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qmlEffects.ml
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qmlEffects.ml
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(*
Copyright © 2011 MLstate
This file is part of OPA.
OPA is free software: you can redistribute it and/or modify it under the
terms of the GNU Affero General Public License, version 3, as published by
the Free Software Foundation.
OPA is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. See the GNU Affero General Public License for
more details.
You should have received a copy of the GNU Affero General Public License
along with OPA. If not, see <http://www.gnu.org/licenses/>.
*)
(* depends *)
module List = BaseList
(* shorthands *)
module Q = QmlAst
let next =
let r = ref 0 in
fun () -> incr r; !r
module type S =
sig
type effect
val join_effect : effect -> effect -> effect
val effect_of : [`bypass of BslKey.t] -> effect
val no_effect : effect
val all_effects : effect
val to_string : effect -> string
end
module type E =
sig
type effect
type effects
type typ
val string_of_typ : typ -> string
val flatten_effect : effects -> effect
type env = (effects IdentMap.t * typ IdentMap.t)
val infer_code : ?initial_env:env -> (BslKey.t -> Q.ty) -> Q.code -> env
end
module EffectAnalysis(S:S) : E with type effect = S.effect =
struct
type level = int
type effect = S.effect
type var =
| Fresh of level ref * int
| Unified of typ
and typ =
| Var of var ref
| Dontcare
| Arrow of bool ref (* this boolean is really a hack
* because after lambda lifting we have
* poymorphic parameters and so we can't infer anymore
* this whole pass should really end up in the typer
*) * typ list * effects * typ
and effects = effect * effect_var ref
and effect_var =
| EFresh of level ref * int
| EUnified of effects
let join_effects = S.join_effect
let rec flatten_effect_aux (eff, v) =
match !v with
| EFresh (_,v) -> eff, v
| EUnified (eff2, v2) -> flatten_effect_aux (join_effects eff eff2, v2)
let flatten_effect e = fst (flatten_effect_aux e)
let rec string_of_typ = function
| Var v ->
(match !v with
| Fresh (lev,_) -> "_" ^ string_of_int !lev
| Unified ty -> string_of_typ ty)
| Dontcare ->
"dontcare"
| Arrow ({contents=true},_,_,_) ->
string_of_typ Dontcare
| Arrow ({contents=false},tyl,e,ty) ->
let sl = String.concat " -> " (List.map string_of_typ tyl) in
let s = string_of_typ ty in
let eff, var = flatten_effect_aux e in
"(" ^ sl ^ " " ^ string_of_int var ^ (S.to_string eff) ^ "->" ^ " " ^ s ^ ")"
let rec traverse_normalize tra = function
| Dontcare
| Var {contents = Fresh _ } as ty -> ty
| Var {contents = Unified ty} -> traverse_normalize tra ty
| Arrow ({contents=true},_,_,_) -> traverse_normalize tra Dontcare
| Arrow (ref_,typs,effects,typ) -> Arrow (ref_,List.map tra typs,traverse_normalize_eff effects,tra typ)
and traverse_normalize_eff ((l,v) as p) =
match !v with
| EFresh _ -> p
| EUnified (l2,v2) -> traverse_normalize_eff (join_effects l l2, v2)
let shallow_normalize ty = traverse_normalize (fun x -> x) ty
let rec normalize ty = traverse_normalize normalize ty
let rec occur_check v = function
| Dontcare -> ()
| Var v' ->
if v == v' then failwith "Cyclic unification"
else
(match !v' with
| Fresh _ -> ()
| Unified ty -> occur_check v ty)
| Arrow ({contents=true},_,_,_) ->
occur_check v Dontcare
| Arrow ({contents=false},tyl,_,ty) ->
List.iter (occur_check v) tyl;
occur_check v ty
let generic_level = -1
let rec set_max_level max_level = function
| Dontcare -> ()
| Arrow ({contents=true},_,_,_) -> set_max_level max_level Dontcare
| Arrow ({contents=false},tyl,_,ty) ->
List.iter (set_max_level max_level) tyl;
set_max_level max_level ty
| Var v ->
match !v with
| Fresh (lev,_) ->
if !lev <> generic_level then
if !lev > max_level then
lev := max_level
| Unified ty -> set_max_level max_level ty
let rec unify ty1 ty2 =
if ty1 == ty2 then () else (
let ty1 = shallow_normalize ty1 in
let ty2 = shallow_normalize ty2 in
if ty1 == ty2 then () else (
match ty1, ty2 with
| Var v1, Var v2 ->
let lev1 = (match !v1 with Fresh (lev1, _) -> lev1 | _ -> assert false) in
let lev2 = (match !v2 with Fresh (lev2, _) -> lev2 | _ -> assert false) in
v2 := Unified ty1;
lev1 := min !lev1 !lev2
| Var v, ty
| ty, Var v ->
occur_check v ty;
set_max_level (match !v with Fresh (lev, _) -> !lev | _ -> assert false) ty;
v := Unified ty
| Arrow (ref1,tyl1,(l1, r1),ret1), Arrow (ref2,tyl2,(l2, r2),ret2) ->
assert (not !ref1 && not !ref2);
if List.length tyl1 = List.length tyl2 then (
let lev1 = (match !r1 with EFresh (r,_) -> !r | _ -> assert false) in
let lev2 = (match !r2 with EFresh (r,_) -> !r | _ -> assert false) in
let r3 = ref (EFresh (ref (min lev1 lev2), next())) in
r1 := EUnified (l2, r3);
r2 := EUnified (l1, r3);
List.iter2 unify tyl1 tyl2;
unify ret1 ret2
) else (
(* see the comment about the meaning of the ref *)
ref1 := true;
ref2 := true;
)
| Dontcare, Dontcare ->
()
| Dontcare, Arrow ({contents=false},tyl,(_,r),ty)
| Arrow ({contents=false},tyl,(_,r),ty), Dontcare ->
(*Printf.printf "Loss of precision: unifying %s and %s\n%!"
(string_of_typ ty1) (string_of_typ ty2);*)
(match !r with
| EFresh (lev,_) ->
let r2 = ref (EFresh (lev, next())) in
r := EUnified (S.all_effects, r2);
List.iter (unify Dontcare) tyl;
unify Dontcare ty
| _ -> assert false)
| _, Arrow ({contents=true},_,_,_)
| Arrow ({contents=true},_,_,_), _ ->
assert false
)
)
let rec instantiate level ((varmap,effmap) as map) = function
| Dontcare -> map, Dontcare
| Var {contents = Fresh (this_level,i)} as ty ->
(try map, IntMap.find i varmap
with Not_found ->
if !this_level = generic_level then
let v = Var (ref (Fresh (ref level, next ()))) in
(IntMap.add i v varmap,effmap), v
else
map, ty)
| Var {contents = Unified ty} ->
instantiate level map ty
| Arrow ({contents=true},_,_,_) -> instantiate level map Dontcare
| Arrow ({contents=false},tyl,effects,ty) ->
let map, tyl = List.fold_left_map (instantiate level) map tyl in
let (varmap, effmap), ty = instantiate level map ty in
let effmap, effects = instantiate_eff level effmap effects in
(varmap, effmap), Arrow (ref false, tyl, effects, ty)
and instantiate_eff level effmap (l,v) =
match !v with
| EFresh (this_level,i) ->
(try effmap, (l, IntMap.find i effmap)
with Not_found ->
if !this_level = generic_level then
let v = ref (EFresh (ref level, next())) in
IntMap.add i v effmap, (l, v)
else
effmap, (l, v))
| EUnified (l2,v2) -> instantiate_eff level effmap (join_effects l l2, v2)
let instantiate level ty =
snd (instantiate level (IntMap.empty,IntMap.empty) ty)
let rec generalize level = function
| Var v ->
(match !v with
| Fresh (this_level,_) ->
if !this_level <> generic_level && !this_level > level then
this_level := generic_level
| Unified ty -> generalize level ty)
| Dontcare -> ()
| Arrow ({contents=true},_,_,_) -> generalize level Dontcare
| Arrow ({contents=false},tyl,effects,ty) ->
List.iter (generalize level) tyl;
generalize level ty;
generalize_eff level effects
and generalize_eff level (_,v) =
match !v with
| EFresh (this_level,_) ->
if !this_level <> generic_level && !this_level > level then
this_level := generic_level
| EUnified eff -> generalize_eff level eff
let next_var level = Var (ref (Fresh (ref level, next())))
let next_eff_var level = ref (EFresh (ref level, next()))
let infer_pattern env p level =
QmlAstWalk.Pattern.fold_down
(fun env -> function
| Q.PatVar (_, i) | Q.PatAs (_, _, i) ->
IdentMap.add i (next_var level) env
| _ -> env) env p
let rec convert_type varmap level = function
| Q.TypeArrow (tyl,ty) ->
Arrow (ref false,List.map (convert_type varmap level) tyl, (S.no_effect, next_eff_var level), convert_type varmap level ty)
| Q.TypeVar v ->
(try QmlTypeVars.TypeVarMap.find v !varmap
with Not_found ->
let v2 = next_var level in
varmap := QmlTypeVars.TypeVarMap.add v v2 !varmap;
v2)
| _ ->
Dontcare
(* need to know whether we are in covariant or contravariant positions
* but since no bypass ever returns a function, well ... *)
let rewrite_arrow level effect ty =
let varmap = ref QmlTypeVars.TypeVarMap.empty in
match ty with
| Q.TypeArrow (tyl,ty) ->
Arrow (ref false,List.map (convert_type varmap level) tyl, (effect, next_eff_var level), convert_type varmap level ty)
| ty -> convert_type varmap level ty
let rec infer bp env effect level e =
try
let ty =
match e with
| Q.Const _ -> Dontcare
| Q.Ident (_, i) ->
(try instantiate level (IdentMap.find i env)
with Not_found -> Printf.printf "Not found %s\n%!"
(Ident.to_string i);
assert false)
| Q.LetIn (_, iel,e) ->
let env =
List.fold_left
(fun new_env (i,e) ->
let ty = infer bp env effect (level+1) e in
generalize level ty;
IdentMap.add i ty new_env) env iel in
infer bp env effect (level+1) e
| Q.LetRecIn (_, iel, e) ->
let itys = List.map (fun (i,_) -> (i,next_var (level+1))) iel in
let env = List.fold_left (fun env (i,ty) -> IdentMap.add i ty env) env itys in
let tys' = List.map (fun (_,e) -> infer bp env effect (level+1) e) iel in
List.iter2 (fun (_,ty) ty' -> unify ty ty') itys tys';
List.iter (generalize level) tys';
infer bp env effect (level+1) e
| Q.Lambda (_, sl, e) ->
let styl = List.map (fun s -> (s, next_var level)) sl in
let env =
List.fold_left
(fun env (s,ty) -> IdentMap.add s ty env) env styl in
let effect = next_eff_var level in
let ty = infer bp env effect (level+1) e in
Arrow (ref false,List.map snd styl, (S.no_effect,effect), ty)
| Q.Directive (_, `partial_apply missing, [e], _) -> (
let missing = Option.get missing in
match e with
| Q.Apply (_, e, el) ->
(* no change on the current effect, since it is a partial
* application *)
let arrow_ty = infer bp env effect level e in
let tyl = List.map (infer bp env effect level) el in
let missing_types = List.init missing (fun _ -> next_var level) in
let ret_ty = next_var level in
let new_effect = (S.no_effect,next_eff_var level) in
unify (Arrow (ref false,tyl @ missing_types,new_effect,ret_ty)) arrow_ty;
Arrow (ref false,missing_types,new_effect,ret_ty)
| _ -> assert false
)
| Q.Apply (_, e, el) ->
let arrow_ty = infer bp env effect (level+1) e in
let tyl = List.map (infer bp env effect (level+1)) el in
let ret_ty = next_var level in
unify (Arrow (ref false,tyl,(S.no_effect,effect),ret_ty)) arrow_ty;
ret_ty
| Q.Match (_, e, pel) ->
(* not sure about that node *)
let ___TY = infer bp env effect (level+1) e in
let infer_rule env (p,e) =
let env = infer_pattern env p level in
infer bp env effect (level+1) e in
(match pel with
| [] -> assert false
| rule_ :: pel ->
let ty = infer_rule env rule_ in
List.iter
(fun rule_ ->
let ty' = infer_rule env rule_ in
unify ty ty')
pel;
ty)
| Q.Record (_, sel) ->
List.iter (fun (_s,e) -> ignore (infer bp env effect (level+1) e)) sel;
Dontcare
| Q.Dot (_, e, _s) ->
ignore (infer bp env effect (level+1) e);
Dontcare (* not quite good, will have troubles with higher order *)
| Q.ExtendRecord (_, _s, e1, e2) ->
ignore (infer bp env effect (level+1) e1);
ignore (infer bp env effect (level+1) e2);
Dontcare
| Q.Bypass (_, b) ->
(* call a bypass typer, and add side effect to the arrow *)
let qty = bp b in
let its_effect = S.effect_of (`bypass b) in
(*Format.printf "%s has type %a and effect %s@."
(BslKey.to_string b) QmlPrint.pp#ty qty (S.to_string its_effect);*)
rewrite_arrow level its_effect qty
| Q.Coerce (_, e, _) ->
infer bp env effect (level+1) e
| Q.Path (_, el, _) ->
List.iter (function
| Q.ExprKey e -> ignore (infer bp env effect (level+1) e)
| _ -> ()) el;
Dontcare
| Q.Directive (_, `fail, el, _) ->
List.iter (fun e -> ignore (infer bp env effect level e)) el;
next_var level
| Q.Directive (_, ( `restricted_bypass _
| #Q.type_directive
| `recval
| #Q.slicer_directive
| `partial_apply _
| `lifted_lambda _
| `full_apply _
| `assert_), l, _) -> (
match l with
| [e] -> infer bp env effect (level+1) e
| _ -> assert false
)
| Q.Directive (_, _, el, _) ->
(* there should be different categories here, we care about some directives
* and most of the time, the type is 'a -> 'a so we don't want to lose it! *)
List.iter (fun e -> ignore (infer bp env effect (level+1) e)) el;
Dontcare in
(*Format.printf "%a -> %s@." QmlPrint.pp#expr e (string_of_typ ty);*)
ty
with exn ->
let context = QmlError.Context.expr e in
QmlError.serror context "QmlEffect error@.";
raise exn
type env = (effects IdentMap.t * typ IdentMap.t)
let infer_code ?(initial_env=(IdentMap.empty, IdentMap.empty)) bp code =
List.fold_left
(fun ((_,env) as full_env) ->
function
| Q.NewVal (_,iel) ->
let level = 0 in
List.fold_left
(fun (env_effect,last_env) (i,e) ->
let effect = next_eff_var generic_level in
let ty = infer bp env effect (level+1) e in
generalize level ty;
let last_env = IdentMap.add i ty last_env in
let env_effect = IdentMap.add i (S.no_effect,effect) env_effect in
#<If:EFFECTS_SHOW> Printf.printf "%s has type %s with effect %s\n%!" (Ident.to_string i) (string_of_typ ty) (S.to_string (flatten_effect (S.no_effect,effect)))#<End>;
env_effect, last_env
) full_env iel
| Q.NewValRec (_,iel) ->
let level = 0 in
let itys = List.map (fun (i,_) -> (i,next_var (level+1))) iel in
let full_env = List.fold_left (fun (env_effect,env) (i,ty) -> (env_effect,IdentMap.add i ty env)) full_env itys in
let full_env, tys' = List.fold_left_map
(fun (env_effect,env) (i,e) ->
let effect = next_eff_var generic_level in
let ty = infer bp env effect (level+1) e in
let env = IdentMap.add i ty env in
let env_effect = IdentMap.add i (S.no_effect,effect) env_effect in
(env_effect, env), ty
) full_env iel in
List.iter2 (fun (_i,ty) ty' -> unify ty ty') itys tys';
List.iter (generalize level) tys';
#<If:EFFECTS_SHOW> List.iter (fun (i,ty) -> Printf.printf "%s has type %s\n%!" (Ident.to_string i) (string_of_typ ty)) itys#<End>;
full_env
| _ -> assert false
)
initial_env
code
end
let effect_of' = function
| `bypass s ->
(* FIXME: this reminds me the dark days when we have no bsl
and huge list of bypass floating around
it should be replaced by a bypass property
it affects the way bypass interacts slicer
two bypass with the exactly the same definition have different behaviour
which is totally misleading *)
match BslKey.to_string s with
| "bslpervasives_int_neg"
| "bslpervasives_int_add"
| "bslpervasives_int_sub"
| "bslpervasives_int_mul"
| "bslpervasives_int_div"
| "bslpervasives_float_neg"
| "bslpervasives_float_add"
| "bslpervasives_float_sub"
| "bslpervasives_float_mul"
| "bslpervasives_float_div"
| "bslstring_concat"
| "bslstring_of_int"
| "bsltime_local_format"
| "bslpervasives_compare_int"
| "bslpervasives_compare_string"
| "bslpervasives_compare_char"
| "bslpervasives_compare_float"
| "bslpervasives_int_cmp_eq"
| "bslpervasives_int_cmp_neq"
| "bslpervasives_int_cmp_leq"
| "bslpervasives_int_cmp_lneq"
| "bslpervasives_int_cmp_gneq"
| "bslpervasives_int_cmp_geq"
| "bslvalue_tsc_get"
| "bslpervasives_magic_id"
| "bslvalue_record_name_of_field"
| "bslvalue_record_field_of_name"
| "bslnumber_int_of_float"
| "bslnumber_int_of_string"
| "bslnumber_float_of_int"
| "bslpervasives_string_of_char"
| "bslnumber_float_to_string"
| "bslpervasives_dump"
| "bslvalue_record_fold_record"
| "bslvalue_record_fold_2_record"
| "bslvalue_record_empty_constructor"
| "bslvalue_record_add_field"
| "bslvalue_record_make_record"
| "bslvalue_record_make_simple_record"
| "bslnumber_math_abs_f"
| "bslnumber_math_abs_i"
| "bslnumber_math_acos"
| "bslnumber_math_asin"
| "bslnumber_math_atan"
| "bslnumber_math_ceil"
| "bslnumber_math_cos"
| "bslnumber_math_exp"
| "bslnumber_math_floor"
| "bslnumber_math_isnan"
| "bslnumber_math_is_infinite"
| "bslnumber_math_is_normal"
| "bslnumber_math_log"
| "bslnumber_math_sin"
| "bslnumber_math_sqrt_f"
| "bslnumber_math_sqrt_i"
| "bslnumber_math_tan"
| "bslnumber_int_ordering"
| "bslpervasives_webutils_server_side"
| "bslpervasives_aresameobject"
| "bslstring_check_match_literal"
| "bslstring_get"
| "bslpervasives_int_of_first_char"
| "bslnumber_int_op_asr"
| "bslnumber_int_op_lsr"
| "bslnumber_int_op_lsl"
| "bslnumber_int_op_lnot"
| "bslnumber_int_op_lxor"
| "bslnumber_int_op_lor"
| "bslnumber_int_op_land"
| "bslnumber_int_to_char"
| "bslpervasives_int_mod"
| "bslstring_sub"
| "bslstring_init" (* THIS ONE IS FALSE, no side effect if the given function
* has no side effect either *)
| "bslcactutf_cactutf_length"
| "bslstring_length"
| "sys_argv"
| "sys_argc"
->
`pure
| "bsltime_now" ->
`read
| "bslpervasives_print_endline"
| "bslpervasives_print_string"
| "bslpervasives_prerr_string"
| "bslpervasives_print_int"
| "bslpervasives_jlog" ->
`write
| "bslreference_create" ->
`alloc
| "bslpervasives_error" -> (* accepting to clean errors *)
`error
| _ -> `impure
module SideEffectS =
struct
type effect = bool
let join_effect = (||)
let no_effect = false
let all_effects = true
let effect_of x =
match effect_of' x with
| `pure | `alloc | `read | `error -> false
| `impure | `write -> true
let to_string = function
| true -> "+"
| false -> ""
end
module SlicerEffectS =
struct
include SideEffectS
let effect_of x =
match effect_of' x with
| `pure | `write | `error -> false
| `impure | `alloc | `read -> true
end
module SideEffect = EffectAnalysis(SideEffectS)
module SlicerEffect = EffectAnalysis(SlicerEffectS)