ref: 10a9adc7d9a6caa80c7bce6fb6df64ddd79bf8dc
dir: /m9.ml/
(*
Martian Scheme
Copyright 2020, McKay Marston
This is a project for me to
1) Get more familiar with OCaml.
2) Try to provide a natively supported scheme for Plan9.
It is heavily inspired by s9fes (http://www.t3x.org/s9fes), and the
make a lisp project (https://github.com/kanaka/mal)
*)
module T = Types.Types
let repl_env = Env.make (Some Core.base)
let rec quasiquote ast =
match ast with
| T.List { T.value = [ T.Symbol { T.value = "unquote" }; ast ] } -> ast
| T.Vector { T.value = [ T.Symbol { T.value = "unquote" }; ast ] } -> ast
| T.List
{ T.value =
T.List { T.value = [ T.Symbol { T.value = "unquote-splicing" }; head ] } :: tail
}
| T.Vector
{ T.value =
T.List { T.value = [ T.Symbol { T.value = "unquote-splicing" }; head ] } :: tail
} -> Types.list [ Types.symbol "concat"; head; quasiquote (Types.list tail) ]
| T.List { T.value = head :: tail } | T.Vector { T.value = head :: tail } ->
Types.list [ Types.symbol "cons"; quasiquote head; quasiquote (Types.list tail) ]
| ast -> Types.list [ Types.symbol "quote"; ast ]
;;
let rec eval_ast ast env =
match ast with
| T.Symbol s -> Env.get env ast
| T.List { T.value = xs; T.meta } ->
T.List { T.value = List.map (fun x -> eval x env) xs; T.meta }
| T.Vector { T.value = xs; T.meta } ->
T.Vector { T.value = List.map (fun x -> eval x env) xs; T.meta }
| _ -> ast
and eval ast env =
match ast with
| T.List { T.value = [] } -> ast
| T.List { T.value = [ T.Symbol { T.value = "define" }; key; expr ] } ->
let value = eval expr env in
Env.set env key value;
value
| T.List
{ T.value = [ T.Symbol { T.value = "let" }; T.Vector { T.value = bindings }; body ]
}
| T.List
{ T.value = [ T.Symbol { T.value = "let" }; T.List { T.value = bindings }; body ] }
->
let sub_env = Env.make (Some env) in
(* let rec bind_pairs pairs =
* match pairs with
* | T.List { T.value = pair } :: more ->
* (function
* | sym :: expr -> print_endline
* ("sym: " ^ String.concat " " (List.map (fun xs -> Printer.print xs true) sym));
* Env.set sub_env sym (eval expr sub_env);
* bind_pairs
* (\* print_endline
* * ("expr: " ^ String.concat " " (List.map (fun xs -> Printer.print xs true) expr)) *\)
* | [] -> ())
* (\* print_endline
* * ("pair: " ^ String.concat " " (List.map (fun xs -> Printer.print xs true) pair));
* * print_endline
* * ("more: " ^ String.concat " " (List.map (fun xs -> Printer.print xs true) more)); *\)
* (\* Env.set sub_env sym (eval expr sub_env); *\)
* (\* bind_pairs more *\)
* (\* | _ -> () *\)
* | _ -> pairs *)
(* | [] -> () *)
(* let rec bind_pairs = function
* | sym :: expr :: more ->
* (print_endline (Printer.print sym true));
* Env.set sub_env sym (eval expr sub_env);
* print_endline "foo";
* bind_pairs more;
* | x::[] -> raise (Reader.Syntax_error ("missing 'let' bindings '" ^ (Printer.print x true) ^ "'"))
* | [] -> () *)
let rec bind_pairs pairs =
match pairs with
| sym :: expr ->
print_endline ("sym: " ^ sym ^ " expr: " ^ (String.concat " " expr)); (* (List.map (fun xs -> Printer.print xs true) expr))); *)
Env.set sub_env (Types.symbol sym) (eval expr sub_env)
| [] -> ()
in
print_endline ("bind_pairs:body: " ^ Printer.print body true);
print_endline ("bind_pairs: bindings: " ^ String.concat "*" (List.map (fun xs -> Printer.print xs true) bindings));
print_endline ("bind_pairs:ast: " ^ Printer.print ast true);
bind_pairs bindings;
eval body sub_env
| T.List
{ T.value =
[ T.Symbol { T.value = "lambda" }; T.Vector { T.value = arg_names }; expr ]
}
| T.List
{ T.value =
[ T.Symbol { T.value = "lambda" }; T.List { T.value = arg_names }; expr ]
} ->
Types.proc (function args ->
let sub_env = Env.make (Some env) in
let rec bind_args a b =
match a, b with
| [ T.Symbol { T.value = "&" }; name ], args ->
Env.set sub_env name (Types.list args)
| name :: names, arg :: args ->
Env.set sub_env name arg;
bind_args names args
| [], [] -> ()
| _ -> raise (Reader.Syntax_error "wrong parameter count for lambda")
in
bind_args arg_names args;
eval expr sub_env)
| T.List { T.value = T.Symbol { T.value = "begin" } :: body } ->
List.fold_left (fun x expr -> eval expr env) T.Nil body
| T.List { T.value = [ T.Symbol { T.value = "if" }; cond; then_expr; else_expr ] } ->
if Types.to_bool (eval cond env) then eval then_expr env else eval else_expr env
| T.List { T.value = [ T.Symbol { T.value = "if" }; cond; then_expr ] } ->
if Types.to_bool (eval cond env) then eval then_expr env else T.Nil
| T.List { T.value = [ T.Symbol { T.value = "quote" }; ast ] } -> ast
| T.List { T.value = [ T.Symbol { T.value = "quasiquote" }; ast ] } ->
eval (quasiquote ast) env
| T.List _ ->
(match eval_ast ast env with
| T.List { T.value = T.Proc { T.value = f } :: args } -> f args
| _ as x ->
raise (Reader.Syntax_error ("\"" ^ Printer.print x true ^ "\" not a function")))
| _ -> eval_ast ast env
;;
let nameplate = "Martian9 Scheme v0.1"
let read str = Reader.read str
let print exp = Printer.print exp true
let rep str env = print (eval (read str) env)
let rec main =
try
Core.init Core.base;
Env.set
repl_env
(Types.symbol "eval")
(Types.proc (function
| [ ast ] -> eval ast repl_env
| _ -> T.Nil));
ignore
(rep
"(define load-file (lambda (f) (eval (read-string (string \"(begin \" (slurp f) \
\")\")))))"
repl_env);
if Array.length Sys.argv > 1
then print_endline (rep ("(load-file \"" ^ Sys.argv.(1) ^ "\")") repl_env)
else (
print_endline nameplate;
while true do
print_string "m9> ";
let line = read_line () in
try print_endline (rep line repl_env) with
| End_of_file -> ()
| Invalid_argument x ->
output_string stderr ("Invalid argument: " ^ x ^ "\n");
flush stderr
done)
with
| End_of_file -> ()
;;