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live-vars.sml
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live-vars.sml
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structure LiveVars = struct
structure Visitor = ExprVisitorFn (structure S = UnderscoredExpr
structure T = UnderscoredExpr)
open UnderscoredExprShift
open Visitor
open VisitorUtil
open Util
open LongId
infixr 0 $
structure PV = PatternVisitor
structure Set = EVarSet
structure SetU = EVarSetU
(***************** the "count_binder" visitor **********************)
fun count_binder_expr_visitor_vtable cast () =
let
fun extend_i this (a, b, c, d) name = ((a+1, b, c, d), name)
fun extend_t this (a, b, c, d) name = ((a, b+1, c, d), name)
fun extend_c this (a, b, c, d) name = ((a, b, c+1, d), name)
fun extend_e this (a, b, c, d) name = ((a, b, c, d+1), name)
in
default_expr_visitor_vtable
cast
extend_i
extend_t
extend_c
extend_e
visit_noop
visit_noop
visit_noop
visit_noop
visit_noop
visit_noop
visit_noop
visit_noop
visit_noop
end
fun new_count_binder_expr_visitor params = new_expr_visitor count_binder_expr_visitor_vtable params
fun count_binder_decls b =
let
val visitor as (ExprVisitor vtable) = new_count_binder_expr_visitor ()
val ctx = env2ctx (0, 0, 0, 0)
val _ = visit_decls (#visit_decl vtable visitor) ctx b
in
!(#current ctx)
end
(***************** the "live_vars" visitor **********************)
fun visit_decls visit_decl ctx decls =
let
val decls = unTeles decls
val decls = List.concat $ mapr (visit_decl ctx) decls
in
Teles decls
end
fun live_vars_expr_visitor_vtable cast () =
let
val extend_i = extend_noop
val extend_t = extend_noop
val extend_c = extend_noop
val extend_e = extend_noop
val visit_cvar = visit_noop
val visit_mod_id = visit_noop
val visit_idx = visit_noop
val visit_sort = visit_noop
val visit_mtype = visit_noop
val visit_ty = visit_noop
val visit_kind = visit_noop
val visit_ptrn_constr_tag = visit_noop
fun visit_ibind this = visit_bind_simp (#extend_i (cast this) this)
fun visit_ibind_anno this = visit_bind_anno (#extend_i (cast this) this)
(* has_cont_var: a continuation variable will also be alive (which is invisible before CPS), so the number of live variables should be added by one *)
fun num_lvars (lvars, has_k, has_cont_var) = (Set.numItems (!lvars) + b2i has_cont_var, has_k)
fun set_has_k (lvars, _, has_cont_var) = (lvars, true, has_cont_var)
fun output lvars n = ((* println "output"; *)binop_ref (curry Set.add) lvars n)
fun output_set lvars s = Set.app (output lvars) s
fun add_AnnoLiveVars (bind, n, r) =
let
val (name, e) = unBindSimp bind
in
BindSimp (name, EAnnoLiveVars (e, n, r))
end
fun long_id_to_var data =
case data of
ID (n, _) => inl n
| QID ((m, _), (n, _)) => inr (m, n)
fun shift n x =
case x of
inl x => inl $ x + n
| inr _ => x
fun forget n s = Set.map (fn x => case x of inl x => inl $ x - n | inr _ => x) $ Set.filter (fn inl x => x >= n | inr _ => true) s
fun is_var_or_state e =
let
val f = is_var_or_state
in
case e of
EVar (x, (_, false)) => SOME $ SOME $ long_id_to_var x
| EState _ => SOME NONE
| EEI (EEIAscTime (), e, _) => f e
| EEI (EEIAscSpace (), e, _) => f e
| EET (EETAsc (), e, _) => f e
| _ => NONE
end
fun forget01_e_e a = forget_e_e 0 1 a
fun visit_e2 this env (e1, e2) =
let
val vtable = cast this
val lvars = #1 env
val env = set_has_k env
in
case is_var_or_state e1 of
NONE =>
let
val () = unop_ref (Set.map (shift 1)) lvars
val () = unop_ref (curry Set.add' $ inl 0) lvars
val e2 = shift_e_e e2
val e2 = #visit_expr vtable this env e2
val e2 = forget01_e_e e2
val () = unop_ref (forget 1) lvars
val e1 = #visit_expr vtable this env e1
in
(e1, e2)
end
| SOME x =>
let
val () = Option.app (fn x => unop_ref (fn s => Set.add (s, x)) lvars) x
val e2 = #visit_expr vtable this env e2
(* x will be used in the end, so it shouldn't be deleted *)
(* val () = Option.app (fn x => unop_ref (fn s => SetU.delete (s, x)) lvars) x *)
val e1 = #visit_expr vtable this env e1
in
(e1, e2)
end
end
fun visit_es_right this env es =
case es of
[] => []
| _ =>
let
val vtable = cast this
(* delegate to visit_e2 *)
val len = length es
fun to_adds es = foldl_nonempty (fn (e, acc) => EIntAdd (e, acc)) $ rev es
fun from_adds n e =
if n <= 1 then [e]
else
case e of
EBinOp (EBPrim (EBPIntAdd ()), e1, e2) => e1 :: from_adds (n-1) e2
| _ => raise Impossible "live-vars/visit_es()"
val e = #visit_expr vtable this env $ to_adds es
in
from_adds len e
end
fun visit_es_left this env es =
case es of
[] => []
| _ =>
let
val vtable = cast this
(* delegate to visit_e2 *)
val len = length es
fun to_adds es = foldl_nonempty (fn (e, acc) => EIntAdd (acc, e)) $ es
fun from_adds n e =
if n <= 1 then [e]
else
case e of
EBinOp (EBPrim (EBPIntAdd ()), e1, e2) => e2 :: from_adds (n-1) e1
| _ => raise Impossible "live-vars/visit_es()"
val e = #visit_expr vtable this env $ to_adds es
in
rev $ from_adds len e
end
fun visit_e3 this env (e1, e2, e3) =
case visit_es_right this env [e1, e2, e3] of
[e1, e2, e3] => (e1, e2, e3)
| _ => raise Impossible "live-vars/visit_e3()"
(* fun visit_e3 this env (e1, e2, e3) = *)
(* let *)
(* val vtable = cast this *)
(* (* delegate to visit_e2 *) *)
(* val e = #visit_expr vtable this env (EIntAdd (e1, EIntAdd (e2, e3))) *)
(* in *)
(* case e of *)
(* EBinOp (EBPrim (EBPIntAdd ()), e1, (EBinOp (EBPrim (EBPIntAdd ()), e2, e3))) => *)
(* (e1, e2, e3) *)
(* | _ => raise Impossible "live-vars/visit_e3()" *)
(* end *)
fun visit_expr this (env as (_, has_k, _)) data =
let
val vtable = cast this
val ret =
case data of
EVar data => #visit_EVar vtable this env data
| EConst data => #visit_EConst vtable this env data
| EEnv (name, r) => EEnv (name, r)
| EState data => EState data
| EUnOp data => #visit_EUnOp vtable this env data
| EBinOp data => #visit_EBinOp vtable this env data
| ETriOp data => #visit_ETriOp vtable this env data
| EEI data => #visit_EEI vtable this env data
| EET data => #visit_EET vtable this env data
| ET data => #visit_ET vtable this env data
| EAscState (e, st) =>
let
val st = StMap.map (#visit_idx vtable this env) st
val e = #visit_expr vtable this env e
in
T.EAscState (e, st)
end
| ENewArrayValues (w, t, es, r) => ENewArrayValues (w, #visit_mtype vtable this env t, visit_es_right this env es, r)
| EAbs data => #visit_EAbs vtable this env data
| EAbsI data => #visit_EAbsI vtable this env data
| EAppConstr data => #visit_EAppConstr vtable this env data
| ECase data => #visit_ECase vtable this env data
| ELet data => #visit_ELet vtable this env data
(* | ECaseSumbool data => #visit_ECaseSumbool vtable this env data *)
| EIfi (e, bind1, bind2, r) =>
let
val lvars = #1 env
val n_lvars = num_lvars env
val new_lvars = ref Set.empty
(* In the branches, there will be a live continuation variable. *)
val bind2 = visit_ibind this (#visit_expr vtable this) (new_lvars, false, true) bind2
val () = output_set lvars (!new_lvars)
val () = new_lvars := Set.empty
val bind1 = visit_ibind this (#visit_expr vtable this) (new_lvars, false, true) bind1
val () = output_set lvars (!new_lvars)
val env = set_has_k env
val e = #visit_expr vtable this env e
in
EIfi (e, bind1, add_AnnoLiveVars (bind2, n_lvars, r), r)
end
| EGet (x, es, r) =>
let
val (es, paths) = unzip es
val es = visit_es_left this env es
val es = zip (es, paths)
in
EGet (x, es, r)
end
| ESet (x, es, e, r) =>
(* | ESetModify (b, x, es, e, r) => *)
(* if b then *)
(* let *)
(* val e = ESetModify (false, x, es, (EApp (e, EGet (x, es, r))), r) *)
(* val e = #visit_expr vtable this env e *)
(* val (es, e, e2) = case e of *)
(* ESetModify (false, x, es, (EBinOp (EBApp (), e, e2)), r) => *)
(* (es, e, e2) *)
(* | _ => raise Impossible "live-vars/ESetModify/1" *)
(* val n_lvars = case e2 of *)
(* EUnOp (EUAnno (EALiveVars n_lvars), _, _) => n_lvars *)
(* | _ => raise Impossible "live-vars/ESetModify/2" *)
(* in *)
(* ESetModify (b, x, es, EAnnoLiveVars (e, n_lvars, r), r) *)
(* end *)
(* else *)
let
val (es, paths) = unzip es
val (_, es) = assert_cons $ visit_es_left this env $ [EState (x, r)] @ es @ [e]
val (es, e) = assert_last es
val es = zip (es, paths)
in
ESet (x, es, e, r)
end
| ERecord (fields, r) =>
let
val fields = sort cmp_str_fst $ SMap.listItemsi fields
val (names, es) = unzip fields
(* ERecord will be translated into ETuple which is processed together in CPS, so we should use visit_es_right here *)
val es = visit_es_right this env es
val fields = zip (names, es)
val fields = SMapU.fromList fields
in
ERecord (fields, r)
end
| ETuple es =>
let
val es = visit_es_right this env es
in
ETuple es
end
| EDispatch (ls, r) =>
T.EDispatch (mapr (fn (name, e, t1, t2) => (name, #visit_expr vtable this env e, t1, t2)) ls, r)
(* | EDebugLog e => *)
(* T.EDebugLog $ #visit_expr vtable this env e *)
in
ret
end
fun visit_var this (lvars, _, _) data =
(output lvars $ long_id_to_var data;
data)
fun visit_EVar this env data =
let
val n_lvars = num_lvars env
val vtable = cast this
val (var, eia) = data
val var = #visit_var vtable this env var
in
EAnnoLiveVars (EVar (var, eia), n_lvars, dummy)
end
fun visit_EAppI this env (e, i) =
let
val vtable = cast this
val env = set_has_k env
val i = #visit_idx vtable this env i
val e = #visit_expr vtable this env e
in
EEI (EEIAppI (), e, i)
end
fun visit_EAppT this env (e, t) =
let
val vtable = cast this
val env = set_has_k env
val t = #visit_mtype vtable this env t
val e = #visit_expr vtable this env e
in
EET (EETAppT (), e, t)
end
fun visit_EConst this env data =
let
val vtable = cast this
in
EConst data
end
fun visit_EUnOp this env data =
let
val vtable = cast this
val (opr, e, r) = data
val env = set_has_k env
val e = #visit_expr vtable this env e
in
EUnOp (opr, e, r)
end
fun visit_EBinOp this env (opr, e1, e2) =
let
val vtable = cast this
val data = (e1, e2)
in
case opr of
EBApp () => #visit_EApp vtable this env data
(* | EBPair () => #visit_EPair vtable this env data *)
| EBNew w => #visit_ENew vtable this env (w, data)
| EBRead w => #visit_ERead vtable this env (w, data)
| EBPrim (EBPIntAdd ()) => #visit_EAdd vtable this env data
| EBNat (EBNAdd ()) => #visit_ENatAdd vtable this env data
| _ =>
let
val (e1, e2) = visit_e2 this env (e1, e2)
in
EBinOp (opr, e1, e2)
end
end
fun visit_EApp this env (e1, e2) =
let
(* val () = println $ "lvars = " ^ (SetU.str_set (str_sum str_int (str_pair (id, str_int))) (!(#1 env))) *)
(* val () = println $ "has_cont_var = " ^ (str_bool (#3 env)) *)
val n_lvars = num_lvars env
(* val () = println $ "n_lvars = " ^ (str_int $ fst n_lvars) *)
val vtable = cast this
val (e1, e2) = visit_e2 this env (e1, e2)
in
EBinOp (EBApp (), e1, EAnnoLiveVars (e2, n_lvars, dummy))
end
fun visit_EAppConstr this env data =
let
val vtable = cast this
val ((var, eia), ts, is, e, ot) = data
val env = set_has_k env
val ot = Option.map (mapSnd (#visit_mtype vtable this env)) ot
val e = #visit_expr vtable this env e
val is = map (#visit_idx vtable this env) is
val ts = map (#visit_mtype vtable this env) ts
val var = #visit_cvar vtable this env var
in
EAppConstr ((var, eia), ts, is, e, ot)
end
(* fun visit_EPair this env data = *)
(* let *)
(* val vtable = cast this *)
(* val (e1, e2) = data *)
(* val (e1, e2) = visit_e2 this env (e1, e2) *)
(* in *)
(* EBinOp (EBPair (), e1, e2) *)
(* end *)
fun visit_EAdd this env data =
let
val vtable = cast this
val (e1, e2) = data
val (e1, e2) = visit_e2 this env (e1, e2)
in
EBinOp (EBAdd, e1, e2)
end
fun visit_ENatAdd this env data =
let
val vtable = cast this
val (e1, e2) = data
val (e1, e2) = visit_e2 this env (e1, e2)
in
EBinOp (EBNatAdd, e1, e2)
end
fun visit_ENew this env (w, (e1, e2)) =
let
val vtable = cast this
val (e1, e2) = visit_e2 this env (e1, e2)
in
EBinOp (EBNew w, e1, e2)
end
fun visit_ERead this env (w, (e1, e2)) =
let
val vtable = cast this
val (e1, e2) = visit_e2 this env (e1, e2)
in
EBinOp (EBRead w, e1, e2)
end
fun visit_ETriOp this env (opr, e1, e2, e3) =
case opr of
ETIte _ =>
let
val lvars = #1 env
val n_lvars = num_lvars env
val vtable = cast this
val new_lvars = ref Set.empty
(* In the branches, there will be a live continuation variable. *)
val e2 = #visit_expr vtable this (new_lvars, false, true) e2
val () = output_set lvars (!new_lvars)
val () = new_lvars := Set.empty
val e3 = #visit_expr vtable this (new_lvars, false, true) e3
val () = output_set lvars (!new_lvars)
val env = set_has_k env
val e1 = #visit_expr vtable this env e1
in
ETriOp (opr, e1, e2, EAnnoLiveVars (e3, n_lvars, dummy))
end
| _ =>
let
val vtable = cast this
val (e1, e2, e3) = visit_e3 this env (e1, e2, e3)
in
ETriOp (opr, e1, e2, e3)
end
fun visit_EEI this env data =
let
val vtable = cast this
val (opr, e, i) = data
val data = (e, i)
in
case opr of
EEIAppI () => #visit_EAppI vtable this env data
| EEIAscTime () => #visit_EAscTime vtable this env data
| EEIAscSpace () =>
EEI (EEIAscSpace (), #visit_expr vtable this env e, #visit_idx vtable this env i)
end
fun visit_EAscTime this env data =
let
val vtable = cast this
val (e, i) = data
val e = #visit_expr vtable this env e
val i = #visit_idx vtable this env i
in
EEI (EEIAscTime (), e, i)
end
fun visit_EET this env data =
let
val vtable = cast this
val (opr, e, t) = data
val data = (e, t)
in
case opr of
EETAppT () => #visit_EAppT vtable this env data
| EETAsc () => #visit_EAsc vtable this env data
| EETHalt _ =>
let
val lvars = #1 env
val () = lvars := Set.empty
val env = (lvars, true, false)
in
EET (opr, #visit_expr vtable this env e, #visit_mtype vtable this env t)
end
end
fun visit_EAsc this env data =
let
val vtable = cast this
val (e, t) = data
val e = #visit_expr vtable this env e
val t = #visit_mtype vtable this env t
in
EET (EETAsc (), e, t)
end
fun visit_ET this env data =
let
val vtable = cast this
val (opr, t, r) = data
val t = #visit_mtype vtable this env t
in
ET (opr, t, r)
end
fun get_num_ebind_pn pn = snd $ PV.count_binder_pn pn
fun visit_bind visit_body env bind =
let
val lvars = #1 env
val (pn, e) = unBind bind
val n = get_num_ebind_pn pn
val () = unop_ref (Set.map (shift n)) lvars
val e = visit_body env e
val () = unop_ref (forget n) lvars
in
Bind (pn, e)
end
fun visit_EAbs this env (st, bind, spec) =
let
val lvars = #1 env
val vtable = cast this
val spec = visit_option (visit_pair (#visit_idx vtable this) (#visit_idx vtable this)) env spec
val new_lvars = ref Set.empty
(* now there will be a live continuation variable *)
val bind = visit_bind (#visit_expr vtable this) (new_lvars, false, true) bind
val () = output_set lvars (!new_lvars)
val st = StMap.map (#visit_idx vtable this env) st
in
EAbs (st, bind, spec)
end
fun visit_EAbsI this (lvars, _, _) (bind, r) =
let
val vtable = cast this
val new_lvars = ref Set.empty
(* now there will be a live continuation variable *)
val bind = visit_ibind_anno this (#visit_sort vtable this) (#visit_expr vtable this) (new_lvars, false, true) bind
val () = output_set lvars (!new_lvars)
in
EAbsI (bind, r)
end
fun visit_return this env (t, i, j) =
let
val vtable = cast this
val t = Option.map (#visit_mtype vtable this env) t
val i = Option.map (#visit_idx vtable this env) i
val j = Option.map (#visit_idx vtable this env) j
in
(t, i, j)
end
fun visit_ECase this env (e, return, binds, r) =
let
val lvars = #1 env
val n_lvars = num_lvars env
val vtable = cast this
val new_lvars = ref Set.empty
val binds =
if length binds >= 2 then
map (fn bind =>
let
val () = new_lvars := Set.empty
(* In the branches, there will be a live continuation variable. *)
val bind = visit_bind (#visit_expr vtable this) (new_lvars, false, true) bind
val () = output_set lvars (!new_lvars)
in
bind
end
) binds
else
map (visit_bind (#visit_expr vtable this) env) binds
val return = visit_return this env return
val env = set_has_k env
val e = #visit_expr vtable this env e
val e = EAnnoLiveVars (e, n_lvars, r)
in
ECase (e, return, binds, r)
end
fun get_num_ebind_decls a = #4 $ count_binder_decls a
fun visit_ELet this (env as (lvars, _, _)) (return, bind, r) =
let
val vtable = cast this
val (decls, e) = unBind bind
val n = get_num_ebind_decls decls
val () = unop_ref (Set.map (shift n)) lvars
val e = #visit_expr vtable this env e
val env = set_has_k env
val decls = visit_decls (#visit_decl vtable this) (env2ctx env) decls
val bind = Bind (decls, e)
val return = visit_return this env return
in
ELet (return, bind, r)
end
(* fun visit_ECaseSumbool this env (e, bind1, bind2, r) = *)
(* let *)
(* val vtable = cast this *)
(* val bind1 = visit_ibind this (#visit_expr vtable this) env bind1 *)
(* val bind2 = visit_ibind this (#visit_expr vtable this) env bind2 *)
(* val env = set_has_k env *)
(* val e = #visit_expr vtable this env e *)
(* in *)
(* ECaseSumbool (e, bind1, bind2, r) *)
(* end *)
fun visit_decl this env data =
let
val vtable = cast this
in
case data of
DVal data => #visit_DVal vtable this env data
| DValPtrn data => #visit_DValPtrn vtable this env data
| DRec data => #visit_DRec vtable this env data
| DIdxDef data => #visit_DIdxDef vtable this env data
| DAbsIdx2 data => #visit_DAbsIdx2 vtable this env data
| DAbsIdx data => #visit_DAbsIdx vtable this env data
| DTypeDef data => #visit_DTypeDef vtable this env data
| DConstrDef data => #visit_DConstrDef vtable this env data
| DOpen data => #visit_DOpen vtable this env data
end
fun visit_ibinder this env name =
let
val vtable = cast this
val name = visit_binder (#extend_i vtable this) env name
in
name
end
fun visit_tbinder this env name =
let
val vtable = cast this
val name = visit_binder (#extend_t vtable this) env name
in
name
end
fun visit_cbinder this env name =
let
val vtable = cast this
val name = visit_binder (#extend_c vtable this) env name
in
name
end
fun visit_ebinder this (ctx : (Set.set ref * bool * bool) ctx) name =
let
val lvars = #1 $ !(#current ctx)
val () = unop_ref (forget 1) lvars
in
name
end
fun visit_DVal this ctx (name, bind, r) =
let
(* val () = println "visit_DVal" *)
val vtable = cast this
val name = visit_ebinder this ctx name
val (tbinders, e) = unBind $ unOuter bind
val e = #visit_expr vtable this (#outer ctx) e
val bind = Outer $ Bind (tbinders, e)
in
[DVal (name, bind, r)]
end
fun visit_DValPtrn this ctx (pn, e, r) =
let
val lvars = #1 $ !(#current ctx)
val vtable = cast this
val n = get_num_ebind_pn pn
val () = unop_ref (forget n) lvars
val e = visit_outer (#visit_expr vtable this) ctx e
in
[DValPtrn (pn, e, r)]
end
fun visit_map f env st = StMap.map (f env) st
fun get_num_ebind_rec_binds (_, stbinds) =
sum $ map (fn SortingST _ => 0
| TypingST pn => get_num_ebind_pn pn) $ unTeles $ unRebind stbinds
fun visit_DRec this ctx (name, bind, r) =
let
(* val () = println "visit_DRec" *)
val env = !(#current ctx)
val lvars = #1 env
val vtable = cast this
val new_lvars = ref Set.empty
val (p, body) = unBind $ unInner bind
val body =
visit_triple (visit_pair (visit_map $ #visit_idx vtable this)
(visit_map $ #visit_idx vtable this))
(visit_pair (#visit_mtype vtable this)
(visit_pair (#visit_idx vtable this)
(#visit_idx vtable this)))
(#visit_expr vtable this) (new_lvars, false, true) body
val n = get_num_ebind_rec_binds p
val () = unop_ref (forget n) new_lvars
val () = output_set lvars (!new_lvars)
val name = visit_ebinder this ctx name
val bind = Inner $ Bind (p, body)
in
[DRec (name, bind, r)]
end
fun visit_DIdxDef this env data =
let
val vtable = cast this
val (name, s, i) = data
val name = visit_ibinder this env name
val s = visit_outer (visit_option (#visit_sort vtable this)) env s
val i = visit_outer (#visit_idx vtable this) env i
in
[DIdxDef (name, s, i)]
end
fun visit_DAbsIdx2 this env data =
let
val vtable = cast this
val (name, s, i) = data
val name = visit_ibinder this env name
val s = visit_outer (#visit_sort vtable this) env s
val i = visit_outer (#visit_idx vtable this) env i
in
[DAbsIdx2 (name, s, i)]
end
fun visit_DAbsIdx this env data =
let
val vtable = cast this
val ((name, s, i), decls, r) = data
val name = visit_ibinder this env name
val s = visit_outer (#visit_sort vtable this) env s
val i = visit_outer (#visit_idx vtable this) env i
val decls = visit_rebind (visit_decls (#visit_decl vtable this)) env decls
in
[DAbsIdx ((name, s, i), decls, r)]
end
fun visit_DTypeDef this env data =
let
(* val () = println "default visit_DTypeDef" *)
val vtable = cast this
val (name, t) = data
val name = visit_tbinder this env name
val t = visit_outer (#visit_mtype vtable this) env t
val cnames = map (Binder o CName) $ get_constr_names $ unOuter t
val cnames = visit_list (visit_cbinder this) env cnames
in
[DTypeDef (name, t)]
end
fun visit_DConstrDef this env data =
let
val vtable = cast this
val (name, x) = data
val name = visit_cbinder this env name
val x = visit_outer (#visit_cvar vtable this) env x
in
[DConstrDef (name, x)]
end
fun visit_scoping_ctx m this ctx (sctx, kctx, cctx, tctx) =
let
val _ = visit_list (visit_ibinder this) ctx $ rev sctx
val _ = visit_list (visit_tbinder this) ctx $ rev kctx
val _ = visit_list (visit_cbinder this) ctx $ rev cctx
val _ = visit_list (visit_ebinder this) ctx $ rev tctx
val (m, _) = unInner m
val lvars = #1 $ !(#current ctx)
(* 'open' touches all evars in the module, so all of them should be counted as live evars *)
val () = appi (fn (i, _) => output lvars $ inr (m, i)) tctx
in
(sctx, kctx, cctx, tctx)
end
fun visit_DOpen this ctx (m, scp) =
let
val vtable = cast this
val m = visit_inner (#visit_mod_id vtable this) ctx m
val scp = Option.map (visit_scoping_ctx m this ctx) scp
in
[DOpen (m, scp)]
end
fun visit_cvar_tag this env data =
let
val vtable = cast this
in
visit_pair (#visit_cvar vtable this) (#visit_ptrn_constr_tag vtable this) env data
end
fun this_impls_ptrn_visitor_interface this =
let
val vtable = cast this
in
{
visit_ptrn = #visit_ptrn vtable,
visit_PnVar = #visit_PnVar vtable,
visit_PnTT = #visit_PnTT vtable,
(* visit_PnPair = #visit_PnPair vtable, *)
visit_PnAlias = #visit_PnAlias vtable,
visit_PnAnno = #visit_PnAnno vtable,
visit_PnConstr = #visit_PnConstr vtable,
visit_cvar = visit_cvar_tag,
visit_mtype = #visit_mtype vtable,
extend_i = #extend_i vtable,
extend_e = #extend_e vtable
}
end
val pv_vtable =
PV.default_ptrn_visitor_vtable
this_impls_ptrn_visitor_interface
extend_i
extend_e
visit_cvar_tag
visit_mtype
fun visit_sgn this env data =
let
val vtable = cast this
val (specs, r) = data
val specs = unTeles $ visit_tele (#visit_spec vtable this) env $ Teles specs
in
(specs, r)
end
fun visit_spec this env data =
let
val vtable = cast this
in
case data of
SpecVal data => #visit_SpecVal vtable this env data
| SpecIdx data => #visit_SpecIdx vtable this env data
| SpecType data => #visit_SpecType vtable this env data
| SpecTypeDef data => #visit_SpecTypeDef vtable this env data
end
fun visit_SpecVal this env data =
let
val vtable = cast this
val (ename, t) = data
val ename = unBinderName $ visit_ebinder this env $ EBinder ename
val t = unOuter $ visit_outer (#visit_ty vtable this) env $ Outer t
in
SpecVal (ename, t)
end
fun visit_SpecIdx this env data =
let
val vtable = cast this
val (iname, s) = data
val iname = unBinderName $ visit_ibinder this env $ IBinder iname
val s = unOuter $ visit_outer (#visit_sort vtable this) env $ Outer s
in
SpecIdx (iname, s)
end
fun visit_SpecType this env data =
let
val vtable = cast this
val (tname, k) = data
val tname = unBinderName $ visit_tbinder this env $ TBinder tname
val k = unOuter $ visit_outer (#visit_kind vtable this) env $ Outer k
in
SpecType (tname, k)
end
fun visit_SpecTypeDef this env data =
let
val vtable = cast this
val (tname, t) = data
val tname = unBinderName $ visit_tbinder this env $ TBinder tname
val t = unOuter $ visit_outer (#visit_mtype vtable this) env $ Outer t
val cnames = map (Binder o CName) $ get_constr_names t
val cnames = visit_list (visit_cbinder this) env cnames
in
SpecTypeDef (tname, t)
end
fun visit_mod this env data =
let
val vtable = cast this
in
case data of
ModComponents data => #visit_ModComponents vtable this env data
| ModSeal data => #visit_ModSeal vtable this env data
| ModTransparentAsc data => #visit_ModTransparentAsc vtable this env data
end
fun visit_ModComponents this env data =
let
val vtable = cast this
val (decls, r) = data
val decls = unTeles $ visit_decls (#visit_decl vtable this) env $ Teles decls
in
ModComponents (decls, r)
end
fun copy_ctx (ctx : 'env ctx) =
{outer = #outer ctx, current = copy_ref $ #current ctx}
fun visit_ModSeal this ctx data =
let
val vtable = cast this
val (m, sg) = data
val ctx' = copy_ctx ctx
val m = #visit_mod vtable this ctx' m
val sg = #visit_sgn vtable this ctx sg
in
ModSeal (m, sg)
end
fun visit_ModTransparentAsc this ctx data =
let
val vtable = cast this
val (m, sg) = data
val ctx' = copy_ctx ctx
val m = #visit_mod vtable this ctx m
val sg = #visit_sgn vtable this ctx' sg
in
ModTransparentAsc (m, sg)
end
in
{
visit_expr = visit_expr,
visit_EVar = visit_EVar,
visit_EConst = visit_EConst,
visit_EUnOp = visit_EUnOp,
visit_EBinOp = visit_EBinOp,
visit_ETriOp = visit_ETriOp,
visit_EEI = visit_EEI,
visit_EET = visit_EET,
visit_ET = visit_ET,
visit_EAbs = visit_EAbs,
visit_EAbsI = visit_EAbsI,
visit_EAppConstr = visit_EAppConstr,
visit_ECase = visit_ECase,
visit_ELet = visit_ELet,
(* visit_ECaseSumbool = visit_ECaseSumbool, *)
visit_decl = visit_decl,
visit_DVal = visit_DVal,
visit_DValPtrn = visit_DValPtrn,
visit_DRec = visit_DRec,
visit_DIdxDef = visit_DIdxDef,
visit_DAbsIdx2 = visit_DAbsIdx2,
visit_DAbsIdx = visit_DAbsIdx,
visit_DTypeDef = visit_DTypeDef,
visit_DConstrDef = visit_DConstrDef,
visit_DOpen = visit_DOpen,
visit_ptrn = #visit_ptrn pv_vtable,
visit_PnVar = #visit_PnVar pv_vtable,
visit_PnTT = #visit_PnTT pv_vtable,
(* visit_PnPair = #visit_PnPair pv_vtable, *)
visit_PnAlias = #visit_PnAlias pv_vtable,
visit_PnAnno = #visit_PnAnno pv_vtable,
visit_PnConstr = #visit_PnConstr pv_vtable,
visit_sgn = visit_sgn,
visit_spec = visit_spec,
visit_mod = visit_mod,
visit_ty = visit_ty,
visit_kind = visit_kind,
visit_SpecVal = visit_SpecVal,
visit_SpecIdx = visit_SpecIdx,
visit_SpecType = visit_SpecType,
visit_SpecTypeDef = visit_SpecTypeDef,
visit_ModComponents = visit_ModComponents,
visit_ModSeal = visit_ModSeal,
visit_ModTransparentAsc = visit_ModTransparentAsc,
visit_EApp = visit_EApp,
(* visit_EPair = visit_EPair, *)
visit_EAdd = visit_EAdd,
visit_ENatAdd = visit_ENatAdd,
visit_ENew = visit_ENew,
visit_ERead = visit_ERead,
visit_EAppT = visit_EAppT,
visit_EAsc = visit_EAsc,
visit_EAppI = visit_EAppI,
visit_EAscTime = visit_EAscTime,
visit_var = visit_var,
visit_cvar = visit_cvar,
visit_mod_id = visit_mod_id,
visit_idx = visit_idx,
visit_sort = visit_sort,
visit_mtype = visit_mtype,
visit_ptrn_constr_tag = visit_ptrn_constr_tag,
extend_i = extend_i,
extend_t = extend_t,
extend_c = extend_c,
extend_e = extend_e
}
end
fun new_live_vars_expr_visitor params = new_expr_visitor live_vars_expr_visitor_vtable params
fun live_vars_e b =
let
val lvars = ref Set.empty
val visitor as (ExprVisitor vtable) = new_live_vars_expr_visitor ()
val b = #visit_expr vtable visitor (lvars, true, false) b
in
(b, !lvars)
end
fun live_vars_decls b =
let
val lvars = ref Set.empty
val visitor as (ExprVisitor vtable) = new_live_vars_expr_visitor ()
val b = visit_decls (#visit_decl vtable visitor) (env2ctx (lvars, true, false)) b
in
(b, !lvars)
end
end