(** Integration tests — exercises the full rendering pipeline. Loads spec files + web adapters into a server-like env, then renders HTML expressions. Catches "Undefined symbol" errors that only surface when the full stack is loaded (not caught by spec unit tests). Usage: dune exec bin/integration_tests.exe *) module Sx_types = Sx.Sx_types module Sx_parser = Sx.Sx_parser module Sx_primitives = Sx.Sx_primitives module Sx_runtime = Sx.Sx_runtime module Sx_ref = Sx.Sx_ref module Sx_render = Sx.Sx_render open Sx_types let pass_count = ref 0 let fail_count = ref 0 let assert_eq name expected actual = if expected = actual then begin incr pass_count; Printf.printf " PASS: %s\n%!" name end else begin incr fail_count; Printf.printf " FAIL: %s\n expected: %s\n got: %s\n%!" name expected actual end let assert_contains name needle haystack = let rec find i = if i + String.length needle > String.length haystack then false else if String.sub haystack i (String.length needle) = needle then true else find (i + 1) in if String.length needle > 0 && find 0 then begin incr pass_count; Printf.printf " PASS: %s\n%!" name end else begin incr fail_count; Printf.printf " FAIL: %s — expected to contain %S in %S\n%!" name needle haystack end let assert_no_error name f = try ignore (f ()); incr pass_count; Printf.printf " PASS: %s\n%!" name with | Eval_error msg -> incr fail_count; Printf.printf " FAIL: %s — %s\n%!" name msg | exn -> incr fail_count; Printf.printf " FAIL: %s — %s\n%!" name (Printexc.to_string exn) (* Build a server-like env with rendering support *) let make_integration_env () = let env = make_env () in let bind (n : string) fn = ignore (Sx_types.env_bind env n (NativeFn (n, fn))) in Sx_render.setup_render_env env; (* HTML tag functions — same as sx_server.ml *) List.iter (fun tag -> ignore (env_bind env tag (NativeFn ("html:" ^ tag, fun args -> List (Symbol tag :: args)))) ) Sx_render.html_tags; (* Platform primitives needed by spec/render.sx and adapters *) bind "make-raw-html" (fun args -> match args with [String s] -> RawHTML s | [v] -> RawHTML (value_to_string v) | _ -> Nil); bind "raw-html-content" (fun args -> match args with [RawHTML s] -> String s | [String s] -> String s | _ -> String ""); bind "escape-html" (fun args -> match args with [String s] -> String (Sx_render.escape_html s) | _ -> String ""); bind "escape-attr" (fun args -> match args with [String s] -> String (Sx_render.escape_html s) | _ -> String ""); bind "escape-string" (fun args -> match args with [String s] -> String (Sx_render.escape_html s) | _ -> String ""); bind "is-html-tag?" (fun args -> match args with [String s] -> Bool (Sx_render.is_html_tag s) | _ -> Bool false); bind "is-void-element?" (fun args -> match args with [String s] -> Bool (Sx_render.is_void s) | _ -> Bool false); bind "is-boolean-attr?" (fun args -> match args with [String s] -> Bool (Sx_render.is_boolean_attr s) | _ -> Bool false); (* Mutable operations needed by adapter code *) bind "append!" (fun args -> match args with | [ListRef r; v] -> r := !r @ [v]; ListRef r | [List items; v] -> List (items @ [v]) | _ -> raise (Eval_error "append!: expected list and value")); bind "dict-set!" (fun args -> match args with | [Dict d; String k; v] -> Hashtbl.replace d k v; v | [Dict d; Keyword k; v] -> Hashtbl.replace d k v; v | _ -> Nil); bind "dict-has?" (fun args -> match args with | [Dict d; String k] -> Bool (Hashtbl.mem d k) | [Dict d; Keyword k] -> Bool (Hashtbl.mem d k) | _ -> Bool false); bind "dict-get" (fun args -> match args with | [Dict d; String k] -> (match Hashtbl.find_opt d k with Some v -> v | None -> Nil) | [Dict d; Keyword k] -> (match Hashtbl.find_opt d k with Some v -> v | None -> Nil) | _ -> Nil); bind "empty-dict?" (fun args -> match args with | [Dict d] -> Bool (Hashtbl.length d = 0) | _ -> Bool true); bind "mutable-list" (fun _args -> ListRef (ref [])); (* Symbol/keyword accessors needed by adapter-html.sx *) bind "symbol-name" (fun args -> match args with [Symbol s] -> String s | _ -> raise (Eval_error "symbol-name: expected symbol")); bind "keyword-name" (fun args -> match args with [Keyword k] -> String k | _ -> raise (Eval_error "keyword-name: expected keyword")); bind "make-symbol" (fun args -> match args with [String s] -> Symbol s | _ -> raise (Eval_error "make-symbol: expected string")); bind "make-keyword" (fun args -> match args with [String s] -> Keyword s | _ -> raise (Eval_error "make-keyword: expected string")); (* Type predicates needed by adapters *) bind "island?" (fun args -> match args with [Island _] -> Bool true | _ -> Bool false); bind "component?" (fun args -> match args with [Component _] -> Bool true | _ -> Bool false); bind "macro?" (fun args -> match args with [Macro _] -> Bool true | _ -> Bool false); bind "lambda?" (fun args -> match args with [Lambda _] -> Bool true | _ -> Bool false); bind "spread?" (fun args -> match args with [Spread _] -> Bool true | _ -> Bool false); bind "spread-attrs" (fun args -> match args with | [Spread pairs] -> let d = Hashtbl.create 8 in List.iter (fun (k, v) -> Hashtbl.replace d k v) pairs; Dict d | _ -> Nil); bind "component-name" (fun args -> match args with [Component c] -> String c.c_name | [Island i] -> String i.i_name | _ -> Nil); bind "component-params" (fun args -> match args with [Component c] -> List (List.map (fun s -> String s) c.c_params) | _ -> List []); bind "component-body" (fun args -> match args with [Component c] -> c.c_body | _ -> Nil); bind "component-closure" (fun args -> match args with [Component c] -> Env c.c_closure | _ -> Nil); bind "component-has-children?" (fun args -> match args with [Component c] -> Bool c.c_has_children | _ -> Bool false); bind "component-affinity" (fun args -> match args with [Component c] -> String c.c_affinity | _ -> String "auto"); bind "lambda-params" (fun args -> match args with [Lambda l] -> List (List.map (fun s -> String s) l.l_params) | _ -> List []); bind "lambda-body" (fun args -> match args with [Lambda l] -> l.l_body | _ -> Nil); bind "lambda-closure" (fun args -> match args with [Lambda l] -> Env l.l_closure | _ -> Nil); bind "lambda-name" (fun args -> match args with [Lambda l] -> (match l.l_name with Some n -> String n | None -> Nil) | _ -> Nil); bind "set-lambda-name!" (fun args -> match args with [Lambda l; String n] -> l.l_name <- Some n; Nil | _ -> Nil); (* Environment operations *) bind "env-extend" (fun args -> match args with [Env e] -> Env (env_extend e) | _ -> Env (env_extend env)); bind "env-bind!" (fun args -> match args with [Env e; String k; v] -> env_bind e k v | _ -> Nil); bind "env-set!" (fun args -> match args with [Env e; String k; v] -> env_set e k v | _ -> Nil); bind "env-get" (fun args -> match args with [Env e; String k] -> env_get e k | _ -> Nil); bind "env-has?" (fun args -> match args with [Env e; String k] -> Bool (env_has e k) | _ -> Bool false); bind "env-merge" (fun args -> match args with [Env a; Env b] -> Env (env_merge a b) | _ -> Nil); bind "make-env" (fun _args -> Env (make_env ())); (* Eval/trampoline — needed by adapters *) bind "eval-expr" (fun args -> match args with | [expr; e] -> Sx_ref.eval_expr expr e | _ -> Nil); bind "trampoline" (fun args -> match args with | [Thunk (e, env)] -> Sx_ref.eval_expr e (Env env) | [v] -> v | _ -> Nil); bind "call-lambda" (fun args -> match args with | [f; List a] -> Sx_runtime.sx_call f a | [f; a] -> Sx_runtime.sx_call f [a] | _ -> Nil); bind "expand-macro" (fun args -> match args with | [Macro m; List macro_args; _env] -> let local = env_extend m.m_closure in let rec bind_params ps as' = match ps, as' with | [], rest -> (match m.m_rest_param with Some rp -> ignore (env_bind local rp (List rest)) | None -> ()) | p :: ps_rest, a :: as_rest -> ignore (env_bind local p a); bind_params ps_rest as_rest | _ :: _, [] -> () in bind_params m.m_params macro_args; Sx_ref.eval_expr m.m_body (Env local) | _ -> Nil); (* Scope/provide — needed by adapter-html.sx and the CEK evaluator. Must be registered as primitives (prim_call) not just env bindings. *) let scope_stacks : (string, value list) Hashtbl.t = Hashtbl.create 8 in let scope_emitted : (string, value list) Hashtbl.t = Hashtbl.create 8 in let scope_push name v = let stack = try Hashtbl.find scope_stacks name with Not_found -> [] in Hashtbl.replace scope_stacks name (v :: stack); Nil in let scope_pop name = (match Hashtbl.find_opt scope_stacks name with | Some (_ :: rest) -> Hashtbl.replace scope_stacks name rest | _ -> ()); Nil in let scope_peek name = match Hashtbl.find_opt scope_stacks name with | Some (v :: _) -> v | _ -> Nil in let scope_emit name v = let items = try Hashtbl.find scope_emitted name with Not_found -> [] in Hashtbl.replace scope_emitted name (items @ [v]); Nil in let emitted name = match Hashtbl.find_opt scope_emitted name with Some l -> List l | None -> List [] in (* Register as both env bindings AND primitives *) bind "scope-push!" (fun args -> match args with [String n; v] -> scope_push n v | _ -> Nil); bind "scope-pop!" (fun args -> match args with [String n] -> scope_pop n | _ -> Nil); bind "scope-peek" (fun args -> match args with [String n] -> scope_peek n | _ -> Nil); bind "scope-emit!" (fun args -> match args with [String n; v] -> scope_emit n v | _ -> Nil); bind "emitted" (fun args -> match args with [String n] -> emitted n | _ -> List []); bind "emit!" (fun args -> match args with [String n; v] -> scope_emit n v | _ -> Nil); bind "scope-emitted" (fun args -> match args with [String n] -> emitted n | _ -> List []); bind "collect!" (fun _args -> Nil); bind "collected" (fun _args -> List []); bind "clear-collected!" (fun _args -> Nil); bind "scope-collected" (fun _args -> List []); bind "scope-clear-collected!" (fun _args -> Nil); bind "provide-push!" (fun args -> match args with [String n; v] -> scope_push n v | _ -> Nil); bind "provide-pop!" (fun args -> match args with [String n] -> scope_pop n | _ -> Nil); bind "context" (fun args -> match args with [String n] -> scope_peek n | [String n; _] -> scope_peek n | _ -> Nil); bind "sx-context" (fun args -> match args with [String n] -> scope_peek n | [String n; _] -> scope_peek n | _ -> Nil); (* Also register as primitives for prim_call *) Sx_primitives.register "scope-push!" (fun args -> match args with [String n; v] -> scope_push n v | _ -> Nil); Sx_primitives.register "scope-pop!" (fun args -> match args with [String n] -> scope_pop n | _ -> Nil); Sx_primitives.register "scope-peek" (fun args -> match args with [String n] -> scope_peek n | _ -> Nil); Sx_primitives.register "scope-emit!" (fun args -> match args with [String n; v] -> scope_emit n v | _ -> Nil); Sx_primitives.register "emitted" (fun args -> match args with [String n] -> emitted n | _ -> List []); Sx_primitives.register "emit!" (fun args -> match args with [String n; v] -> scope_emit n v | _ -> Nil); Sx_primitives.register "scope-emitted" (fun args -> match args with [String n] -> emitted n | _ -> List []); Sx_primitives.register "collect!" (fun _args -> Nil); Sx_primitives.register "collected" (fun _args -> List []); Sx_primitives.register "clear-collected!" (fun _args -> Nil); Sx_primitives.register "scope-collected" (fun _args -> List []); Sx_primitives.register "scope-clear-collected!" (fun _args -> Nil); Sx_primitives.register "provide-push!" (fun args -> match args with [String n; v] -> scope_push n v | _ -> Nil); Sx_primitives.register "provide-pop!" (fun args -> match args with [String n] -> scope_pop n | _ -> Nil); Sx_primitives.register "context" (fun args -> match args with [String n] -> scope_peek n | [String n; _] -> scope_peek n | _ -> Nil); (* Render-mode flags *) ignore (env_bind env "*render-active*" (Bool false)); bind "set-render-active!" (fun args -> match args with [v] -> ignore (env_set env "*render-active*" v); Nil | _ -> Nil); bind "render-active?" (fun _args -> try env_get env "*render-active*" with _ -> Bool false); bind "definition-form?" (fun args -> match args with | [String s] -> Bool (List.mem s ["define"; "defcomp"; "defisland"; "defmacro"; "defstyle"; "defhandler"; "deftype"; "defeffect"; "defquery"; "defaction"; "defrelation"]) | _ -> Bool false); (* Signal stubs for SSR — overridden when signals.sx is loaded *) bind "signal" (fun args -> match args with [v] -> v | _ -> Nil); bind "computed" (fun args -> match args with [f] -> Sx_runtime.sx_call f [] | _ -> Nil); bind "deref" (fun args -> match args with [v] -> v | _ -> Nil); bind "reset!" (fun _args -> Nil); bind "swap!" (fun _args -> Nil); bind "effect" (fun _args -> Nil); bind "batch" (fun _args -> Nil); (* Type predicates — needed by adapter-sx.sx *) bind "callable?" (fun args -> match args with [NativeFn _] | [Lambda _] | [Component _] | [Island _] -> Bool true | _ -> Bool false); bind "lambda?" (fun args -> match args with [Lambda _] -> Bool true | _ -> Bool false); bind "macro?" (fun args -> match args with [Macro _] -> Bool true | _ -> Bool false); bind "island?" (fun args -> match args with [Island _] -> Bool true | _ -> Bool false); bind "component?" (fun args -> match args with [Component _] | [Island _] -> Bool true | _ -> Bool false); bind "spread?" (fun args -> match args with [Spread _] -> Bool true | _ -> Bool false); bind "lambda-params" (fun args -> match args with [Lambda l] -> List (List.map (fun s -> String s) l.l_params) | _ -> List []); bind "lambda-body" (fun args -> match args with [Lambda l] -> l.l_body | _ -> Nil); bind "lambda-closure" (fun args -> match args with [Lambda l] -> Env l.l_closure | _ -> Dict (Hashtbl.create 0)); bind "component-name" (fun args -> match args with [Component c] -> String c.c_name | [Island i] -> String i.i_name | _ -> String ""); bind "component-closure" (fun args -> match args with [Component c] -> Env c.c_closure | [Island i] -> Env i.i_closure | _ -> Dict (Hashtbl.create 0)); bind "component-params" (fun args -> match args with | [Component c] -> List (List.map (fun s -> String s) c.c_params) | [Island i] -> List (List.map (fun s -> String s) i.i_params) | _ -> Nil); bind "component-body" (fun args -> match args with [Component c] -> c.c_body | [Island i] -> i.i_body | _ -> Nil); bind "component-affinity" (fun args -> match args with [Component c] -> String c.c_affinity | [Island _] -> Nil | _ -> Nil); bind "component-has-children?" (fun args -> match args with | [Component c] -> Bool (List.mem "children" c.c_params) | [Island i] -> Bool (List.mem "children" i.i_params) | _ -> Bool false); (* Evaluator bridge — needed by adapter-sx.sx *) bind "call-lambda" (fun args -> match args with | [fn_val; List call_args; Env _e] -> Sx_ref.cek_call fn_val (List call_args) | [fn_val; List call_args] -> Sx_ref.cek_call fn_val (List call_args) | _ -> raise (Eval_error "call-lambda: expected (fn args env?)")); bind "cek-call" (fun args -> match args with | [fn_val; List call_args] -> Sx_ref.cek_call fn_val (List call_args) | [fn_val; Nil] -> Sx_ref.cek_call fn_val (List []) | [fn_val] -> Sx_ref.cek_call fn_val (List []) | _ -> Nil); bind "expand-macro" (fun args -> match args with | [Macro m; List macro_args; Env e] -> let body_env = { bindings = Hashtbl.create 16; parent = Some e } in List.iteri (fun i p -> let v = if i < List.length macro_args then List.nth macro_args i else Nil in Hashtbl.replace body_env.bindings p v ) m.m_params; Sx_ref.eval_expr m.m_body (Env body_env) | _ -> raise (Eval_error "expand-macro: expected (macro args env)")); bind "eval-expr" (fun args -> match args with | [expr; e] -> Sx_ref.eval_expr expr (Env (Sx_runtime.unwrap_env e)) | [expr] -> Sx_ref.eval_expr expr (Env env) | _ -> raise (Eval_error "eval-expr: expected (expr env?)")); bind "trampoline" (fun args -> match args with | [v] -> let rec resolve v = match v with | Thunk (body, closure_env) -> resolve (Sx_ref.eval_expr body (Env closure_env)) | _ -> v in resolve v | _ -> raise (Eval_error "trampoline: expected 1 arg")); bind "expand-components?" (fun _args -> Bool false); bind "register-special-form!" (fun args -> match args with | [String name; handler] -> ignore (Sx_ref.register_special_form (String name) handler); Nil | _ -> raise (Eval_error "register-special-form!: expected (name handler)")); ignore (env_bind env "*custom-special-forms*" Sx_ref.custom_special_forms); (* DOM stubs *) bind "create-text-node" (fun args -> match args with [String s] -> String s | _ -> Nil); bind "create-fragment" (fun _args -> Nil); bind "dom-create-element" (fun _args -> Nil); bind "dom-append" (fun _args -> Nil); bind "dom-set-attr" (fun _args -> Nil); bind "dom-set-prop" (fun _args -> Nil); bind "dom-get-attr" (fun _args -> Nil); bind "dom-query" (fun _args -> Nil); bind "dom-body" (fun _args -> Nil); (* Misc stubs *) bind "random-int" (fun args -> match args with | [Number lo; Number hi] -> Number (lo +. Float.round (Random.float (hi -. lo))) | _ -> Number 0.0); bind "expand-components?" (fun _args -> Bool false); bind "freeze-scope" (fun _args -> Nil); bind "freeze-signal" (fun _args -> Nil); bind "thaw-from-sx" (fun _args -> Nil); bind "local-storage-get" (fun _args -> Nil); bind "local-storage-set" (fun _args -> Nil); bind "schedule-idle" (fun _args -> Nil); bind "run-post-render-hooks" (fun _args -> Nil); bind "freeze-to-sx" (fun _args -> String ""); env let () = Printexc.record_backtrace true; (* Find project root *) let rec find_root dir = let candidate = Filename.concat dir "spec/render.sx" in if Sys.file_exists candidate then dir else let parent = Filename.dirname dir in if parent = dir then Sys.getcwd () else find_root parent in let root = find_root (Sys.getcwd ()) in let spec p = Filename.concat (Filename.concat root "spec") p in let lib p = Filename.concat (Filename.concat root "lib") p in let web p = Filename.concat (Filename.concat root "web") p in let env = make_integration_env () in (* Load spec + lib + adapters *) Printf.printf "Loading spec + lib + adapters...\n%!"; let load path = if Sys.file_exists path then begin let exprs = Sx_parser.parse_file path in List.iter (fun expr -> ignore (Sx_ref.eval_expr expr (Env env))) exprs; Printf.printf " loaded %s (%d defs)\n%!" (Filename.basename path) (List.length exprs) end else Printf.printf " SKIP %s (not found)\n%!" path in load (spec "parser.sx"); load (spec "render.sx"); load (web "signals.sx"); load (web "adapter-html.sx"); load (web "adapter-sx.sx"); ignore lib; (* available for future library loading *) (* Helper: render SX source string to HTML *) let render_html src = let exprs = Sx_parser.parse_all src in let expr = match exprs with [e] -> e | _ -> Nil in Sx_render.render_to_html expr env in (* Helper: call SX render-to-html via the adapter *) let sx_render_html src = let exprs = Sx_parser.parse_all src in let expr = match exprs with [e] -> e | _ -> Nil in let call = List [Symbol "render-to-html"; List [Symbol "quote"; expr]; Env env] in match Sx_ref.eval_expr call (Env env) with | String s | RawHTML s -> s | v -> value_to_string v in (* ================================================================== *) Printf.printf "\nSuite: native renderer — HTML tags\n%!"; assert_eq "div" "
hello
" (render_html "(div \"hello\")"); assert_eq "div with class" "
text
" (render_html "(div :class \"card\" \"text\")"); assert_eq "nested tags" "

inner

" (render_html "(div (p \"inner\"))"); assert_eq "void element" "
" (render_html "(br)"); assert_eq "h1" "

Title

" (render_html "(h1 \"Title\")"); assert_eq "span with attrs" "text" (render_html "(span :class \"bold\" \"text\")"); (* ================================================================== *) Printf.printf "\nSuite: SX adapter render-to-html — HTML tags\n%!"; assert_no_error "div doesn't throw" (fun () -> sx_render_html "(div \"hello\")"); assert_contains "div produces tag" "" (sx_render_html "(div (p \"inner\"))"); assert_no_error "h1 doesn't throw" (fun () -> sx_render_html "(h1 \"Title\")"); assert_no_error "span doesn't throw" (fun () -> sx_render_html "(span :class \"bold\" \"text\")"); assert_no_error "table doesn't throw" (fun () -> sx_render_html "(table (tr (td \"cell\")))"); (* ================================================================== *) Printf.printf "\nSuite: SX adapter — special forms in HTML context\n%!"; assert_contains "when true renders" "

" (sx_render_html "(when true (p \"yes\"))"); assert_eq "when false empty" "" (sx_render_html "(when false (p \"no\"))"); assert_contains "if true branch" "yes" (sx_render_html "(if true (span \"yes\") (span \"no\"))"); assert_contains "if false branch" "no" (sx_render_html "(if false (span \"yes\") (span \"no\"))"); assert_contains "let in render" "hello" (sx_render_html "(let ((x \"hello\")) (p x))"); (* ================================================================== *) Printf.printf "\nSuite: SX adapter — letrec in HTML context\n%!"; assert_no_error "letrec with div body" (fun () -> sx_render_html "(letrec ((x 42)) (div (str x)))"); assert_contains "letrec renders body" "

" (sx_render_html "(letrec ((x 42)) (div (str x)))"); assert_no_error "letrec with side effects then div" (fun () -> sx_render_html "(letrec ((x 1) (y 2)) (let ((z (+ x y))) (div (str z))))"); (* ================================================================== *) Printf.printf "\nSuite: SX adapter — components\n%!"; (try assert_no_error "defcomp + render" (fun () -> ignore (Sx_ref.eval_expr (List.hd (Sx_parser.parse_all "(defcomp ~test-card (&key title &rest children) (div :class \"card\" (h2 title) children))")) (Env env)); sx_render_html "(~test-card :title \"Hi\" (p \"body\"))"); assert_contains "component renders div" " incr fail_count; Printf.printf " FAIL: components — %s\n%!" msg); (* ================================================================== *) Printf.printf "\nSuite: eval-expr with HTML tag functions\n%!"; assert_no_error "eval (div) returns list" (fun () -> Sx_ref.eval_expr (List [Symbol "div"; Keyword "class"; String "foo"; String "hi"]) (Env env)); assert_no_error "eval (span) returns list" (fun () -> Sx_ref.eval_expr (List [Symbol "span"; String "text"]) (Env env)); (* ================================================================== *) (* Regression: call-lambda re-evaluated Dict args through eval_expr, which copies dicts. Mutations inside the lambda (e.g. signal reset!) operated on the copy, not the original. This broke island SSR where aser processes multi-body let forms. *) Printf.printf "\nSuite: call-lambda dict identity (aser mode)\n%!"; let aser_eval src = let exprs = Sx_parser.parse_all src in let expr = match exprs with [e] -> e | _ -> Nil in let call = List [Symbol "aser"; List [Symbol "quote"; expr]; Env env] in match Sx_ref.eval_expr call (Env env) with | String s | SxExpr s -> s | v -> value_to_string v in assert_eq "lambda dict mutation in aser multi-body let" "99" (aser_eval "(let ((mutate! (fn (d k v) (dict-set! d k v))) (d (dict \"x\" 1))) (mutate! d \"x\" 99) (get d \"x\"))"); assert_eq "signal reset! in aser multi-body let" "99" (aser_eval "(let ((s (signal 42))) (reset! s 99) (deref s))"); assert_eq "signal reset! then len of deref" "3" (aser_eval "(let ((s (signal (list)))) (reset! s (list 1 2 3)) (len (deref s)))"); (* ================================================================== *) Printf.printf "\n"; Printf.printf "============================================================\n"; Printf.printf "Integration: %d passed, %d failed\n" !pass_count !fail_count; Printf.printf "============================================================\n"; if !fail_count > 0 then exit 1