ref: 8b4ebe50739d76ce9591716e394ca68194f22245
dir: /macro.ml/
(* The ⟨pattern⟩ in a ⟨syntax rule⟩ is a list ⟨pattern⟩ whose first element is an identifier. * A ⟨pattern⟩ is either an identifier, a constant, or one of the following * (⟨pattern⟩ ...) * ((_) #t) => ⟨pattern⟩: (_), ...: #t * (⟨pattern⟩ ⟨pattern⟩ ... . ⟨pattern⟩) * (⟨pattern⟩ ... ⟨pattern⟩ ⟨ellipsis⟩ ⟨pattern⟩ ...) (⟨pattern⟩ ... ⟨pattern⟩ ⟨ellipsis⟩ ⟨pattern⟩ ... . ⟨pattern⟩) * #(⟨pattern⟩ ...) => same, only vector * #(⟨pattern⟩ ... ⟨pattern⟩ ⟨ellipsis⟩ ⟨pattern⟩ ...) *) module T = Types.Types let gen_sym root = let gen () = match Random.int (26 + 26 + 10) with | n when n < 26 -> int_of_char 'a' + n | n when n < 26 + 26 -> int_of_char 'A' + n - 26 | n -> int_of_char '0' + n - 26 - 26 in let gen _ = String.make 1 (char_of_int (gen ())) in Types.symbol (root ^ String.concat "" (Array.to_list (Array.init 5 gen))) ;; let rec is_matching_pattern sym pattern args matched = match pattern, args with (* literals and ellipses not handled, yet *) | ph :: pt, ah :: at -> (* print_endline " LIST <-> LIST"; *) if ph = "_" || (ph = Printer.print sym true && sym = ah) then is_matching_pattern sym pt at matched && true else (* print_endline (" ------> " ^ ph ^ " vs " ^ Printer.print ah true); *) is_matching_pattern sym pt at matched | ph :: pt, [] -> (* print_endline " LIST <-> []"; * print_endline (" ph: " ^ ph); * print_endline (" pt: " ^ String.concat "|" pt); *) if ph = "_" || ph = Printer.print sym true then is_matching_pattern sym pt [] matched && true else ph = "..." || List.hd pt = "..." | [], _ :: _ -> (* print_endline " [] <-> LIST"; *) false | _, _ -> matched ;; let ellipsis pattern template args = let has_ellipsis = try ignore (Str.search_forward (Str.regexp "...") (Printer.stringify pattern true) 0); true with | Not_found -> false in let ellipsis_substitutions = ref [] in let missing = List.length args - List.length pattern + if has_ellipsis then 1 else 0 in print_endline ("args: " ^ String.concat " " (List.map (fun x -> Printer.print x true) args)); print_endline ("missing: " ^ string_of_int missing); (* print_endline (" NEED TO ADD " ^ string_of_int missing ^ " PLACEHOLDERS"); *) match missing with | _ when missing = 0 || missing > 0 -> (* add arguments *) print_endline ("ADD " ^ string_of_int missing ^ " arguments"); for _ = 1 to missing do ellipsis_substitutions := !ellipsis_substitutions @ [ Printer.print (gen_sym "x") true ] done; let pattern_str = Str.global_replace (Str.regexp "\\.\\.\\.") (String.concat " " !ellipsis_substitutions) (Printer.stringify pattern true) in let template_str = Str.global_replace (Str.regexp "\\.\\.\\.") (String.concat " " !ellipsis_substitutions) (Printer.stringify template true) in (* let args_str = Printer.stringify args true in *) (* print_endline ("ellipsis: template: " ^ template_str ^ " args: " ^ args_str); *) "(" ^ pattern_str ^ ") " ^ template_str ^ ")" (* | _ when missing < 0 -> * (\* remove ellipsis and arg *\) * print_endline "REMOVE arguments"; * (\* let rgx = Str.regexp "[a-zA-Z0-9]+ \\.\\.\\." in *\) * let rgx = Str.regexp "[a-zA-Z0-9]+ \\.\\.\\." in * let pattern_str = Str.global_replace rgx "" (Printer.stringify pattern true) in * let template_str = Str.global_replace rgx "" (Printer.stringify pattern true) in * print_endline (" pattern: " ^ Printer.dump pattern); * print_endline (" pattern_str: " ^ pattern_str); * print_endline (" template: " ^ Printer.dump template); * print_endline (" template_str: " ^ template_str); * print_endline ("(" ^ pattern_str ^ ") " ^ template_str ^ ")"); * "(" ^ pattern_str ^ ") " ^ template_str ^ ")" *) | _ -> "(" ^ Printer.dump pattern ^ ") " ^ Printer.dump template ^ ")" ;; let sanitize_macro pattern template = try ignore (Str.search_forward (Str.regexp "...") (Printer.stringify pattern true) 0); let substitution = Printer.print (gen_sym "x") true in let pattern_str = Str.global_replace (Str.regexp "\\.\\.\\.") substitution (Printer.stringify pattern true) in let template_str = Str.global_replace (Str.regexp "\\.\\.\\.") substitution (Printer.stringify template true) in (* let args_str = Printer.stringify args true in *) (* print_endline ("ellipsis: template: " ^ template_str ^ " args: " ^ args_str); *) "(" ^ pattern_str ^ ") " ^ template_str ^ ")" with | Not_found -> "(" ^ Printer.dump pattern ^ ") " ^ Printer.dump template ^ ")" ;; let parse ast _ = print_endline ("\n\nREADING MACRO: " ^ String.concat " " ast); match ast with | [] -> raise End_of_file | macro :: _ -> print_endline (" macro: " ^ macro) ;; let hack_ellipsis prefix clause = let clauses = ref [] in (match clause with (* ((_ test1 test2 ...) (if test1 (_ test2 ...) #f)) *) (* | T.List { T.value = [ T.List { T.value = pattern; meta = _ }; T.List {T.value = [ transform ]; meta = _ } ]; meta = _ } -> *) | T.List { T.value = [ T.List { T.value = pattern; meta = _ }; T.List { T.value = transform; meta = _ } ]; meta = _ } -> let args = ref [] in for _ = 1 to 5 do args := !args @ [ gen_sym prefix ]; print_endline ("HAXXOR: " ^ prefix ^ ":: " ^ Printer.dump pattern ^ " :: " ^ Printer.dump transform); clauses := !clauses @ [ sanitize_macro pattern transform !args ] done (* needs to match ((_) #t) : LIST(LIST() ATOM) *) | T.List { T.value = [ T.List { T.value = pattern; meta = _ }; atom ]; meta = _ } -> print_endline ("FOUND CLAUSE WITH ATOM: " ^ Printer.print atom true ^ " pattern: " ^ Printer.dump pattern) | _ as x -> print_endline ("nope: " ^ Printer.print x true)); !clauses ;; (* print_endline (" head: " ^ Printer.print (List.hd clause) true); * print_endline (" tail: " ^ Printer.dump (List.tl clause)); *) (* print_endline ("H4CK3LL!P5!5: " ^ Printer.print (gen_sym prefix) true ^ ": " ^ Printer.dump clause); *) (* print_endline ("H4CK3LL!P5!5: " ^ Printer.print (gen_sym prefix) true ^ ": " ^ Printer.print clause true); *) (* clause *) (* this is a dirty hack *) let generate_patterns sym clauses = let prefix = Printer.print sym true in let sanitized = ref [] in let rec sanitize_clauses unsanitized = match unsanitized with | [ clause ] -> print_endline ("CLAUSE: " ^ Printer.print clause true); sanitized := !sanitized @ [ hack_ellipsis prefix clause ]; !sanitized | clause :: rest -> sanitized := !sanitized @ [ hack_ellipsis prefix clause ]; sanitize_clauses rest | [] -> !sanitized in sanitize_clauses clauses ;; let generate_variants sym _ patterns = let symbol = Printer.print sym true in let variants = ref Types.M9map.empty in let rec register_variants clauses = let new_sym = gen_sym symbol in match clauses with | [ pattern ] -> variants := Types.M9map.add new_sym pattern !variants; !variants | pattern :: rest -> variants := Types.M9map.add new_sym pattern !variants; register_variants rest | _ -> raise (Utils.Syntax_error "macro pattern registration botch") in register_variants patterns ;; let match_variant macro args = let vmatch = ref "" in (match macro with | T.Map { T.value = meta; meta = _ } -> (match Types.M9map.find Types.macro_variants meta with | T.Map { T.value = variant_list; meta = _ } -> Types.M9map.iter (fun k v -> print_endline (Printer.print k true ^ ": " ^ Printer.print v true); match v with | T.List { T.value = T.List { T.value = x; meta = _ } :: z; meta = _ } -> print_endline (" >>>> [" ^ string_of_int (List.length args) ^ "|" ^ string_of_int (List.length x) ^ "] " ^ Printer.dump x ^ " :: " ^ Printer.dump z); if List.length args = List.length x then vmatch := Printer.print (List.hd x) true | _ -> ()) variant_list | _ -> ()) | _ -> ()); !vmatch ;;