ref: 64583452c2d9c394432b2490c67ea17875ea65aa
dir: /macro.ml/
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
* root ^ (String.concat "" (Array.to_list (Array.init 5 gen))) *)
let rec is_matching_pattern sym pattern args matched =
match pattern, args with
(* literals not handled, yet *)
| ph :: pt, ah :: at -> print_endline " LIST <-> LIST";
if (ph = "_" || (ph = (Printer.print sym true) && ph = (Printer.print ah true))) then is_matching_pattern sym pt at matched && true else (print_endline " ------> foo"; is_matching_pattern sym pt at matched)
| ph :: pt, [] -> print_endline " LIST <-> []";
if (ph = "_" || ph = (Printer.print sym true)) then is_matching_pattern sym pt [] matched && true else false
| [], ah :: at -> print_endline " [] <-> LIST"; false
| _, _ -> matched
let lambdaize pattern template args =
match pattern, args with
| ph :: pt, ah :: at ->
Reader.read ("(lambda (" ^ (Printer.stringify pt false) ^ ") (" ^ (Printer.print template true) ^ ")" ^ (Printer.stringify args false) ^ ")")
| ph :: pt, [] ->
Reader.read ("((lambda (" ^ (Printer.stringify pt false) ^ ") " ^ (Printer.print template true) ^ "))")
| _ -> Reader.read ("((lambda () " ^ (Printer.print template true) ^ "))")
let rec expand ast env args sym meta =
print_endline ("\n\nTHIS IS A MACRO: " ^ Printer.print sym true);
print_endline (" META: " ^ Printer.print meta true);
print_endline (" ARGS: " ^ Printer.dump args);
print_endline (" AST: " ^ Printer.print ast true);
match meta with
| T.Map { T.value = m } ->
(try
let literals = Types.M9map.find Types.macro_literals m in
let transformers = Types.M9map.find Types.macro_transformers m in
print_endline
(" -- EVAL_MACRO: literals: "
^ Printer.print literals true
^ " transformers: "
^ Printer.print transformers true);
print_endline (" args: " ^ Printer.dump args);
let rec match_transform transforms =
match transforms with
| hd :: tl ->
print_endline (" transform: " ^ Printer.print hd true);
(match hd with
| T.List
{ T.value = [ T.List { T.value = pattern }; T.List { T.value = template } ] }
->
print_endline (" _ multi pattern: " ^ Printer.dump pattern); match_transform tl
| T.List { T.value = [ T.List { T.value = pattern }; atom ] } ->
print_endline (" _ single pattern: " ^ Printer.dump pattern);
print_endline ("matched?: " ^ (if is_matching_pattern sym (List.map (fun x -> Printer.print x true) pattern) args true then "yes" else "no"));
if is_matching_pattern sym (List.map (fun x -> Printer.print x true) pattern) args true
then atom else match_transform tl
(* then lambdaize pattern atom args else match_transform tl *)
| _ -> T.Nil) (* errors? *)
| [] -> T.Nil
in
match_transform (Core.seq transformers)
with
| Not_found -> T.Nil)
| _ -> T.Nil