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Hirrolot/a-main.ml

Created March 23, 2023 16:04
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A simple CPS conversion as in "Compiling with Continuations", Andrew W. Appel
Raw
a-main.ml
(* A variable identifier of the lambda language [term]. *)
type var = string [@@deriving eq]
(* The lambda language; direct style. *)
type term =
| Var of var
| Fix of (var * var list * term) list * term
| Appl of term * term list
| Record of term list
| Select of term * int
type cps_var =
(* Taken from the lambda term during CPS conversion. *)
| CLamVar of var
(* Generated uniquely during CPS conversion. *)
| CGenVar of int
[@@deriving eq]
(* The resulting CPS term. *)
type cps_term =
| CFix of (cps_var * cps_var list * cps_term) list * cps_term
| CAppl of cps_var * cps_var list
| CRecord of cps_var list * binder
| CSelect of cps_var * int * binder
| CHalt of cps_var
[@@deriving eq]
(* Binds a unique [cps_var] within [cps_term]. *)
and binder = cps_var * cps_term
(* Generates a unique CPS variable given the current [i]. *)
let gensym i =
let x = CGenVar !i in
i := !i + 1;
x
(* Converts [term] to [cps_term], applying [finish] to the resulting
CPS variable. *)
let rec convert gen finish = function
| Var x -> finish (CLamVar x)
| Fix (defs, m) -> CFix (List.map (convert_def gen) defs, convert gen finish m)
| Appl (f, args) ->
let ret_k = gensym gen in
let ret_k_x = gensym gen in
CFix
( [ (ret_k, [ ret_k_x ], finish ret_k_x) ],
f
|> convert gen (fun f_cps ->
args
|> convert_list gen (fun args_cps ->
CAppl (f_cps, args_cps @ [ ret_k ]))) )
| Record fields ->
fields
|> convert_list gen (fun fields_cps ->
let x = gensym gen in
CRecord (fields_cps, (x, finish x)))
| Select (m, i) ->
m
|> convert gen (fun m_cps ->
let x = gensym gen in
CSelect (m_cps, i, (x, finish x)))
(* Converts [term list] to [cps_var list] and applies [finish] to it. *)
and convert_list gen finish =
let rec go acc = function
| [] -> finish (List.rev acc)
| x :: xs -> x |> convert gen (fun x_cps -> go (x_cps :: acc) xs)
in
go []
(* Converts a single function definition to its CPS form. *)
and convert_def gen (f, params, m) =
let k = gensym gen in
( CLamVar f,
List.map (fun x -> CLamVar x) params @ [ k ],
m |> convert gen (fun m_cps -> CAppl (k, [ m_cps ])) )
(* Test CPS conversion. *)
let () =
let assert_convert t expected =
let convert = convert (ref 0) (fun x -> CHalt x) in
assert (equal_cps_term (convert t) expected)
in
(* [Var] *)
assert_convert (Var "a") (CHalt (CLamVar "a"));
(* [Fix] *)
assert_convert
(Fix ([ ("f", [ "x" ], Var "x"); ("g", [ "y" ], Var "y") ], Var "a"))
(CFix
( [
( CLamVar "f",
[ CLamVar "x"; CGenVar 0 ],
CAppl (CGenVar 0, [ CLamVar "x" ]) );
( CLamVar "g",
[ CLamVar "y"; CGenVar 1 ],
CAppl (CGenVar 1, [ CLamVar "y" ]) );
],
CHalt (CLamVar "a") ));
(* [Appl] *)
assert_convert
(Appl (Var "a", [ Var "b"; Var "c" ]))
(CFix
( [ (CGenVar 0, [ CGenVar 1 ], CHalt (CGenVar 1)) ],
CAppl (CLamVar "a", [ CLamVar "b"; CLamVar "c"; CGenVar 0 ]) ));
(* [Appl] list conversion. *)
assert_convert
(Appl (Var "a", [ Select (Var "b", 2); Select (Var "c", 3) ]))
(CFix
( [ (CGenVar 0, [ CGenVar 1 ], CHalt (CGenVar 1)) ],
CSelect
( CLamVar "b",
2,
( CGenVar 2,
CSelect
( CLamVar "c",
3,
( CGenVar 3,
CAppl (CLamVar "a", [ CGenVar 2; CGenVar 3; CGenVar 0 ]) )
) ) ) ));
(* [Record] *)
assert_convert
(Record [ Var "a"; Var "b"; Var "c" ])
(CRecord
( [ CLamVar "a"; CLamVar "b"; CLamVar "c" ],
(CGenVar 0, CHalt (CGenVar 0)) ));
(* [Record] list conversion. *)
assert_convert
(Record [ Select (Var "a", 2); Select (Var "b", 3); Select (Var "c", 4) ])
(CSelect
( CLamVar "a",
2,
( CGenVar 0,
CSelect
( CLamVar "b",
3,
( CGenVar 1,
CSelect
( CLamVar "c",
4,
( CGenVar 2,
CRecord
( [ CGenVar 0; CGenVar 1; CGenVar 2 ],
(CGenVar 3, CHalt (CGenVar 3)) ) ) ) ) ) ) ));
(* [Select] *)
assert_convert
(Select (Var "a", 2))
(CSelect (CLamVar "a", 2, (CGenVar 0, CHalt (CGenVar 0))));
(* A more complicated example. *)
assert_convert
(Fix
( [
("f", [ "a"; "b" ], Select (Var "a", 2));
("g", [ "a"; "b" ], Select (Var "b", 3));
],
Record [ Var "x"; Appl (Var "f", [ Var "y"; Select (Var "z", 4) ]) ] ))
(CFix
( [
( CLamVar "f",
[ CLamVar "a"; CLamVar "b"; CGenVar 4 ],
CSelect
(CLamVar "a", 2, (CGenVar 5, CAppl (CGenVar 4, [ CGenVar 5 ])))
);
( CLamVar "g",
[ CLamVar "a"; CLamVar "b"; CGenVar 6 ],
CSelect
(CLamVar "b", 3, (CGenVar 7, CAppl (CGenVar 6, [ CGenVar 7 ])))
);
],
CFix
( [
( CGenVar 0,
[ CGenVar 1 ],
CRecord
([ CLamVar "x"; CGenVar 1 ], (CGenVar 3, CHalt (CGenVar 3)))
);
],
CSelect
( CLamVar "z",
4,
( CGenVar 2,
CAppl (CLamVar "f", [ CLamVar "y"; CGenVar 2; CGenVar 0 ]) )
) ) ))
Raw
dune
(executable
(public_name cps_conv)
(name main)
(libraries cps_conv)
(preprocess
(pps ppx_deriving.eq)))
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