  -- end of file
-assert(io.read(1) == nil)  -- end of file
-assert(({io.read(1)})[2] == nil)
-assert(io.read() == nil)  -- end of file
-assert(({io.read()})[2] == nil)
-assert(io.read('*n') == nil)  -- end of file
-assert(({io.read('*n')})[2] == nil)
-assert(io.read('*a') == '')  -- end of file (OK for `*a')
-assert(io.read('*a') == '')  -- end of file (OK for `*a')
-collectgarbage()
-print('+')
-io.close(io.input())
-assert(not pcall(io.read))
-
-assert(os.remove(file))
-
-local t = '0123456789'
-for i=1,12 do t = t..t; end
-assert(string.len(t) == 10*2^12)
-
-io.output(file)
-io.write("alo\n")
-io.close()
-assert(not pcall(io.write))
-local f = io.open(file, "a")
-io.output(f)
-collectgarbage()
-
-assert(io.write(' ' .. t .. ' '))
-assert(io.write(';', 'end of file\n'))
-f:flush(); io.flush()
-f:close()
-print('+')
-
-io.input(file)
-assert(io.read() == "alo")
-assert(io.read(1) == ' ')
-assert(io.read(string.len(t)) == t)
-assert(io.read(1) == ' ')
-assert(io.read(0))
-assert(io.read('*a') == ';end of file\n')
-assert(io.read(0) == nil)
-assert(io.close(io.input()))
-
-assert(os.remove(file))
-print('+')
-
-local x1 = "string\n\n\\com \"\"''coisas [[estranhas]] ]]'"
-io.output(file)
-assert(io.write(string.format("x2 = %q\n-- comment without ending EOS", x1)))
-io.close()
-assert(loadfile(file))()
-assert(x1 == x2)
-print('+')
-assert(os.remove(file))
-assert(os.remove(file) == nil)
-assert(os.remove(otherfile) == nil)
-
-io.output(file)
-assert(io.write("qualquer coisa\n"))
-assert(io.write("mais qualquer coisa"))
-io.close()
-io.output(assert(io.open(otherfile, 'wb')))
-assert(io.write("outra coisa\0\1\3\0\0\0\0\255\0"))
-io.close()
-
-local filehandle = assert(io.open(file, 'r'))
-local otherfilehandle = assert(io.open(otherfile, 'rb'))
-assert(filehandle ~= otherfilehandle)
-assert(type(filehandle) == "userdata")
-assert(filehandle:read('*l') == "qualquer coisa")
-io.input(otherfilehandle)
-assert(io.read(string.len"outra coisa") == "outra coisa")
-assert(filehandle:read('*l') == "mais qualquer coisa")
-filehandle:close();
-assert(type(filehandle) == "userdata")
-io.input(otherfilehandle)
-assert(io.read(4) == "\0\1\3\0")
-assert(io.read(3) == "\0\0\0")
-assert(io.read(0) == "")        -- 255 is not eof
-assert(io.read(1) == "\255")
-assert(io.read('*a') == "\0")
-assert(not io.read(0))
-assert(otherfilehandle == io.input())
-otherfilehandle:close()
-assert(os.remove(file))
-assert(os.remove(otherfile))
-collectgarbage()
-
-io.output(file)
-io.write[[
- 123.4	-56e-2  not a number
-second line
-third line
-
-and the rest of the file
-]]
-io.close()
-io.input(file)
-local _,a,b,c,d,e,h,__ = io.read(1, '*n', '*n', '*l', '*l', '*l', '*a', 10)
-assert(io.close(io.input()))
-assert(_ == ' ' and __ == nil)
-assert(type(a) == 'number' and a==123.4 and b==-56e-2)
-assert(d=='second line' and e=='third line')
-assert(h==[[
-
-and the rest of the file
-]])
-assert(os.remove(file))
-collectgarbage()
-
--- testing buffers
-do
-  local f = assert(io.open(file, "w"))
-  local fr = assert(io.open(file, "r"))
-  assert(f:setvbuf("full", 2000))
-  f:write("x")
-  assert(fr:read("*all") == "")  -- full buffer; output not written yet
-  f:close()
-  fr:seek("set")
-  assert(fr:read("*all") == "x")   -- `close' flushes it
-  f = assert(io.open(file), "w")
-  assert(f:setvbuf("no"))
-  f:write("x")
-  fr:seek("set")
-  assert(fr:read("*all") == "x")  -- no buffer; output is ready
-  f:close()
-  f = assert(io.open(file, "a"))
-  assert(f:setvbuf("line"))
-  f:write("x")
-  fr:seek("set", 1)
-  assert(fr:read("*all") == "")   -- line buffer; no output without `\n'
-  f:write("a\n")
-  fr:seek("set", 1)
-  assert(fr:read("*all") == "xa\n")  -- now we have a whole line
-  f:close(); fr:close()
-end
-
-
--- testing large files (> BUFSIZ)
-io.output(file)
-for i=1,5001 do io.write('0123456789123') end
-io.write('\n12346')
-io.close()
-io.input(file)
-local x = io.read('*a')
-io.input():seek('set', 0)
-local y = io.read(30001)..io.read(1005)..io.read(0)..io.read(1)..io.read(100003)
-assert(x == y and string.len(x) == 5001*13 + 6)
-io.input():seek('set', 0)
-y = io.read()  -- huge line
-assert(x == y..'\n'..io.read())
-assert(io.read() == nil)
-io.close(io.input())
-assert(os.remove(file))
-x = nil; y = nil
-
-x, y = pcall(io.popen, "ls")
-if x then
-  assert(y:read("*a"))
-  assert(y:close())
-else
-  (Message or print)('\a\n >>> popen not available<<<\n\a')
-end
-
-print'+'
-
-local t = os.time()
-T = os.date("*t", t)
-loadstring(os.date([[assert(T.year==%Y and T.month==%m and T.day==%d and
-  T.hour==%H and T.min==%M and T.sec==%S and
-  T.wday==%w+1 and T.yday==%j and type(T.isdst) == 'boolean')]], t))()
-
-assert(os.time(T) == t)
-
-T = os.date("!*t", t)
-loadstring(os.date([[!assert(T.year==%Y and T.month==%m and T.day==%d and
-  T.hour==%H and T.min==%M and T.sec==%S and
-  T.wday==%w+1 and T.yday==%j and type(T.isdst) == 'boolean')]], t))()
-
-do
-  local T = os.date("*t")
-  local t = os.time(T)
-  assert(type(T.isdst) == 'boolean')
-  T.isdst = nil
-  local t1 = os.time(T)
-  assert(t == t1)   -- if isdst is absent uses correct default
-end   
-
-t = os.time(T)
-T.year = T.year-1;
-local t1 = os.time(T)
--- allow for leap years
-assert(math.abs(os.difftime(t,t1)/(24*3600) - 365) < 2)
-
-t = os.time()
-t1 = os.time(os.date("*t"))
-assert(os.difftime(t1,t) <= 2)
-
-local t1 = os.time{year=2000, month=10, day=1, hour=23, min=12, sec=17}
-local t2 = os.time{year=2000, month=10, day=1, hour=23, min=10, sec=19}
-assert(os.difftime(t1,t2) == 60*2-2)
-
-io.output(io.stdout)
-local d = os.date('%d')
-local m = os.date('%m')
-local a = os.date('%Y')
-local ds = os.date('%w') + 1
-local h = os.date('%H')
-local min = os.date('%M')
-local s = os.date('%S')
-io.write(string.format('test done on %2.2d/%2.2d/%d', d, m, a))
-io.write(string.format(', at %2.2d:%2.2d:%2.2d\n', h, min, s))
-io.write(string.format('%s\n', _VERSION))

lib/lua/lua-tests/gc.lua

@@ -1,312 +0,0 @@
-print('testing garbage collection')
-
-collectgarbage()
-
-_G["while"] = 234
-
-limit = 5000
-
-
-
-contCreate = 0
-
-print('tables')
-while contCreate <= limit do
-  local a = {}; a = nil
-  contCreate = contCreate+1
-end
-
-a = "a"
-
-contCreate = 0
-print('strings')
-while contCreate <= limit do
-  a = contCreate .. "b";
-  a = string.gsub(a, '(%d%d*)', string.upper)
-  a = "a"
-  contCreate = contCreate+1
-end
-
-
-contCreate = 0
-
-a = {}
-
-print('functions')
-function a:test ()
-  while contCreate <= limit do
-    loadstring(string.format("function temp(a) return 'a%d' end", contCreate))()
-    assert(temp() == string.format('a%d', contCreate))
-    contCreate = contCreate+1
-  end
-end
-
-a:test()
-
--- collection of functions without locals, globals, etc.
-do local f = function () end end
-
-
-print("functions with errors")
-prog = [[
-do
-  a = 10;
-  function foo(x,y)
-    a = sin(a+0.456-0.23e-12);
-    return function (z) return sin(%x+z) end
-  end
-  local x = function (w) a=a+w; end
-end
-]]
-do
-  local step = 1
-  if rawget(_G, "_soft") then step = 13 end
-  for i=1, string.len(prog), step do
-    for j=i, string.len(prog), step do
-      pcall(loadstring(string.sub(prog, i, j)))
-    end
-  end
-end
-
-print('long strings')
-x = "01234567890123456789012345678901234567890123456789012345678901234567890123456789"
-assert(string.len(x)==80)
-s = ''
-n = 0
-k = 300
-while n < k do s = s..x; n=n+1; j=tostring(n)  end
-assert(string.len(s) == k*80)
-s = string.sub(s, 1, 20000)
-s, i = string.gsub(s, '(%d%d%d%d)', math.sin)
-assert(i==20000/4)
-s = nil
-x = nil
-
-assert(_G["while"] == 234)
-
-
-local bytes = gcinfo()
-while 1 do
-  local nbytes = gcinfo()
-  if nbytes < bytes then break end   -- run until gc
-  bytes = nbytes
-  a = {}
-end
-
-
-local function dosteps (siz)
-  collectgarbage()
-  collectgarbage"stop"
-  local a = {}
-  for i=1,100 do a[i] = {{}}; local b = {} end
-  local x = gcinfo()
-  local i = 0
-  repeat
-    i = i+1
-  until collectgarbage("step", siz)
-  assert(gcinfo() < x)
-  return i
-end
-
-assert(dosteps(0) > 10)
-assert(dosteps(6) < dosteps(2))
-assert(dosteps(10000) == 1)
-assert(collectgarbage("step", 1000000) == true)
-assert(collectgarbage("step", 1000000))
-
-
-do
-  local x = gcinfo()
-  collectgarbage()
-  collectgarbage"stop"
-  repeat
-    local a = {}
-  until gcinfo() > 1000
-  collectgarbage"restart"
-  repeat
-    local a = {}
-  until gcinfo() < 1000
-end
-
-lim = 15
-a = {}
--- fill a with `collectable' indices
-for i=1,lim do a[{}] = i end
-b = {}
-for k,v in pairs(a) do b[k]=v end
--- remove all indices and collect them
-for n in pairs(b) do
-  a[n] = nil
-  assert(type(n) == 'table' and next(n) == nil)
-  collectgarbage()
-end
-b = nil
-collectgarbage()
-for n in pairs(a) do error'cannot be here' end
-for i=1,lim do a[i] = i end
-for i=1,lim do assert(a[i] == i) end
-
-
-print('weak tables')
-a = {}; setmetatable(a, {__mode = 'k'});
--- fill a with some `collectable' indices
-for i=1,lim do a[{}] = i end
--- and some non-collectable ones
-for i=1,lim do local t={}; a[t]=t end
-for i=1,lim do a[i] = i end
-for i=1,lim do local s=string.rep('@', i); a[s] = s..'#' end
-collectgarbage()
-local i = 0
-for k,v in pairs(a) do assert(k==v or k..'#'==v); i=i+1 end
-assert(i == 3*lim)
-
-a = {}; setmetatable(a, {__mode = 'v'});
-a[1] = string.rep('b', 21)
-collectgarbage()
-assert(a[1])   -- strings are *values*
-a[1] = nil
--- fill a with some `collectable' values (in both parts of the table)
-for i=1,lim do a[i] = {} end
-for i=1,lim do a[i..'x'] = {} end
--- and some non-collectable ones
-for i=1,lim do local t={}; a[t]=t end
-for i=1,lim do a[i+lim]=i..'x' end
-collectgarbage()
-local i = 0
-for k,v in pairs(a) do assert(k==v or k-lim..'x' == v); i=i+1 end
-assert(i == 2*lim)
-
-a = {}; setmetatable(a, {__mode = 'vk'});
-local x, y, z = {}, {}, {}
--- keep only some items
-a[1], a[2], a[3] = x, y, z
-a[string.rep('$', 11)] = string.rep('$', 11)
--- fill a with some `collectable' values
-for i=4,lim do a[i] = {} end
-for i=1,lim do a[{}] = i end
-for i=1,lim do local t={}; a[t]=t end
-collectgarbage()
-assert(next(a) ~= nil)
-local i = 0
-for k,v in pairs(a) do
-  assert((k == 1 and v == x) or
-         (k == 2 and v == y) or
-         (k == 3 and v == z) or k==v);
-  i = i+1
-end
-assert(i == 4)
-x,y,z=nil
-collectgarbage()
-assert(next(a) == string.rep('$', 11))
-
-
--- testing userdata
-collectgarbage("stop")   -- stop collection
-local u = newproxy(true)
-local s = 0
-local a = {[u] = 0}; setmetatable(a, {__mode = 'vk'})
-for i=1,10 do a[newproxy(u)] = i end
-for k in pairs(a) do assert(getmetatable(k) == getmetatable(u)) end
-local a1 = {}; for k,v in pairs(a) do a1[k] = v end
-for k,v in pairs(a1) do a[v] = k end
-for i =1,10 do assert(a[i]) end
-getmetatable(u).a = a1
-getmetatable(u).u = u
-do
-  local u = u
-  getmetatable(u).__gc = function (o)
-    assert(a[o] == 10-s)
-    assert(a[10-s] == nil) -- udata already removed from weak table
-    assert(getmetatable(o) == getmetatable(u))
-    assert(getmetatable(o).a[o] == 10-s)
-    s=s+1
-  end
-end
-a1, u = nil
-assert(next(a) ~= nil)
-collectgarbage()
-assert(s==11)
-collectgarbage()
-assert(next(a) == nil)  -- finalized keys are removed in two cycles
-
-
--- __gc x weak tables
-local u = newproxy(true)
-setmetatable(getmetatable(u), {__mode = "v"})
-getmetatable(u).__gc = function (o) os.exit(1) end  -- cannot happen
-collectgarbage()
-
-local u = newproxy(true)
-local m = getmetatable(u)
-m.x = {[{0}] = 1; [0] = {1}}; setmetatable(m.x, {__mode = "kv"});
-m.__gc = function (o)
-  assert(next(getmetatable(o).x) == nil)
-  m = 10
-end
-u, m = nil
-collectgarbage()
-assert(m==10)
-
-
--- errors during collection
-u = newproxy(true)
-getmetatable(u).__gc = function () error "!!!" end
-u = nil
-assert(not pcall(collectgarbage))
-
-
-if not rawget(_G, "_soft") then
-  print("deep structures")
-  local a = {}
-  for i = 1,200000 do
-    a = {next = a}
-  end
-  collectgarbage()
-end
-
--- create many threads with self-references and open upvalues
-local thread_id = 0
-local threads = {}
-
-function fn(thread)
-    local x = {}
-    threads[thread_id] = function()
-                             thread = x
-                         end
-    coroutine.yield()
-end
-
-while thread_id < 1000 do
-    local thread = coroutine.create(fn)
-    coroutine.resume(thread, thread)
-    thread_id = thread_id + 1
-end
-
-
-
--- create a userdata to be collected when state is closed
-do
-  local newproxy,assert,type,print,getmetatable =
-        newproxy,assert,type,print,getmetatable
-  local u = newproxy(true)
-  local tt = getmetatable(u)
-  ___Glob = {u}   -- avoid udata being collected before program end
-  tt.__gc = function (o)
-    assert(getmetatable(o) == tt)
-    -- create new objects during GC
-    local a = 'xuxu'..(10+3)..'joao', {}
-    ___Glob = o  -- ressurect object!
-    newproxy(o)  -- creates a new one with same metatable
-    print(">>> closing state " .. "<<<\n")
-  end
-end
-
--- create several udata to raise errors when collected while closing state
-do
-  local u = newproxy(true)
-  getmetatable(u).__gc = function (o) return o + 1 end
-  table.insert(___Glob, u)  -- preserve udata until the end
-  for i = 1,10 do table.insert(___Glob, newproxy(u)) end
-end
-
-print('OK')

lib/lua/lua-tests/literals.lua

@@ -1,176 +0,0 @@
-print('testing scanner')
-
-local function dostring (x) return assert(loadstring(x))() end
-
-dostring("x = 'a\0a'")
-assert(x == 'a\0a' and string.len(x) == 3)
-
--- escape sequences
-assert('\n\"\'\\' == [[
-
-"'\]])
-
-assert(string.find("\a\b\f\n\r\t\v", "^%c%c%c%c%c%c%c$"))
-
--- assume ASCII just for tests:
-assert("\09912" == 'c12')
-assert("\99ab" == 'cab')
-assert("\099" == '\99')
-assert("\099\n" == 'c\10')
-assert('\0\0\0alo' == '\0' .. '\0\0' .. 'alo')
-
-assert(010 .. 020 .. -030 == "1020-30")
-
--- long variable names
-
-var = string.rep('a', 15000)
-prog = string.format("%s = 5", var)
-dostring(prog)
-assert(_G[var] == 5)
-var = nil
-print('+')
-
--- escapes --
-assert("\n\t" == [[
-
-	]])
-assert([[
-
- $debug]] == "\n $debug")
-assert([[ [ ]] ~= [[ ] ]])
--- long strings --
-b = "001234567890123456789012345678901234567891234567890123456789012345678901234567890012345678901234567890123456789012345678912345678901234567890123456789012345678900123456789012345678901234567890123456789123456789012345678901234567890123456789001234567890123456789012345678901234567891234567890123456789012345678901234567890012345678901234567890123456789012345678912345678901234567890123456789012345678900123456789012345678901234567890123456789123456789012345678901234567890123456789001234567890123456789012345678901234567891234567890123456789012345678901234567890012345678901234567890123456789012345678912345678901234567890123456789012345678900123456789012345678901234567890123456789123456789012345678901234567890123456789001234567890123456789012345678901234567891234567890123456789012345678901234567890012345678901234567890123456789012345678912345678901234567890123456789012345678900123456789012345678901234567890123456789123456789012345678901234567890123456789"
-assert(string.len(b) == 960)
-prog = [=[
-print('+')
-
-a1 = [["isto e' um string com várias 'aspas'"]]
-a2 = "'aspas'"
-
-assert(string.find(a1, a2) == 31)
-print('+')
-
-a1 = [==[temp = [[um valor qualquer]]; ]==]
-assert(loadstring(a1))()
-assert(temp == 'um valor qualquer')
--- long strings --
-b = "001234567890123456789012345678901234567891234567890123456789012345678901234567890012345678901234567890123456789012345678912345678901234567890123456789012345678900123456789012345678901234567890123456789123456789012345678901234567890123456789001234567890123456789012345678901234567891234567890123456789012345678901234567890012345678901234567890123456789012345678912345678901234567890123456789012345678900123456789012345678901234567890123456789123456789012345678901234567890123456789001234567890123456789012345678901234567891234567890123456789012345678901234567890012345678901234567890123456789012345678912345678901234567890123456789012345678900123456789012345678901234567890123456789123456789012345678901234567890123456789001234567890123456789012345678901234567891234567890123456789012345678901234567890012345678901234567890123456789012345678912345678901234567890123456789012345678900123456789012345678901234567890123456789123456789012345678901234567890123456789"
-assert(string.len(b) == 960)
-print('+')
-
-a = [[00123456789012345678901234567890123456789123456789012345678901234567890123456789
-00123456789012345678901234567890123456789123456789012345678901234567890123456789
-00123456789012345678901234567890123456789123456789012345678901234567890123456789
-00123456789012345678901234567890123456789123456789012345678901234567890123456789
-00123456789012345678901234567890123456789123456789012345678901234567890123456789
-00123456789012345678901234567890123456789123456789012345678901234567890123456789
-00123456789012345678901234567890123456789123456789012345678901234567890123456789
-00123456789012345678901234567890123456789123456789012345678901234567890123456789
-00123456789012345678901234567890123456789123456789012345678901234567890123456789
-00123456789012345678901234567890123456789123456789012345678901234567890123456789
-00123456789012345678901234567890123456789123456789012345678901234567890123456789
-00123456789012345678901234567890123456789123456789012345678901234567890123456789
-00123456789012345678901234567890123456789123456789012345678901234567890123456789
-00123456789012345678901234567890123456789123456789012345678901234567890123456789
-00123456789012345678901234567890123456789123456789012345678901234567890123456789
-00123456789012345678901234567890123456789123456789012345678901234567890123456789
-00123456789012345678901234567890123456789123456789012345678901234567890123456789
-00123456789012345678901234567890123456789123456789012345678901234567890123456789
-00123456789012345678901234567890123456789123456789012345678901234567890123456789
-00123456789012345678901234567890123456789123456789012345678901234567890123456789
-00123456789012345678901234567890123456789123456789012345678901234567890123456789
-00123456789012345678901234567890123456789123456789012345678901234567890123456789
-00123456789012345678901234567890123456789123456789012345678901234567890123456789
-]]
-assert(string.len(a) == 1863)
-assert(string.sub(a, 1, 40) == string.sub(b, 1, 40))
-x = 1
-]=]
-
-print('+')
-x = nil
-dostring(prog)
-assert(x)
-
-prog = nil
-a = nil
-b = nil
-
-
--- testing line ends
-prog = [[
-a = 1        -- a comment
-b = 2
-
-
-x = [=[
-hi
-]=]
-y = "\
-hello\r\n\
-"
-return debug.getinfo(1).currentline
-]]
-
-for _, n in pairs{"\n", "\r", "\n\r", "\r\n"} do
-  local prog, nn = string.gsub(prog, "\n", n)
-  assert(dostring(prog) == nn)
-  assert(_G.x == "hi\n" and _G.y == "\nhello\r\n\n")
-end
-
-
--- testing comments and strings with long brackets
-a = [==[]=]==]
-assert(a == "]=")
-
-a = [==[[===[[=[]]=][====[]]===]===]==]
-assert(a == "[===[[=[]]=][====[]]===]===")
-
-a = [====[[===[[=[]]=][====[]]===]===]====]
-assert(a == "[===[[=[]]=][====[]]===]===")
-
-a = [=[]]]]]]]]]=]
-assert(a == "]]]]]]]]")
-
-
---[===[
-x y z [==[ blu foo
-]==
-]
-]=]==]
-error error]=]===]
-
--- generate all strings of four of these chars
-local x = {"=", "[", "]", "\n"}
-local len = 4
-local function gen (c, n)
-  if n==0 then coroutine.yield(c)
-  else
-    for _, a in pairs(x) do
-      gen(c..a, n-1)
-    end
-  end
-end
-
-for s in coroutine.wrap(function () gen("", len) end) do
-  assert(s == loadstring("return [====[\n"..s.."]====]")())
-end
-
-
--- testing decimal point locale
-if os.setlocale("pt_BR") or os.setlocale("ptb") then
-  assert(tonumber("3,4") == 3.4 and tonumber"3.4" == nil)
-  assert(assert(loadstring("return 3.4"))() == 3.4)
-  assert(assert(loadstring("return .4,3"))() == .4)
-  assert(assert(loadstring("return 4."))() == 4.)
-  assert(assert(loadstring("return 4.+.5"))() == 4.5)
-  local a,b = loadstring("return 4.5.")
-  assert(string.find(b, "'4%.5%.'"))
-  assert(os.setlocale("C"))
-else
-  (Message or print)(
-   '\a\n >>> pt_BR locale not available: skipping decimal point tests <<<\n\a')
-end
-
-
-print('OK')

lib/lua/lua-tests/locals.lua

@@ -1,127 +0,0 @@
-print('testing local variables plus some extra stuff')
-
-do
-  local i = 10
-  do local i = 100; assert(i==100) end
-  do local i = 1000; assert(i==1000) end
-  assert(i == 10)
-  if i ~= 10 then
-    local i = 20
-  else
-    local i = 30
-    assert(i == 30)
-  end
-end
-
-
-
-f = nil
-
-local f
-x = 1
-
-a = nil
-loadstring('local a = {}')()
-assert(type(a) ~= 'table')
-
-function f (a)
-  local _1, _2, _3, _4, _5
-  local _6, _7, _8, _9, _10
-  local x = 3
-  local b = a
-  local c,d = a,b
-  if (d == b) then
-    local x = 'q'
-    x = b
-    assert(x == 2)
-  else
-    assert(nil)
-  end
-  assert(x == 3)
-  local f = 10
-end
-
-local b=10
-local a; repeat local b; a,b=1,2; assert(a+1==b); until a+b==3
-
-
-assert(x == 1)
-
-f(2)
-assert(type(f) == 'function')
-
-
--- testing globals ;-)
-do
-  local f = {}
-  local _G = _G
-  for i=1,10 do f[i] = function (x) A=A+1; return A, _G.getfenv(x) end end
-  A=10; assert(f[1]() == 11)
-  for i=1,10 do assert(setfenv(f[i], {A=i}) == f[i]) end
-  assert(f[3]() == 4 and A == 11)
-  local a,b = f[8](1)
-  assert(b.A == 9)
-  a,b = f[8](0)
-  assert(b.A == 11)   -- `real' global
-  local g
-  local function f () assert(setfenv(2, {a='10'}) == g) end
-  g = function () f(); _G.assert(_G.getfenv(1).a == '10') end
-  g(); assert(getfenv(g).a == '10')
-end
-
--- test for global table of loaded chunks
-local function foo (s)
-  return loadstring(s)
-end
-
-assert(getfenv(foo("")) == _G)
-local a = {loadstring = loadstring} 
-setfenv(foo, a)
-assert(getfenv(foo("")) == _G)
-setfenv(0, a)  -- change global environment
-assert(getfenv(foo("")) == a)
-setfenv(0, _G)
-
-
--- testing limits for special instructions
-
-local a
-local p = 4
-for i=2,31 do
-  for j=-3,3 do
-    assert(loadstring(string.format([[local a=%s;a=a+
-                                            %s;
-                                      assert(a
-                                      ==2^%s)]], j, p-j, i))) ()
-    assert(loadstring(string.format([[local a=%s;
-                                      a=a-%s;
-                                      assert(a==-2^%s)]], -j, p-j, i))) ()
-    assert(loadstring(string.format([[local a,b=0,%s;
-                                      a=b-%s;
-                                      assert(a==-2^%s)]], -j, p-j, i))) ()
-  end
-  p =2*p
-end
-
-print'+'
-
-
-if rawget(_G, "querytab") then
-  -- testing clearing of dead elements from tables
-  collectgarbage("stop")   -- stop GC
-  local a = {[{}] = 4, [3] = 0, alo = 1, 
-             a1234567890123456789012345678901234567890 = 10}
-
-  local t = querytab(a)
-
-  for k,_ in pairs(a) do a[k] = nil end
-  collectgarbage()   -- restore GC and collect dead fiels in `a'
-  for i=0,t-1 do
-    local k = querytab(a, i)
-    assert(k == nil or type(k) == 'number' or k == 'alo')
-  end
-end
-
-print('OK')
-
-return 5,f

lib/lua/lua-tests/main.lua

@@ -1,159 +0,0 @@
-# testing special comment on first line
-
-print ("testing lua.c options")
-
-assert(os.execute() ~= 0)   -- machine has a system command
-
-prog = os.tmpname()
-otherprog = os.tmpname()
-out = os.tmpname()
-
-do
-  local i = 0
-  while arg[i] do i=i-1 end
-  progname = '"'..arg[i+1]..'"'
-end
-print(progname)
-
-local prepfile = function (s, p)
-  p = p or prog
-  io.output(p)
-  io.write(s)
-  assert(io.close())
-end
-
-function checkout (s)
-  io.input(out)
-  local t = io.read("*a")
-  io.input():close()
-  assert(os.remove(out))
-  if s ~= t then print(string.format("'%s' - '%s'\n", s, t)) end
-  assert(s == t)
-  return t
-end
-
-function auxrun (...)
-  local s = string.format(...)
-  s = string.gsub(s, "lua", progname, 1)
-  return os.execute(s)
-end
-
-function RUN (...)
-  assert(auxrun(...) == 0)
-end
-
-function NoRun (...)
-  print("\n(the next error is expected by the test)")
-  assert(auxrun(...) ~= 0)
-end
-
--- test 2 files
-prepfile("print(1); a=2")
-prepfile("print(a)", otherprog)
-RUN("lua -l %s -l%s -lstring -l io %s > %s", prog, otherprog, otherprog, out)
-checkout("1\n2\n2\n")
-
-local a = [[
-  assert(table.getn(arg) == 3 and arg[1] == 'a' and
-         arg[2] == 'b' and arg[3] == 'c')
-  assert(arg[-1] == '--' and arg[-2] == "-e " and arg[-3] == %s)
-  assert(arg[4] == nil and arg[-4] == nil)
-  local a, b, c = ...
-  assert(... == 'a' and a == 'a' and b == 'b' and c == 'c')
-]]
-a = string.format(a, progname)
-prepfile(a)
-RUN('lua "-e " -- %s a b c', prog)
-
-prepfile"assert(arg==nil)"
-prepfile("assert(arg)", otherprog)
-RUN("lua -l%s - < %s", prog, otherprog)
-
-prepfile""
-RUN("lua - < %s > %s", prog, out)
-checkout("")
-
--- test many arguments
-prepfile[[print(({...})[30])]]
-RUN("lua %s %s > %s", prog, string.rep(" a", 30), out)
-checkout("a\n")
-
-RUN([[lua "-eprint(1)" -ea=3 -e "print(a)" > %s]], out)
-checkout("1\n3\n")
-
-prepfile[[
-  print(
-1, a
-)
-]]
-RUN("lua - < %s > %s", prog, out)
-checkout("1\tnil\n")
-
-prepfile[[
-= (6*2-6) -- ===
-a 
-= 10
-print(a)
-= a]]
-RUN([[lua -e"_PROMPT='' _PROMPT2=''" -i < %s > %s]], prog, out)
-checkout("6\n10\n10\n\n")
-
-prepfile("a = [[b\nc\nd\ne]]\n=a")
-print(prog)
-RUN([[lua -e"_PROMPT='' _PROMPT2=''" -i < %s > %s]], prog, out)
-checkout("b\nc\nd\ne\n\n")
-
-prompt = "alo"
-prepfile[[ --
-a = 2
-]]
-RUN([[lua "-e_PROMPT='%s'" -i < %s > %s]], prompt, prog, out)
-checkout(string.rep(prompt, 3).."\n")
-
-s = [=[ -- 
-function f ( x ) 
-  local a = [[
-xuxu
-]]
-  local b = "\
-xuxu\n"
-  if x == 11 then return 1 , 2 end  --[[ test multiple returns ]]
-  return x + 1 
-  --\\
-end
-=( f( 10 ) )
-assert( a == b )
-=f( 11 )  ]=]
-s = string.gsub(s, ' ', '\n\n')
-prepfile(s)
-RUN([[lua -e"_PROMPT='' _PROMPT2=''" -i < %s > %s]], prog, out)
-checkout("11\n1\t2\n\n")
-  
-prepfile[[#comment in 1st line without \n at the end]]
-RUN("lua %s", prog)
-
-prepfile("#comment with a binary file\n"..string.dump(loadstring("print(1)")))
-RUN("lua %s > %s", prog, out)
-checkout("1\n")
-
-prepfile("#comment with a binary file\r\n"..string.dump(loadstring("print(1)")))
-RUN("lua %s > %s", prog, out)
-checkout("1\n")
-
--- close Lua with an open file
-prepfile(string.format([[io.output(%q); io.write('alo')]], out))
-RUN("lua %s", prog)
-checkout('alo')
-
-assert(os.remove(prog))
-assert(os.remove(otherprog))
-assert(not os.remove(out))
-
-RUN("lua -v")
-
-NoRun("lua -h")
-NoRun("lua -e")
-NoRun("lua -e a")
-NoRun("lua -f")
-
-print("OK")

lib/lua/lua-tests/math.lua

@@ -1,208 +0,0 @@
-print("testing numbers and math lib")
-
-do
-  local a,b,c = "2", " 3e0 ", " 10  "
-  assert(a+b == 5 and -b == -3 and b+"2" == 5 and "10"-c == 0)
-  assert(type(a) == 'string' and type(b) == 'string' and type(c) == 'string')
-  assert(a == "2" and b == " 3e0 " and c == " 10  " and -c == -"  10 ")
-  assert(c%a == 0 and a^b == 8)
-end
-
-
-do
-  local a,b = math.modf(3.5)
-  assert(a == 3 and b == 0.5)
-  assert(math.huge > 10e30)
-  assert(-math.huge < -10e30)
-end
-
-function f(...)
-  if select('#', ...) == 1 then
-    return (...)
-  else
-    return "***"
-  end
-end
-
-assert(tonumber{} == nil)
-assert(tonumber'+0.01' == 1/100 and tonumber'+.01' == 0.01 and
-       tonumber'.01' == 0.01    and tonumber'-1.' == -1 and
-       tonumber'+1.' == 1)
-assert(tonumber'+ 0.01' == nil and tonumber'+.e1' == nil and
-       tonumber'1e' == nil     and tonumber'1.0e+' == nil and
-       tonumber'.' == nil)
-assert(tonumber('-12') == -10-2)
-assert(tonumber('-1.2e2') == - - -120)
-assert(f(tonumber('1  a')) == nil)
-assert(f(tonumber('e1')) == nil)
-assert(f(tonumber('e  1')) == nil)
-assert(f(tonumber(' 3.4.5 ')) == nil)
-assert(f(tonumber('')) == nil)
-assert(f(tonumber('', 8)) == nil)
-assert(f(tonumber('  ')) == nil)
-assert(f(tonumber('  ', 9)) == nil)
-assert(f(tonumber('99', 8)) == nil)
-assert(tonumber('  1010  ', 2) == 10)
-assert(tonumber('10', 36) == 36)
---assert(tonumber('\n  -10  \n', 36) == -36)
---assert(tonumber('-fFfa', 16) == -(10+(16*(15+(16*(15+(16*15)))))))
-assert(tonumber('fFfa', 15) == nil)
---assert(tonumber(string.rep('1', 42), 2) + 1 == 2^42)
-assert(tonumber(string.rep('1', 32), 2) + 1 == 2^32)
---assert(tonumber('-fffffFFFFF', 16)-1 == -2^40)
-assert(tonumber('ffffFFFF', 16)+1 == 2^32)
-
-assert(1.1 == 1.+.1)
-assert(100.0 == 1E2 and .01 == 1e-2)
-assert(1111111111111111-1111111111111110== 1000.00e-03)
---     1234567890123456
-assert(1.1 == '1.'+'.1')
-assert('1111111111111111'-'1111111111111110' == tonumber"  +0.001e+3 \n\t")
-
-function eq (a,b,limit)
-  if not limit then limit = 10E-10 end
-  return math.abs(a-b) <= limit
-end
-
-assert(0.1e-30 > 0.9E-31 and 0.9E30 < 0.1e31)
-
-assert(0.123456 > 0.123455)
-
-assert(tonumber('+1.23E30') == 1.23*10^30)
-
--- testing order operators
-assert(not(1<1) and (1<2) and not(2<1))
-assert(not('a'<'a') and ('a'<'b') and not('b'<'a'))
-assert((1<=1) and (1<=2) and not(2<=1))
-assert(('a'<='a') and ('a'<='b') and not('b'<='a'))
-assert(not(1>1) and not(1>2) and (2>1))
-assert(not('a'>'a') and not('a'>'b') and ('b'>'a'))
-assert((1>=1) and not(1>=2) and (2>=1))
-assert(('a'>='a') and not('a'>='b') and ('b'>='a'))
-
--- testing mod operator
-assert(-4%3 == 2)
-assert(4%-3 == -2)
-assert(math.pi - math.pi % 1 == 3)
-assert(math.pi - math.pi % 0.001 == 3.141)
-
-local function testbit(a, n)
-  return a/2^n % 2 >= 1
-end
-
-assert(eq(math.sin(-9.8)^2 + math.cos(-9.8)^2, 1))
-assert(eq(math.tan(math.pi/4), 1))
-assert(eq(math.sin(math.pi/2), 1) and eq(math.cos(math.pi/2), 0))
-assert(eq(math.atan(1), math.pi/4) and eq(math.acos(0), math.pi/2) and
-       eq(math.asin(1), math.pi/2))
-assert(eq(math.deg(math.pi/2), 90) and eq(math.rad(90), math.pi/2))
-assert(math.abs(-10) == 10)
-assert(eq(math.atan2(1,0), math.pi/2))
-assert(math.ceil(4.5) == 5.0)
-assert(math.floor(4.5) == 4.0)
-assert(math.mod(10,3) == 1)
-assert(eq(math.sqrt(10)^2, 10))
-assert(eq(math.log10(2), math.log(2)/math.log(10)))
-assert(eq(math.exp(0), 1))
-assert(eq(math.sin(10), math.sin(10%(2*math.pi))))
-local v,e = math.frexp(math.pi)
-assert(eq(math.ldexp(v,e), math.pi))
-
-assert(eq(math.tanh(3.5), math.sinh(3.5)/math.cosh(3.5)))
-
-assert(tonumber(' 1.3e-2 ') == 1.3e-2)
-assert(tonumber(' -1.00000000000001 ') == -1.00000000000001)
-
--- testing constant limits
--- 2^23 = 8388608
-assert(8388609 + -8388609 == 0)
-assert(8388608 + -8388608 == 0)
-assert(8388607 + -8388607 == 0)
-
-if rawget(_G, "_soft") then return end
-
-f = io.tmpfile()
-assert(f)
-f:write("a = {")
-i = 1
-repeat
-  f:write("{", math.sin(i), ", ", math.cos(i), ", ", i/3, "},\n")
-  i=i+1
-until i > 1000
-f:write("}")
-f:seek("set", 0)
-assert(loadstring(f:read('*a')))()
-assert(f:close())
-
-assert(eq(a[300][1], math.sin(300)))
-assert(eq(a[600][1], math.sin(600)))
-assert(eq(a[500][2], math.cos(500)))
-assert(eq(a[800][2], math.cos(800)))
-assert(eq(a[200][3], 200/3))
-assert(eq(a[1000][3], 1000/3, 0.001))
-print('+')
-
-do   -- testing NaN
-  local NaN = 10e500 - 10e400
-  assert(NaN ~= NaN)
-  assert(not (NaN < NaN))
-  assert(not (NaN <= NaN))
-  assert(not (NaN > NaN))
-  assert(not (NaN >= NaN))
-  assert(not (0 < NaN))
-  assert(not (NaN < 0))
-  local a = {}
-  assert(not pcall(function () a[NaN] = 1 end))
-  assert(a[NaN] == nil)
-  a[1] = 1
-  assert(not pcall(function () a[NaN] = 1 end))
-  assert(a[NaN] == nil)
-end
-
-require "checktable"
-stat(a)
-
-a = nil
-
--- testing implicit convertions
-
-local a,b = '10', '20'
-assert(a*b == 200 and a+b == 30 and a-b == -10 and a/b == 0.5 and -b == -20)
-assert(a == '10' and b == '20')
-
-
-math.randomseed(0)
-
-local i = 0
-local Max = 0
-local Min = 2
-repeat
-  local t = math.random()
-  Max = math.max(Max, t)
-  Min = math.min(Min, t)
-  i=i+1
-  flag = eq(Max, 1, 0.001) and eq(Min, 0, 0.001)
-until flag or i>10000
-assert(0 <= Min and Max<1)
-assert(flag);
-
-for i=1,10 do
-  local t = math.random(5)
-  assert(1 <= t and t <= 5)
-end
-
-i = 0
-Max = -200
-Min = 200
-repeat
-  local t = math.random(-10,0)
-  Max = math.max(Max, t)
-  Min = math.min(Min, t)
-  i=i+1
-  flag = (Max == 0 and Min == -10)
-until flag or i>10000
-assert(-10 <= Min and Max<=0)
-assert(flag);
-
-
-print('OK')

lib/lua/lua-tests/nextvar.lua

@@ -1,396 +0,0 @@
-print('testing tables, next, and for')
-
-local a = {}
-
--- make sure table has lots of space in hash part
-for i=1,100 do a[i.."+"] = true end
-for i=1,100 do a[i.."+"] = nil end
--- fill hash part with numeric indices testing size operator
-for i=1,100 do
-  a[i] = true
-  assert(#a == i)
-end
-
-
-if T then
--- testing table sizes
-
-local l2 = math.log(2)
-local function log2 (x) return math.log(x)/l2 end
-
-local function mp2 (n)   -- minimum power of 2 >= n
-  local mp = 2^math.ceil(log2(n))
-  assert(n == 0 or (mp/2 < n and n <= mp))
-  return mp
-end
-
-local function fb (n)
-  local r, nn = T.int2fb(n)
-  assert(r < 256)
-  return nn
-end
-
--- test fb function
-local a = 1
-local lim = 2^30
-while a < lim do
-  local n = fb(a)
-  assert(a <= n and n <= a*1.125)
-  a = math.ceil(a*1.3)
-end
-
- 
-local function check (t, na, nh)
-  local a, h = T.querytab(t)
-  if a ~= na or h ~= nh then
-    print(na, nh, a, h)
-    assert(nil)
-  end
-end
-
--- testing constructor sizes
-local lim = 40
-local s = 'return {'
-for i=1,lim do
-  s = s..i..','
-  local s = s
-  for k=0,lim do 
-    local t = loadstring(s..'}')()
-    assert(#t == i)
-    check(t, fb(i), mp2(k))
-    s = string.format('%sa%d=%d,', s, k, k)
-  end
-end
-
-
--- tests with unknown number of elements
-local a = {}
-for i=1,lim do a[i] = i end   -- build auxiliary table
-for k=0,lim do
-  local a = {unpack(a,1,k)}
-  assert(#a == k)
-  check(a, k, 0)
-  a = {1,2,3,unpack(a,1,k)}
-  check(a, k+3, 0)
-  assert(#a == k + 3)
-end
-
-
-print'+'
-
--- testing tables dynamically built
-local lim = 130
-local a = {}; a[2] = 1; check(a, 0, 1)
-a = {}; a[0] = 1; check(a, 0, 1); a[2] = 1; check(a, 0, 2)
-a = {}; a[0] = 1; a[1] = 1; check(a, 1, 1)
-a = {}
-for i = 1,lim do
-  a[i] = 1
-  assert(#a == i)
-  check(a, mp2(i), 0)
-end
-
-a = {}
-for i = 1,lim do
-  a['a'..i] = 1
-  assert(#a == 0)
-  check(a, 0, mp2(i))
-end
-
-a = {}
-for i=1,16 do a[i] = i end
-check(a, 16, 0)
-for i=1,11 do a[i] = nil end
-for i=30,40 do a[i] = nil end   -- force a rehash (?)
-check(a, 0, 8)
-a[10] = 1
-for i=30,40 do a[i] = nil end   -- force a rehash (?)
-check(a, 0, 8)
-for i=1,14 do a[i] = nil end
-for i=30,50 do a[i] = nil end   -- force a rehash (?)
-check(a, 0, 4)
-
--- reverse filling
-for i=1,lim do
-  local a = {}
-  for i=i,1,-1 do a[i] = i end   -- fill in reverse
-  check(a, mp2(i), 0)
-end
-
--- size tests for vararg
-lim = 35
-function foo (n, ...)
-  local arg = {...}
-  check(arg, n, 0)
-  assert(select('#', ...) == n)
-  arg[n+1] = true
-  check(arg, mp2(n+1), 0)
-  arg.x = true
-  check(arg, mp2(n+1), 1)
-end
-local a = {}
-for i=1,lim do a[i] = true; foo(i, unpack(a)) end
-
-end
-
-
--- test size operation on empty tables
-assert(#{} == 0)
-assert(#{nil} == 0)
-assert(#{nil, nil} == 0)
-assert(#{nil, nil, nil} == 0)
-assert(#{nil, nil, nil, nil} == 0)
-print'+'
-
-
-local nofind = {}
-
-a,b,c = 1,2,3
-a,b,c = nil
-
-local function find (name)
-  local n,v
-  while 1 do
-    n,v = next(_G, n)
-    if not n then return nofind end
-    assert(v ~= nil)
-    if n == name then return v end
-  end
-end
-
-local function find1 (name)
-  for n,v in pairs(_G) do
-    if n==name then return v end
-  end
-  return nil  -- not found
-end
-
-do   -- create 10000 new global variables
-  for i=1,10000 do _G[i] = i end
-end
-
-
-a = {x=90, y=8, z=23}
-assert(table.foreach(a, function(i,v) if i=='x' then return v end end) == 90)
-assert(table.foreach(a, function(i,v) if i=='a' then return v end end) == nil)
-table.foreach({}, error)
-
-table.foreachi({x=10, y=20}, error)
-local a = {n = 1}
-table.foreachi({n=3}, function (i, v)
-  assert(a.n == i and not v)
-  a.n=a.n+1
-end)
-a = {10,20,30,nil,50}
-table.foreachi(a, function (i,v) assert(a[i] == v) end)
-assert(table.foreachi({'a', 'b', 'c'}, function (i,v)
-         if i==2 then return v end
-       end) == 'b')
-
-
-assert(print==find("print") and print == find1("print"))
-assert(_G["print"]==find("print"))
-assert(assert==find1("assert"))
-assert(nofind==find("return"))
-assert(not find1("return"))
-_G["ret" .. "urn"] = nil
-assert(nofind==find("return"))
-_G["xxx"] = 1
-assert(xxx==find("xxx"))
-print('+')
-
-a = {}
-for i=0,10000 do
-  if math.mod(i,10) ~= 0 then
-    a['x'..i] = i
-  end
-end
-
-n = {n=0}
-for i,v in pairs(a) do
-  n.n = n.n+1
-  assert(i and v and a[i] == v)
-end
-assert(n.n == 9000)
-a = nil
-
--- remove those 10000 new global variables
-for i=1,10000 do _G[i] = nil end
-
-do   -- clear global table
-  local a = {}
-  local preserve = {io = 1, string = 1, debug = 1, os = 1,
-                    coroutine = 1, table = 1, math = 1}
-  for n,v in pairs(_G) do a[n]=v end
-  for n,v in pairs(a) do
-    if not preserve[n] and type(v) ~= "function" and
-       not string.find(n, "^[%u_]") then
-     _G[n] = nil
-    end
-    collectgarbage()
-  end
-end
-
-local function foo ()
-  local getfenv, setfenv, assert, next =
-        getfenv, setfenv, assert, next
-  local n = {gl1=3}
-  setfenv(foo, n)
-  assert(getfenv(foo) == getfenv(1))
-  assert(getfenv(foo) == n)
-  assert(print == nil and gl1 == 3)
-  gl1 = nil
-  gl = 1
-  assert(n.gl == 1 and next(n, 'gl') == nil)
-end
-foo()
-
-print'+'
-
-local function checknext (a)
-  local b = {}
-  table.foreach(a, function (k,v) b[k] = v end)
-  for k,v in pairs(b) do assert(a[k] == v) end
-  for k,v in pairs(a) do assert(b[k] == v) end
-  b = {}
-  do local k,v = next(a); while k do b[k] = v; k,v = next(a,k) end end
-  for k,v in pairs(b) do assert(a[k] == v) end
-  for k,v in pairs(a) do assert(b[k] == v) end
-end
-
-checknext{1,x=1,y=2,z=3}
-checknext{1,2,x=1,y=2,z=3}
-checknext{1,2,3,x=1,y=2,z=3}
-checknext{1,2,3,4,x=1,y=2,z=3}
-checknext{1,2,3,4,5,x=1,y=2,z=3}
-
-assert(table.getn{} == 0)
-assert(table.getn{[-1] = 2} == 0)
-assert(table.getn{1,2,3,nil,nil} == 3)
-for i=0,40 do
-  local a = {}
-  for j=1,i do a[j]=j end
-  assert(table.getn(a) == i)
-end
-
-
-assert(table.maxn{} == 0)
-assert(table.maxn{["1000"] = true} == 0)
-assert(table.maxn{["1000"] = true, [24.5] = 3} == 24.5)
-assert(table.maxn{[1000] = true} == 1000)
-assert(table.maxn{[10] = true, [100*math.pi] = print} == 100*math.pi)
-
-
--- int overflow
-a = {}
-for i=0,50 do a[math.pow(2,i)] = true end
-assert(a[table.getn(a)])
-
-print("+")
-
-
--- erasing values
-local t = {[{1}] = 1, [{2}] = 2, [string.rep("x ", 4)] = 3,
-           [100.3] = 4, [4] = 5}
-
-local n = 0
-for k, v in pairs( t ) do
-  n = n+1
-  assert(t[k] == v)
-  t[k] = nil
-  collectgarbage()
-  assert(t[k] == nil)
-end
-assert(n == 5)
-
-
-local function test (a)
-  table.insert(a, 10); table.insert(a, 2, 20);
-  table.insert(a, 1, -1); table.insert(a, 40);
-  table.insert(a, table.getn(a)+1, 50)
-  table.insert(a, 2, -2)
-  assert(table.remove(a,1) == -1)
-  assert(table.remove(a,1) == -2)
-  assert(table.remove(a,1) == 10)
-  assert(table.remove(a,1) == 20)
-  assert(table.remove(a,1) == 40)
-  assert(table.remove(a,1) == 50)
-  assert(table.remove(a,1) == nil)
-end
-
-a = {n=0, [-7] = "ban"}
-test(a)
-assert(a.n == 0 and a[-7] == "ban")
-
-a = {[-7] = "ban"};
-test(a)
-assert(a.n == nil and table.getn(a) == 0 and a[-7] == "ban")
-
-
-table.insert(a, 1, 10); table.insert(a, 1, 20); table.insert(a, 1, -1)
-assert(table.remove(a) == 10)
-assert(table.remove(a) == 20)
-assert(table.remove(a) == -1)
-
-a = {'c', 'd'}
-table.insert(a, 3, 'a')
-table.insert(a, 'b')
-assert(table.remove(a, 1) == 'c')
-assert(table.remove(a, 1) == 'd')
-assert(table.remove(a, 1) == 'a')
-assert(table.remove(a, 1) == 'b')
-assert(table.getn(a) == 0 and a.n == nil)
-print("+")
-
-a = {}
-for i=1,1000 do
-  a[i] = i; a[i-1] = nil
-end
-assert(next(a,nil) == 1000 and next(a,1000) == nil)
-
-assert(next({}) == nil)
-assert(next({}, nil) == nil)
-
-for a,b in pairs{} do error"not here" end
-for i=1,0 do error'not here' end
-for i=0,1,-1 do error'not here' end
-a = nil; for i=1,1 do assert(not a); a=1 end; assert(a)
-a = nil; for i=1,1,-1 do assert(not a); a=1 end; assert(a)
-
-a = 0; for i=0, 1, 0.1 do a=a+1 end; assert(a==11)
--- precision problems
---a = 0; for i=1, 0, -0.01 do a=a+1 end; assert(a==101)
-a = 0; for i=0, 0.999999999, 0.1 do a=a+1 end; assert(a==10)
-a = 0; for i=1, 1, 1 do a=a+1 end; assert(a==1)
-a = 0; for i=1e10, 1e10, -1 do a=a+1 end; assert(a==1)
-a = 0; for i=1, 0.99999, 1 do a=a+1 end; assert(a==0)
-a = 0; for i=99999, 1e5, -1 do a=a+1 end; assert(a==0)
-a = 0; for i=1, 0.99999, -1 do a=a+1 end; assert(a==1)
-
--- conversion
-a = 0; for i="10","1","-2" do a=a+1 end; assert(a==5)
-
-
-collectgarbage()
-
-
--- testing generic 'for'
-
-local function f (n, p)
-  local t = {}; for i=1,p do t[i] = i*10 end
-  return function (_,n)
-           if n > 0 then
-             n = n-1
-             return n, unpack(t)
-           end
-         end, nil, n
-end
-
-local x = 0
-for n,a,b,c,d in f(5,3) do
-  x = x+1
-  assert(a == 10 and b == 20 and c == 30 and d == nil)
-end
-assert(x == 5)
-
-print"OK"

lib/lua/lua-tests/pm.lua

@@ -1,273 +0,0 @@
-print('testing pattern matching')
-
-function f(s, p)
-  local i,e = string.find(s, p)
-  if i then return string.sub(s, i, e) end
-end
-
-function f1(s, p)
-  p = string.gsub(p, "%%([0-9])", function (s) return "%" .. (s+1) end)
-  p = string.gsub(p, "^(^?)", "%1()", 1)
-  p = string.gsub(p, "($?)$", "()%1", 1)
-  local t = {string.match(s, p)}
-  return string.sub(s, t[1], t[#t] - 1)
-end
-
-a,b = string.find('', '')    -- empty patterns are tricky
-assert(a == 1 and b == 0);
-a,b = string.find('alo', '')
-assert(a == 1 and b == 0)
-a,b = string.find('a\0o a\0o a\0o', 'a', 1)   -- first position
-assert(a == 1 and b == 1)
-a,b = string.find('a\0o a\0o a\0o', 'a\0o', 2)   -- starts in the midle
-assert(a == 5 and b == 7)
-a,b = string.find('a\0o a\0o a\0o', 'a\0o', 9)   -- starts in the midle
-assert(a == 9 and b == 11)
-a,b = string.find('a\0a\0a\0a\0\0ab', '\0ab', 2);  -- finds at the end
-assert(a == 9 and b == 11);
-a,b = string.find('a\0a\0a\0a\0\0ab', 'b')    -- last position
-assert(a == 11 and b == 11)
-assert(string.find('a\0a\0a\0a\0\0ab', 'b\0') == nil)   -- check ending
-assert(string.find('', '\0') == nil)
-assert(string.find('alo123alo', '12') == 4)
-assert(string.find('alo123alo', '^12') == nil)
-
-assert(f('aloALO', '%l*') == 'alo')
-assert(f('aLo_ALO', '%a*') == 'aLo')
-
-assert(f('aaab', 'a*') == 'aaa');
-assert(f('aaa', '^.*$') == 'aaa');
-assert(f('aaa', 'b*') == '');
-assert(f('aaa', 'ab*a') == 'aa')
-assert(f('aba', 'ab*a') == 'aba')
-assert(f('aaab', 'a+') == 'aaa')
-assert(f('aaa', '^.+$') == 'aaa')
-assert(f('aaa', 'b+') == nil)
-assert(f('aaa', 'ab+a') == nil)
-assert(f('aba', 'ab+a') == 'aba')
-assert(f('a$a', '.$') == 'a')
-assert(f('a$a', '.%$') == 'a$')
-assert(f('a$a', '.$.') == 'a$a')
-assert(f('a$a', '$$') == nil)
-assert(f('a$b', 'a$') == nil)
-assert(f('a$a', '$') == '')
-assert(f('', 'b*') == '')
-assert(f('aaa', 'bb*') == nil)
-assert(f('aaab', 'a-') == '')
-assert(f('aaa', '^.-$') == 'aaa')
-assert(f('aabaaabaaabaaaba', 'b.*b') == 'baaabaaabaaab')
-assert(f('aabaaabaaabaaaba', 'b.-b') == 'baaab')
-assert(f('alo xo', '.o$') == 'xo')
-assert(f(' \n isto é assim', '%S%S*') == 'isto')
-assert(f(' \n isto é assim', '%S*$') == 'assim')
-assert(f(' \n isto é assim', '[a-z]*$') == 'assim')
-assert(f('um caracter ? extra', '[^%sa-z]') == '?')
-assert(f('', 'a?') == '')
-assert(f('á', 'á?') == 'á')
-assert(f('ábl', 'á?b?l?') == 'ábl')
-assert(f('  ábl', 'á?b?l?') == '')
-assert(f('aa', '^aa?a?a') == 'aa')
-assert(f(']]]áb', '[^]]') == 'á')
-assert(f("0alo alo", "%x*") == "0a")
-assert(f("alo alo", "%C+") == "alo alo")
-print('+')
-
-assert(f1('alo alx 123 b\0o b\0o', '(..*) %1') == "b\0o b\0o")
-assert(f1('axz123= 4= 4 34', '(.+)=(.*)=%2 %1') == '3= 4= 4 3')
-assert(f1('=======', '^(=*)=%1$') == '=======')
-assert(string.match('==========', '^([=]*)=%1$') == nil)
-
-local function range (i, j)
-  if i <= j then
-    return i, range(i+1, j)
-  end
-end
-
-local abc = string.char(range(0, 255));
-
-assert(string.len(abc) == 256)
-
-function strset (p)
-  local res = {s=''}
-  string.gsub(abc, p, function (c) res.s = res.s .. c end)
-  return res.s
-end;
-
-assert(string.len(strset('[\200-\210]')) == 11)
-
-assert(strset('[a-z]') == "abcdefghijklmnopqrstuvwxyz")
-assert(strset('[a-z%d]') == strset('[%da-uu-z]'))
-assert(strset('[a-]') == "-a")
-assert(strset('[^%W]') == strset('[%w]'))
-assert(strset('[]%%]') == '%]')
-assert(strset('[a%-z]') == '-az')
-assert(strset('[%^%[%-a%]%-b]') == '-[]^ab')
-assert(strset('%Z') == strset('[\1-\255]'))
-assert(strset('.') == strset('[\1-\255%z]'))
-print('+');
-
-assert(string.match("alo xyzK", "(%w+)K") == "xyz")
-assert(string.match("254 K", "(%d*)K") == "")
-assert(string.match("alo ", "(%w*)$") == "")
-assert(string.match("alo ", "(%w+)$") == nil)
-assert(string.find("(álo)", "%(á") == 1)
-local a, b, c, d, e = string.match("âlo alo", "^(((.).).* (%w*))$")
-assert(a == 'âlo alo' and b == 'âl' and c == 'â' and d == 'alo' and e == nil)
-a, b, c, d  = string.match('0123456789', '(.+(.?)())')
-assert(a == '0123456789' and b == '' and c == 11 and d == nil)
-print('+')
-
-assert(string.gsub('ülo ülo', 'ü', 'x') == 'xlo xlo')
-assert(string.gsub('alo úlo  ', ' +$', '') == 'alo úlo')  -- trim
-assert(string.gsub('  alo alo  ', '^%s*(.-)%s*$', '%1') == 'alo alo')  -- double trim
-assert(string.gsub('alo  alo  \n 123\n ', '%s+', ' ') == 'alo alo 123 ')
-t = "abç d"
-a, b = string.gsub(t, '(.)', '%1@')
-assert('@'..a == string.gsub(t, '', '@') and b == 5)
-a, b = string.gsub('abçd', '(.)', '%0@', 2)
-assert(a == 'a@b@çd' and b == 2)
-assert(string.gsub('alo alo', '()[al]', '%1') == '12o 56o')
-assert(string.gsub("abc=xyz", "(%w*)(%p)(%w+)", "%3%2%1-%0") ==
-              "xyz=abc-abc=xyz")
-assert(string.gsub("abc", "%w", "%1%0") == "aabbcc")
-assert(string.gsub("abc", "%w+", "%0%1") == "abcabc")
-assert(string.gsub('áéí', '$', '\0óú') == 'áéí\0óú')
-assert(string.gsub('', '^', 'r') == 'r')
-assert(string.gsub('', '$', 'r') == 'r')
-print('+')
-
-assert(string.gsub("um (dois) tres (quatro)", "(%(%w+%))", string.upper) ==
-            "um (DOIS) tres (QUATRO)")
-
-do
-  local function setglobal (n,v) rawset(_G, n, v) end
-  string.gsub("a=roberto,roberto=a", "(%w+)=(%w%w*)", setglobal)
-  assert(_G.a=="roberto" and _G.roberto=="a")
-end
-
-function f(a,b) return string.gsub(a,'.',b) end
-assert(string.gsub("trocar tudo em |teste|b| é |beleza|al|", "|([^|]*)|([^|]*)|", f) ==
-            "trocar tudo em bbbbb é alalalalalal")
-
-local function dostring (s) return loadstring(s)() or "" end
-assert(string.gsub("alo $a=1$ novamente $return a$", "$([^$]*)%$", dostring) ==
-            "alo  novamente 1")
-
-x = string.gsub("$x=string.gsub('alo', '.', string.upper)$ assim vai para $return x$",
-         "$([^$]*)%$", dostring)
-assert(x == ' assim vai para ALO')
-
-t = {}
-s = 'a alo jose  joao'
-r = string.gsub(s, '()(%w+)()', function (a,w,b)
-      assert(string.len(w) == b-a);
-      t[a] = b-a;
-    end)
-assert(s == r and t[1] == 1 and t[3] == 3 and t[7] == 4 and t[13] == 4)
-
-
-function isbalanced (s)
-  return string.find(string.gsub(s, "%b()", ""), "[()]") == nil
-end
-
-assert(isbalanced("(9 ((8))(\0) 7) \0\0 a b ()(c)() a"))
-assert(not isbalanced("(9 ((8) 7) a b (\0 c) a"))
-assert(string.gsub("alo 'oi' alo", "%b''", '"') == 'alo " alo')
-
-
-local t = {"apple", "orange", "lime"; n=0}
-assert(string.gsub("x and x and x", "x", function () t.n=t.n+1; return t[t.n] end)
-        == "apple and orange and lime")
-
-t = {n=0}
-string.gsub("first second word", "%w%w*", function (w) t.n=t.n+1; t[t.n] = w end)
-assert(t[1] == "first" and t[2] == "second" and t[3] == "word" and t.n == 3)
-
-t = {n=0}
-assert(string.gsub("first second word", "%w+",
-         function (w) t.n=t.n+1; t[t.n] = w end, 2) == "first second word")
-assert(t[1] == "first" and t[2] == "second" and t[3] == nil)
-
-assert(not pcall(string.gsub, "alo", "(.", print))
-assert(not pcall(string.gsub, "alo", ".)", print))
-assert(not pcall(string.gsub, "alo", "(.", {}))
-assert(not pcall(string.gsub, "alo", "(.)", "%2"))
-assert(not pcall(string.gsub, "alo", "(%1)", "a"))
-assert(not pcall(string.gsub, "alo", "(%0)", "a"))
-
--- big strings
-local a = string.rep('a', 300000)
-assert(string.find(a, '^a*.?$'))
-assert(not string.find(a, '^a*.?b$'))
-assert(string.find(a, '^a-.?$'))
-
--- deep nest of gsubs
-function rev (s)
-  return string.gsub(s, "(.)(.+)", function (c,s1) return rev(s1)..c end)
-end
-
-local x = string.rep('012345', 10)
-assert(rev(rev(x)) == x)
-
-
--- gsub with tables
-assert(string.gsub("alo alo", ".", {}) == "alo alo")
-assert(string.gsub("alo alo", "(.)", {a="AA", l=""}) == "AAo AAo")
-assert(string.gsub("alo alo", "(.).", {a="AA", l="K"}) == "AAo AAo")
-assert(string.gsub("alo alo", "((.)(.?))", {al="AA", o=false}) == "AAo AAo")
-
-assert(string.gsub("alo alo", "().", {2,5,6}) == "256 alo")
-
-t = {}; setmetatable(t, {__index = function (t,s) return string.upper(s) end})
-assert(string.gsub("a alo b hi", "%w%w+", t) == "a ALO b HI")
-
-
--- tests for gmatch
-assert(string.gfind == string.gmatch)
-local a = 0
-for i in string.gmatch('abcde', '()') do assert(i == a+1); a=i end
-assert(a==6)
-
-t = {n=0}
-for w in string.gmatch("first second word", "%w+") do
-      t.n=t.n+1; t[t.n] = w
-end
-assert(t[1] == "first" and t[2] == "second" and t[3] == "word")
-
-t = {3, 6, 9}
-for i in string.gmatch ("xuxx uu ppar r", "()(.)%2") do
-  assert(i == table.remove(t, 1))
-end
-assert(table.getn(t) == 0)
-
-t = {}
-for i,j in string.gmatch("13 14 10 = 11, 15= 16, 22=23", "(%d+)%s*=%s*(%d+)") do
-  t[i] = j
-end
-a = 0
-for k,v in pairs(t) do assert(k+1 == v+0); a=a+1 end
-assert(a == 3)
-
-
--- tests for `%f' (`frontiers')
-
-assert(string.gsub("aaa aa a aaa a", "%f[%w]a", "x") == "xaa xa x xaa x")
-assert(string.gsub("[[]] [][] [[[[", "%f[[].", "x") == "x[]] x]x] x[[[")
-assert(string.gsub("01abc45de3", "%f[%d]", ".") == ".01abc.45de.3")
-assert(string.gsub("01abc45 de3x", "%f[%D]%w", ".") == "01.bc45 de3.")
-assert(string.gsub("function", "%f[\1-\255]%w", ".") == ".unction")
-assert(string.gsub("function", "%f[^\1-\255]", ".") == "function.")
-
-local i, e = string.find(" alo aalo allo", "%f[%S].-%f[%s].-%f[%S]")
-assert(i == 2 and e == 5)
-local k = string.match(" alo aalo allo", "%f[%S](.-%f[%s].-%f[%S])")
-assert(k == 'alo ')
-
-local a = {1, 5, 9, 14, 17,}
-for k in string.gmatch("alo alo th02 is 1hat", "()%f[%w%d]") do
-  assert(table.remove(a, 1) == k)
-end
-assert(table.getn(a) == 0)
-
-
-print('OK')

lib/lua/lua-tests/sort.lua

@@ -1,74 +0,0 @@
-print"testing sort"
-
-
-function check (a, f)
-  f = f or function (x,y) return x<y end;
-  for n=table.getn(a),2,-1 do
-    assert(not f(a[n], a[n-1]))
-  end
-end
-
-a = {"Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep",
-     "Oct", "Nov", "Dec"}
-
-table.sort(a)
-check(a)
-
-limit = 30000
-if rawget(_G, "_soft") then limit = 5000 end
-
-a = {}
-for i=1,limit do
-  a[i] = math.random()
-end
-
-local x = os.clock()
-table.sort(a)
-print(string.format("Sorting %d elements in %.2f sec.", limit, os.clock()-x))
-check(a)
-
-x = os.clock()
-table.sort(a)
-print(string.format("Re-sorting %d elements in %.2f sec.", limit, os.clock()-x))
-check(a)
-
-a = {}
-for i=1,limit do
-  a[i] = math.random()
-end
-
-x = os.clock(); i=0
-table.sort(a, function(x,y) i=i+1; return y<x end)
-print(string.format("Invert-sorting other %d elements in %.2f sec., with %i comparisons",
-      limit, os.clock()-x, i))
-check(a, function(x,y) return y<x end)
-
-
-table.sort{}  -- empty array
-
-for i=1,limit do a[i] = false end
-x = os.clock();
-table.sort(a, function(x,y) return nil end)
-print(string.format("Sorting %d equal elements in %.2f sec.", limit, os.clock()-x))
-check(a, function(x,y) return nil end)
-for i,v in pairs(a) do assert(not v or i=='n' and v==limit) end
-
-a = {"álo", "\0first :-)", "alo", "then this one", "45", "and a new"}
-table.sort(a)
-check(a)
-
-table.sort(a, function (x, y)
-          loadstring(string.format("a[%q] = ''", x))()
-          collectgarbage()
-          return x<y
-        end)
-
-
-tt = {__lt = function (a,b) return a.val < b.val end}
-a = {}
-for i=1,10 do  a[i] = {val=math.random(100)}; setmetatable(a[i], tt); end
-table.sort(a)
-check(a, tt.__lt)
-check(a)
-
-print"OK"

lib/lua/lua-tests/strings.lua

@@ -1,176 +0,0 @@
-print('testing strings and string library')
-
-assert('alo' < 'alo1')
-assert('' < 'a')
-assert('alo\0alo' < 'alo\0b')
-assert('alo\0alo\0\0' > 'alo\0alo\0')
-assert('alo' < 'alo\0')
-assert('alo\0' > 'alo')
-assert('\0' < '\1')
-assert('\0\0' < '\0\1')
-assert('\1\0a\0a' <= '\1\0a\0a')
-assert(not ('\1\0a\0b' <= '\1\0a\0a'))
-assert('\0\0\0' < '\0\0\0\0')
-assert(not('\0\0\0\0' < '\0\0\0'))
-assert('\0\0\0' <= '\0\0\0\0')
-assert(not('\0\0\0\0' <= '\0\0\0'))
-assert('\0\0\0' <= '\0\0\0')
-assert('\0\0\0' >= '\0\0\0')
-assert(not ('\0\0b' < '\0\0a\0'))
-print('+')
-
-assert(string.sub("123456789",2,4) == "234")
-assert(string.sub("123456789",7) == "789")
-assert(string.sub("123456789",7,6) == "")
-assert(string.sub("123456789",7,7) == "7")
-assert(string.sub("123456789",0,0) == "")
-assert(string.sub("123456789",-10,10) == "123456789")
-assert(string.sub("123456789",1,9) == "123456789")
-assert(string.sub("123456789",-10,-20) == "")
-assert(string.sub("123456789",-1) == "9")
-assert(string.sub("123456789",-4) == "6789")
-assert(string.sub("123456789",-6, -4) == "456")
-assert(string.sub("\000123456789",3,5) == "234")
-assert(("\000123456789"):sub(8) == "789")
-print('+')
-
-assert(string.find("123456789", "345") == 3)
-a,b = string.find("123456789", "345")
-assert(string.sub("123456789", a, b) == "345")
-assert(string.find("1234567890123456789", "345", 3) == 3)
-assert(string.find("1234567890123456789", "345", 4) == 13)
-assert(string.find("1234567890123456789", "346", 4) == nil)
-assert(string.find("1234567890123456789", ".45", -9) == 13)
-assert(string.find("abcdefg", "\0", 5, 1) == nil)
-assert(string.find("", "") == 1)
-assert(string.find('', 'aaa', 1) == nil)
-assert(('alo(.)alo'):find('(.)', 1, 1) == 4)
-print('+')
-
-assert(string.len("") == 0)
-assert(string.len("\0\0\0") == 3)
-assert(string.len("1234567890") == 10)
-
-assert(#"" == 0)
-assert(#"\0\0\0" == 3)
-assert(#"1234567890" == 10)
-
-assert(string.byte("a") == 97)
-assert(string.byte("á") > 127)
-assert(string.byte(string.char(255)) == 255)
-assert(string.byte(string.char(0)) == 0)
-assert(string.byte("\0") == 0)
-assert(string.byte("\0\0alo\0x", -1) == string.byte('x'))
-assert(string.byte("ba", 2) == 97)
-assert(string.byte("\n\n", 2, -1) == 10)
-assert(string.byte("\n\n", 2, 2) == 10)
-assert(string.byte("") == nil)
-assert(string.byte("hi", -3) == nil)
-assert(string.byte("hi", 3) == nil)
-assert(string.byte("hi", 9, 10) == nil)
-assert(string.byte("hi", 2, 1) == nil)
-assert(string.char() == "")
-assert(string.char(0, 255, 0) == "\0\255\0")
-assert(string.char(0, string.byte("á"), 0) == "\0á\0")
-assert(string.char(string.byte("ál\0óu", 1, -1)) == "ál\0óu")
-assert(string.char(string.byte("ál\0óu", 1, 0)) == "")
-assert(string.char(string.byte("ál\0óu", -10, 100)) == "ál\0óu")
-print('+')
-
-assert(string.upper("ab\0c") == "AB\0C")
-assert(string.lower("\0ABCc%$") == "\0abcc%$")
-assert(string.rep('teste', 0) == '')
-assert(string.rep('tés\00tê', 2) == 'tés\0têtés\000tê')
-assert(string.rep('', 10) == '')
-
-assert(string.reverse"" == "")
-assert(string.reverse"\0\1\2\3" == "\3\2\1\0")
-assert(string.reverse"\0001234" == "4321\0")
-
-for i=0,30 do assert(string.len(string.rep('a', i)) == i) end
-
-assert(type(tostring(nil)) == 'string')
-assert(type(tostring(12)) == 'string')
-assert(''..12 == '12' and type(12 .. '') == 'string')
-assert(string.find(tostring{}, 'table:'))
-assert(string.find(tostring(print), 'function:'))
-assert(tostring(1234567890123) == '1234567890123')
-assert(#tostring('\0') == 1)
-assert(tostring(true) == "true")
-assert(tostring(false) == "false")
-print('+')
-
-x = '"ílo"\n\\'
-assert(string.format('%q%s', x, x) == '"\\"ílo\\"\\\n\\\\""ílo"\n\\')
-assert(string.format('%q', "\0") == [["\000"]])
-assert(string.format("\0%c\0%c%x\0", string.byte("á"), string.byte("b"), 140) ==
-              "\0á\0b8c\0")
-assert(string.format('') == "")
-assert(string.format("%c",34)..string.format("%c",48)..string.format("%c",90)..string.format("%c",100) ==
-       string.format("%c%c%c%c", 34, 48, 90, 100))
-assert(string.format("%s\0 is not \0%s", 'not be', 'be') == 'not be\0 is not \0be')
-assert(string.format("%%%d %010d", 10, 23) == "%10 0000000023")
-assert(tonumber(string.format("%f", 10.3)) == 10.3)
-x = string.format('"%-50s"', 'a')
-assert(#x == 52)
-assert(string.sub(x, 1, 4) == '"a  ')
-
-assert(string.format("-%.20s.20s", string.rep("%", 2000)) == "-"..string.rep("%", 20)..".20s")
-assert(string.format('"-%20s.20s"', string.rep("%", 2000)) ==
-       string.format("%q", "-"..string.rep("%", 2000)..".20s"))
-
-
--- longest number that can be formated
-assert(string.len(string.format('%99.99f', -1e308)) >= 100)
-
-assert(loadstring("return 1\n--comentário sem EOL no final")() == 1)
-
-
-assert(table.concat{} == "")
-assert(table.concat({}, 'x') == "")
-assert(table.concat({'\0', '\0\1', '\0\1\2'}, '.\0.') == "\0.\0.\0\1.\0.\0\1\2")
-local a = {}; for i=1,3000 do a[i] = "xuxu" end
-assert(table.concat(a, "123").."123" == string.rep("xuxu123", 3000))
-assert(table.concat(a, "b", 20, 20) == "xuxu")
-assert(table.concat(a, "", 20, 21) == "xuxuxuxu")
-assert(table.concat(a, "", 22, 21) == "")
-assert(table.concat(a, "3", 2999) == "xuxu3xuxu")
-
-a = {"a","b","c"}
-assert(table.concat(a, ",", 1, 0) == "")
-assert(table.concat(a, ",", 1, 1) == "a")
-assert(table.concat(a, ",", 1, 2) == "a,b")
-assert(table.concat(a, ",", 2) == "b,c")
-assert(table.concat(a, ",", 3) == "c")
-assert(table.concat(a, ",", 4) == "")
-
-local locales = { "ptb", "ISO-8859-1", "pt_BR" }
-local function trylocale (w)
-  for _, l in ipairs(locales) do
-    if os.setlocale(l, w) then return true end
-  end
-  return false
-end
-
-if not trylocale("collate")  then
-  print("locale not supported")
-else
-  assert("alo" < "álo" and "álo" < "amo")
-end
-
-if not trylocale("ctype") then
-  print("locale not supported")
-else
-  assert(string.gsub("áéíóú", "%a", "x") == "xxxxx")
-  assert(string.gsub("áÁéÉ", "%l", "x") == "xÁxÉ")
-  assert(string.gsub("áÁéÉ", "%u", "x") == "áxéx")
-  assert(string.upper"áÁé{xuxu}ção" == "ÁÁÉ{XUXU}ÇÃO")
-end
-
-os.setlocale("C")
-assert(os.setlocale() == 'C')
-assert(os.setlocale(nil, "numeric") == 'C')
-
-print('OK')
-
-

lib/lua/lua-tests/vararg.lua

@@ -1,126 +0,0 @@
-print('testing vararg')
-
-_G.arg = nil
-
-function f(a, ...)
-  assert(type(arg) == 'table')
-  assert(type(arg.n) == 'number')
-  for i=1,arg.n do assert(a[i]==arg[i]) end
-  return arg.n
-end
-
-function c12 (...)
-  assert(arg == nil)
-  local x = {...}; x.n = table.getn(x)
-  local res = (x.n==2 and x[1] == 1 and x[2] == 2)
-  if res then res = 55 end
-  return res, 2
-end
-
-function vararg (...) return arg end
-
-local call = function (f, args) return f(unpack(args, 1, args.n)) end
-
-assert(f() == 0)
-assert(f({1,2,3}, 1, 2, 3) == 3)
-assert(f({"alo", nil, 45, f, nil}, "alo", nil, 45, f, nil) == 5)
-
-assert(c12(1,2)==55)
-a,b = assert(call(c12, {1,2}))
-assert(a == 55 and b == 2)
-a = call(c12, {1,2;n=2})
-assert(a == 55 and b == 2)
-a = call(c12, {1,2;n=1})
-assert(not a)
-assert(c12(1,2,3) == false)
-local a = vararg(call(next, {_G,nil;n=2}))
-local b,c = next(_G)
-assert(a[1] == b and a[2] == c and a.n == 2)
-a = vararg(call(call, {c12, {1,2}}))
-assert(a.n == 2 and a[1] == 55 and a[2] == 2)
-a = call(print, {'+'})
-assert(a == nil)
-
-local t = {1, 10}
-function t:f (...) return self[arg[1]]+arg.n end
-assert(t:f(1,4) == 3 and t:f(2) == 11)
-print('+')
-
-lim = 20
-local i, a = 1, {}
-while i <= lim do a[i] = i+0.3; i=i+1 end
-
-function f(a, b, c, d, ...)
-  local more = {...}
-  assert(a == 1.3 and more[1] == 5.3 and
-         more[lim-4] == lim+0.3 and not more[lim-3])
-end
-
-function g(a,b,c)
-  assert(a == 1.3 and b == 2.3 and c == 3.3)
-end
-
-call(f, a)
-call(g, a)
-
-a = {}
-i = 1
-while i <= lim do a[i] = i; i=i+1 end
-assert(call(math.max, a) == lim)
-
-print("+")
-
-
--- new-style varargs
-
-function oneless (a, ...) return ... end
-
-function f (n, a, ...)
-  local b
-  assert(arg == nil)
-  if n == 0 then
-    local b, c, d = ...
-    return a, b, c, d, oneless(oneless(oneless(...)))
-  else
-    n, b, a = n-1, ..., a
-    assert(b == ...)
-    return f(n, a, ...)
-  end
-end
-
-a,b,c,d,e = assert(f(10,5,4,3,2,1))
-assert(a==5 and b==4 and c==3 and d==2 and e==1)
-
-a,b,c,d,e = f(4)
-assert(a==nil and b==nil and c==nil and d==nil and e==nil)
-
-
--- varargs for main chunks
-f = loadstring[[ return {...} ]]
-x = f(2,3)
-assert(x[1] == 2 and x[2] == 3 and x[3] == nil)
-
-
-f = loadstring[[
-  local x = {...}
-  for i=1,select('#', ...) do assert(x[i] == select(i, ...)) end
-  assert(x[select('#', ...)+1] == nil)
-  return true
-]]
-
-assert(f("a", "b", nil, {}, assert))
-assert(f())
-
-a = {select(3, unpack{10,20,30,40})}
-assert(table.getn(a) == 2 and a[1] == 30 and a[2] == 40)
-a = {select(1)}
-assert(next(a) == nil)
-a = {select(-1, 3, 5, 7)}
-assert(a[1] == 7 and a[2] == nil)
-a = {select(-2, 3, 5, 7)}
-assert(a[1] == 5 and a[2] == 7 and a[3] == nil)
-pcall(select, 10000)
-pcall(select, -10000)
-
-print('OK')
-

lib/lua/lua-tests/verybig.lua

@@ -1,100 +0,0 @@
-if rawget(_G, "_soft") then return 10 end
-
-print "testing large programs (>64k)"
-
--- template to create a very big test file
-prog = [[$
-
-local a,b
-
-b = {$1$
-  b30009 = 65534,
-  b30010 = 65535,
-  b30011 = 65536,
-  b30012 = 65537,
-  b30013 = 16777214,
-  b30014 = 16777215,
-  b30015 = 16777216,
-  b30016 = 16777217,
-  b30017 = 4294967294,
-  b30018 = 4294967295,
-  b30019 = 4294967296,
-  b30020 = 4294967297,
-  b30021 = -65534,
-  b30022 = -65535,
-  b30023 = -65536,
-  b30024 = -4294967297,
-  b30025 = 15012.5,
-  $2$
-};
-
-assert(b.a50008 == 25004 and b["a11"] == 5.5)
-assert(b.a33007 == 16503.5 and b.a50009 == 25004.5)
-assert(b["b"..30024] == -4294967297)
-
-function b:xxx (a,b) return a+b end
-assert(b:xxx(10, 12) == 22)   -- pushself with non-constant index
-b.xxx = nil
-
-s = 0; n=0
-for a,b in pairs(b) do s=s+b; n=n+1 end
-assert(s==13977183656.5  and n==70001)
-
-require "checktable"
-stat(b)
-
-a = nil; b = nil
-print'+'
-
-function f(x) b=x end
-
-a = f{$3$} or 10
-
-assert(a==10)
-assert(b[1] == "a10" and b[2] == 5 and b[table.getn(b)-1] == "a50009")
-
-
-function xxxx (x) return b[x] end
-
-assert(xxxx(3) == "a11")
-
-a = nil; b=nil
-xxxx = nil
-
-return 10
-
-]]
-
--- functions to fill in the $n$
-F = {
-function ()   -- $1$
-  for i=10,50009 do
-    io.write('a', i, ' = ', 5+((i-10)/2), ',\n')
-  end
-end,
-
-function ()   -- $2$
-  for i=30026,50009 do
-    io.write('b', i, ' = ', 15013+((i-30026)/2), ',\n')
-  end
-end,
-
-function ()   -- $3$
-  for i=10,50009 do
-    io.write('"a', i, '", ', 5+((i-10)/2), ',\n')
-  end
-end,
-}
-
-file = os.tmpname()
-io.output(file)
-for s in string.gmatch(prog, "$([^$]+)") do
-  local n = tonumber(s)
-  if not n then io.write(s) else F[n]() end
-end
-io.close()
-result = dofile(file)
-assert(os.remove(file))
-print'OK'
-return result
-