open Parser let default_store_path () = let cache = try Sys.getenv "XDG_CACHE_HOME" with Not_found -> Filename.concat (Sys.getenv "HOME") ".cache" in Filename.concat cache "inshellah" let ensure_dir dir = let rec mkdir_p d = if Sys.file_exists d then () else begin mkdir_p (Filename.dirname d); Unix.mkdir d 0o755 end in mkdir_p dir let filename_of_command cmd = String.map (function | ' ' -> '_' | ('a'..'z' | 'A'..'Z' | '0'..'9' | '-' | '_' | '.') as c -> c | _ -> '-') cmd let command_of_filename base = String.map (function '_' -> ' ' | c -> c) base (* --- JSON serialization of help_result --- *) let escape_json s = let buf = Buffer.create (String.length s + 4) in String.iter (fun c -> match c with | '"' -> Buffer.add_string buf "\\\"" | '\\' -> Buffer.add_string buf "\\\\" | '\n' -> Buffer.add_string buf "\\n" | '\t' -> Buffer.add_string buf "\\t" | '\r' -> Buffer.add_string buf "\\r" | c when Char.code c < 0x20 -> Buffer.add_string buf (Printf.sprintf "\\u%04x" (Char.code c)) | c -> Buffer.add_char buf c ) s; Buffer.contents buf let json_string s = Printf.sprintf "\"%s\"" (escape_json s) let json_null = "null" let json_switch_of = function | Short c -> Printf.sprintf "{\"type\":\"short\",\"char\":%s}" (json_string (String.make 1 c)) | Long l -> Printf.sprintf "{\"type\":\"long\",\"name\":%s}" (json_string l) | Both (c, l) -> Printf.sprintf "{\"type\":\"both\",\"char\":%s,\"name\":%s}" (json_string (String.make 1 c)) (json_string l) let json_param_of = function | None -> json_null | Some (Mandatory p) -> Printf.sprintf "{\"kind\":\"mandatory\",\"name\":%s}" (json_string p) | Some (Optional p) -> Printf.sprintf "{\"kind\":\"optional\",\"name\":%s}" (json_string p) let json_entry_of e = Printf.sprintf "{\"switch\":%s,\"param\":%s,\"desc\":%s}" (json_switch_of e.switch) (json_param_of e.param) (json_string e.desc) let json_subcommand_of sc = Printf.sprintf "{\"name\":%s,\"desc\":%s}" (json_string sc.name) (json_string sc.desc) let json_positional_of p = Printf.sprintf "{\"name\":%s,\"optional\":%b,\"variadic\":%b}" (json_string p.pos_name) p.optional p.variadic let json_list f items = "[" ^ String.concat "," (List.map f items) ^ "]" let json_of_help_result ?(source="help") r = Printf.sprintf "{\"source\":%s,\"description\":%s,\"entries\":%s,\"subcommands\":%s,\"positionals\":%s}" (json_string source) (json_string r.description) (json_list json_entry_of r.entries) (json_list json_subcommand_of r.subcommands) (json_list json_positional_of r.positionals) (* --- JSON deserialization --- *) (* Minimal JSON parser — just enough for our own output *) type json = | Jnull | Jbool of bool | Jstring of string | Jarray of json list | Jobject of (string * json) list let json_get key = function | Jobject pairs -> (try List.assoc key pairs with Not_found -> Jnull) | _ -> Jnull let json_to_string = function Jstring s -> s | _ -> "" let json_to_bool = function Jbool b -> b | _ -> false let json_to_list = function Jarray l -> l | _ -> [] exception Json_error of string let parse_json s = let len = String.length s in let pos = ref 0 in let peek () = if !pos < len then s.[!pos] else '\x00' in let advance () = incr pos in let skip_ws () = while !pos < len && (s.[!pos] = ' ' || s.[!pos] = '\t' || s.[!pos] = '\n' || s.[!pos] = '\r') do advance () done in let expect c = skip_ws (); if peek () <> c then raise (Json_error (Printf.sprintf "expected '%c' at %d" c !pos)); advance () in let rec parse_value () = skip_ws (); match peek () with | '"' -> Jstring (parse_string ()) | '{' -> parse_object () | '[' -> parse_array () | 'n' -> advance (); advance (); advance (); advance (); Jnull | 't' -> advance (); advance (); advance (); advance (); Jbool true | 'f' -> advance (); advance (); advance (); advance (); advance (); Jbool false | c -> raise (Json_error (Printf.sprintf "unexpected '%c' at %d" c !pos)) and parse_string () = expect '"'; let buf = Buffer.create 32 in while peek () <> '"' do if peek () = '\\' then begin advance (); (match peek () with | '"' -> Buffer.add_char buf '"' | '\\' -> Buffer.add_char buf '\\' | 'n' -> Buffer.add_char buf '\n' | 't' -> Buffer.add_char buf '\t' | 'r' -> Buffer.add_char buf '\r' | 'u' -> advance (); let hex = String.sub s !pos 4 in pos := !pos + 3; let code = int_of_string ("0x" ^ hex) in if code < 128 then Buffer.add_char buf (Char.chr code) else begin (* UTF-8 encode *) if code < 0x800 then begin Buffer.add_char buf (Char.chr (0xc0 lor (code lsr 6))); Buffer.add_char buf (Char.chr (0x80 lor (code land 0x3f))) end else begin Buffer.add_char buf (Char.chr (0xe0 lor (code lsr 12))); Buffer.add_char buf (Char.chr (0x80 lor ((code lsr 6) land 0x3f))); Buffer.add_char buf (Char.chr (0x80 lor (code land 0x3f))) end end | c -> Buffer.add_char buf c); advance () end else begin Buffer.add_char buf (peek ()); advance () end done; advance (); (* closing quote *) Buffer.contents buf and parse_object () = expect '{'; skip_ws (); if peek () = '}' then (advance (); Jobject []) else begin let pairs = ref [] in let cont = ref true in while !cont do skip_ws (); let key = parse_string () in expect ':'; let value = parse_value () in pairs := (key, value) :: !pairs; skip_ws (); if peek () = ',' then advance () else cont := false done; expect '}'; Jobject (List.rev !pairs) end and parse_array () = expect '['; skip_ws (); if peek () = ']' then (advance (); Jarray []) else begin let items = ref [] in let cont = ref true in while !cont do let v = parse_value () in items := v :: !items; skip_ws (); if peek () = ',' then advance () else cont := false done; expect ']'; Jarray (List.rev !items) end in parse_value () let switch_of_json j = match json_to_string (json_get "type" j) with | "short" -> let c = json_to_string (json_get "char" j) in Short (if String.length c > 0 then c.[0] else '?') | "long" -> Long (json_to_string (json_get "name" j)) | "both" -> let c = json_to_string (json_get "char" j) in Both ((if String.length c > 0 then c.[0] else '?'), json_to_string (json_get "name" j)) | _ -> Long "?" let param_of_json = function | Jnull -> None | j -> let name = json_to_string (json_get "name" j) in (match json_to_string (json_get "kind" j) with | "mandatory" -> Some (Mandatory name) | "optional" -> Some (Optional name) | _ -> None) let entry_of_json j = { switch = switch_of_json (json_get "switch" j); param = param_of_json (json_get "param" j); desc = json_to_string (json_get "desc" j) } let subcommand_of_json j = { name = json_to_string (json_get "name" j); desc = json_to_string (json_get "desc" j) } let positional_of_json j = { pos_name = json_to_string (json_get "name" j); optional = json_to_bool (json_get "optional" j); variadic = json_to_bool (json_get "variadic" j) } let help_result_of_json j = { entries = List.map entry_of_json (json_to_list (json_get "entries" j)); subcommands = List.map subcommand_of_json (json_to_list (json_get "subcommands" j)); positionals = List.map positional_of_json (json_to_list (json_get "positionals" j)); description = json_to_string (json_get "description" j) } (* --- Filesystem operations --- *) let write_file path contents = let oc = open_out path in output_string oc contents; close_out oc let read_file path = try let ic = open_in path in let n = in_channel_length ic in let s = Bytes.create n in really_input ic s 0 n; close_in ic; Some (Bytes.to_string s) with _ -> None let write_result ~dir ?(source="help") command result = let path = Filename.concat dir (filename_of_command command ^ ".json") in write_file path (json_of_help_result ~source result) let write_native ~dir command data = let path = Filename.concat dir (filename_of_command command ^ ".nu") in write_file path data let find_file dirs command = let base = filename_of_command command in let rec go = function | [] -> None | dir :: rest -> let json_path = Filename.concat dir (base ^ ".json") in if Sys.file_exists json_path then Some json_path else let nu_path = Filename.concat dir (base ^ ".nu") in if Sys.file_exists nu_path then Some nu_path else go rest in go dirs let lookup dirs command = let base = filename_of_command command in let rec go = function | [] -> None | dir :: rest -> let path = Filename.concat dir (base ^ ".json") in (match read_file path with | Some data -> (try Some (help_result_of_json (parse_json data)) with _ -> None) | None -> go rest) in go dirs let lookup_raw dirs command = let base = filename_of_command command in let rec go = function | [] -> None | dir :: rest -> let json_path = Filename.concat dir (base ^ ".json") in (match read_file json_path with | Some _ as r -> r | None -> let nu_path = Filename.concat dir (base ^ ".nu") in match read_file nu_path with | Some _ as r -> r | None -> go rest) in go dirs let has_command dirs command = find_file dirs command <> None let subcommands_of dirs command = let prefix = filename_of_command command ^ "_" in let plen = String.length prefix in let module SMap = Map.Make(String) in let subs = ref SMap.empty in List.iter (fun dir -> if Sys.file_exists dir && Sys.is_directory dir then Array.iter (fun f -> if String.starts_with ~prefix f then let is_json = Filename.check_suffix f ".json" in let base = if is_json then Some (Filename.chop_suffix f ".json") else if Filename.check_suffix f ".nu" then Some (Filename.chop_suffix f ".nu") else None in match base with | Some b -> let rest = String.sub b plen (String.length b - plen) in (* Only direct children: no further underscores *) if not (String.contains rest '_') && String.length rest > 0 then let name = rest in if not (SMap.mem name !subs) then let desc = if is_json then match read_file (Filename.concat dir f) with | Some data -> (try json_to_string (json_get "description" (parse_json data)) with _ -> "") | None -> "" else "" in subs := SMap.add name { name; desc } !subs | None -> () ) (Sys.readdir dir) ) dirs; SMap.fold (fun _ sc acc -> sc :: acc) !subs [] |> List.rev let all_commands dirs = let module SSet = Set.Make(String) in let cmds = ref SSet.empty in List.iter (fun dir -> if Sys.file_exists dir && Sys.is_directory dir then Array.iter (fun f -> let base = if Filename.check_suffix f ".json" then Some (Filename.chop_suffix f ".json") else if Filename.check_suffix f ".nu" then Some (Filename.chop_suffix f ".nu") else None in match base with | Some b -> cmds := SSet.add (command_of_filename b) !cmds | None -> () ) (Sys.readdir dir) ) dirs; SSet.elements !cmds let delete ~dir command = let base = filename_of_command command in let json_path = Filename.concat dir (base ^ ".json") in let nu_path = Filename.concat dir (base ^ ".nu") in (try Sys.remove json_path with Sys_error _ -> ()); (try Sys.remove nu_path with Sys_error _ -> ()) let file_type_of dirs command = let base = filename_of_command command in let rec go = function | [] -> None | dir :: rest -> let json_path = Filename.concat dir (base ^ ".json") in if Sys.file_exists json_path then (match read_file json_path with | Some data -> (try Some (json_to_string (json_get "source" (parse_json data))) with _ -> Some "json") | None -> Some "json") else let nu_path = Filename.concat dir (base ^ ".nu") in if Sys.file_exists nu_path then Some "native" else go rest in go dirs