(* NOTE: in previous models foldl & foldr are probably spapped <- TODO: fix ? *) module Relational = struct open GT open OCanren open OCanren.Std type data_ground = Nat.ground (* with show, gmap *) [@@deriving gt ~options:{ show; gmap }] type data_logic = Nat.logic [@@deriving gt ~options:{ show; gmap }] type data_injected = Nat.injected module ReadCap = struct [@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"] [%%ocanren_inject type nonrec t = Rd | NRd [@@deriving gt ~options:{ show; gmap }] type nonrec ground = t ] end module WriteCap = struct [@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"] [%%ocanren_inject type nonrec t = AlwaysWr | MayWr | NeverWr [@@deriving gt ~options:{ show; gmap }] type nonrec ground = t ] end module CopyCap = struct [@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"] [%%ocanren_inject type nonrec t = Rf | Cp [@@deriving gt ~options:{ show; gmap }] type nonrec ground = t ] end module InCap = struct [@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"] [%%ocanren_inject type nonrec t = In | NIn [@@deriving gt ~options:{ show; gmap }] type nonrec ground = t ] end module OutCap = struct [@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"] [%%ocanren_inject type nonrec t = Out | NOut [@@deriving gt ~options:{ show; gmap }] type nonrec ground = t ] end module Mode = struct [@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"] [%%ocanren_inject type nonrec ('i, 'o) t = Mode of 'i * 'o [@@deriving gt ~options:{ show; gmap }] type nonrec ground = (InCap.ground, OutCap.ground) t ] (* constructors *) let n_val = let open InCap in let open OutCap in ocanren { Mode (NIn, NOut) } let i_val = let open InCap in let open OutCap in ocanren { Mode (In, NOut) } let o_val = let open InCap in let open OutCap in ocanren { Mode (NIn, Out) } let io_val = let open InCap in let open OutCap in ocanren { Mode (In, Out) } (* accessors *) let is_ino m = let open InCap in ocanren { fresh o_ in m == Mode (In, o_) } let is_not_ino m = let open InCap in ocanren { fresh o_ in m == Mode (NIn, o_) } let is_outo m = let open OutCap in ocanren { fresh i_ in m == Mode (i_, Out) } let is_not_outo m = let open OutCap in ocanren { fresh i_ in m == Mode (i_, NOut) } (* module Test = struct *) (* @type answer = logic GT.list with show *) (* let test _ = show(answer) (Stream.take (run q (fun q -> let open InCap in *) (* let open OutCap in *) (* ocanren {q == Mode (In, NOut)}) *) (* (fun q -> q#reify reify))) *) (* end *) end module Path = struct [@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"] [%%ocanren_inject type nonrec ('d, 'p) t = VarP of 'd | DerefP of 'p | AccessP of 'p * 'd [@@deriving gt ~options:{ show; gmap }] type ground = (Nat.ground, ground) t ] end module Type = struct [@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"] [%%ocanren_inject type nonrec ('r, 'w, 'c, 't, 'tl, 'mtl) t = UnitT of 'r * 'w | RefT of 'c * 't | TupleT of 'tl | FunT of 'mtl [@@deriving gt ~options:{ show; gmap }] type ground = (ReadCap.ground, WriteCap.ground, CopyCap.ground, ground, ground List.ground, (Mode.ground * ground) List.ground) t ] end (* moded type - no separated type ? *) module Expr = struct [@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"] [%%ocanren_inject type nonrec ('d, 'p, 'el) t = UnitE | PathE of 'p | RefE of 'd | TupleE of 'el [@@deriving gt ~options:{ show; gmap }] type ground = (Nat.ground, Path.ground, ground List.ground) t ] end module Stmt = struct [@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"] [%%ocanren_inject type nonrec ('p, 'el, 's) t = SkipS | CallS of 'p * 'el | WriteS of 'p | ReadS of 'p | SeqS of 's * 's | ChoiceS of 's * 's [@@deriving gt ~options:{ show; gmap }] type ground = (Path.ground, Expr.ground List.ground, ground) t ] end (* TODO: list of 3 is not impelmented ?, replaced with two lists for now *) module Decl = struct [@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"] [%%ocanren_inject type nonrec ((* 'd, *) 't, 'e, (* 'dl, *) 'mtl, 's) t = VarD of (* 'd * *) 't | FunD of (* 'd * 'dl * *) 'mtl * 's [@@deriving gt ~options:{ show; gmap }] type ground = ((* Nat.ground, *) Type.ground, Expr.ground, (* Nat.ground List.ground, *) (Mode.ground * Type.ground) List.ground, Stmt.ground) t ] end module Prg = struct [@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"] [%%ocanren_inject type nonrec ('dl, 's) t = Prg of 'dl * 's [@@deriving gt ~options:{ show; gmap }] type nonrec ground = (Decl.ground List.ground, Stmt.ground) t ] end (* NOTE: deepvalue - not used (?) *) module MemVal = struct [@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"] [%%ocanren_inject type nonrec t = ZeroMV | SmthMV | BotMV [@@deriving gt ~options:{ show; gmap }] type ground = t ] end module ReadVal = struct [@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"] [%%ocanren_inject type nonrec t = ZeroRV | OneRV | TopRV [@@deriving gt ~options:{ show; gmap }] type ground = t ] end module WriteVal = struct [@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"] [%%ocanren_inject type nonrec t = ZeroWV | SmthWV | OneWV [@@deriving gt ~options:{ show; gmap }] type ground = t ] end module Value = struct [@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"] [%%ocanren_inject type nonrec ('vm, 'vr, 'vw, 'd, 'vl) t = UnitV of 'vm * 'vr * 'vw | FunV | RefV of 'd | TupleV of 'vl [@@deriving gt ~options:{ show; gmap }] type ground = (MemVal.ground, ReadVal.ground, WriteVal.ground, Nat.ground, ground List.ground) t ] end module RevPath = struct [@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"] [%%ocanren_inject type nonrec ('d, 'p) t = VarRP | DerefRP of 'p | AccessRP of 'p * 'd [@@deriving gt ~options:{ show; gmap }] type ground = (Nat.ground, ground) t ] end module Action = struct [@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"] [%%ocanren_inject type nonrec t = ReadA | AlwaysWriteA | MayWriteA [@@deriving gt ~options:{ show; gmap }] type ground = t ] end (* --- *) module MemEnv = struct [@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"] [%%ocanren_inject type nonrec ('vl, 'd) t = MemEnv of 'vl * 'd [@@deriving gt ~options:{ show; gmap }] type nonrec ground = (Value.ground List.ground, Nat.ground) t ] end module TypesEnv = struct [@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"] [%%ocanren_inject type nonrec 'dtl t = TypesEnv of 'dtl [@@deriving gt ~options:{ show; gmap }] type nonrec ground = ((Nat.ground * Type.ground) List.ground) t ] end module ValsEnv = struct [@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"] [%%ocanren_inject type nonrec 'ddl t = ValsEnv of 'ddl [@@deriving gt ~options:{ show; gmap }] type nonrec ground = ((Nat.ground * Nat.ground) List.ground) t ] end module StEnv = struct [@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"] [%%ocanren_inject type nonrec ('mem, 'types, 'vals) t = StEnv of 'mem * 'types * 'vals [@@deriving gt ~options:{ show; gmap }] type nonrec ground = (MemEnv.ground, TypesEnv.ground, ValsEnv.ground) t ] end (* --- *) (* - utils *) let rec list_replaceo xs id value ys = ocanren { (* xs == [] & ys == [] | (* NOTE: error *) *) { fresh x, xs' in xs == x :: xs' & id == Nat.o & ys == value :: xs' } | { fresh x, xs', id', ys' in xs == x :: xs' & id == Nat.s id' & ys == x :: ys' & list_replaceo xs' id' value ys' } } let rec list_ntho xs id x' = ocanren { (* xs == [] | (* NOTE: error *) *) { fresh y', xs' in id == Nat.o & y' :: xs' == xs & x' == y' } | { fresh id', y', xs' in Nat.s id' == id & y' :: xs' == xs & list_ntho xs' id' x' } } let rec list_not_membero xs x = ocanren { xs == [] | { fresh x', xs' in xs == x' :: xs' & x' =/= x & list_not_membero xs' x } } let rec list_foldro f acc xs acc' = ocanren { xs == [] & acc' == acc | { fresh x', xs', acc_upd in xs == x' :: xs' & list_foldro f acc xs' acc_upd & f acc_upd x' acc' } } let rec list_foldlo f acc xs acc' = ocanren { xs == [] & acc' == acc | { fresh x', xs', acc_upd in xs == x' :: xs' & f acc x' acc_upd & list_foldlo f acc_upd xs' acc' } (* TODO: inf search on swap, investigate *) } let rec list_foldl2o f acc xs ys acc' = ocanren { xs == [] & ys == [] & acc' == acc | { fresh x', xs', y', ys', acc_upd in xs == x' :: xs' & ys == y' :: ys' & f acc x' y' acc_upd & list_foldl2o f acc_upd xs' ys' acc' } } let rec list_foldr2o f acc xs ys acc' = ocanren { xs == [] & ys == [] & acc' == acc | { fresh x', xs', y', ys', acc_upd in xs == x' :: xs' & ys == y' :: ys' & list_foldr2o f acc xs' ys' acc_upd & f acc_upd x' y' acc' } } let rec list_foldl3o f acc xs ys zs acc' = ocanren { xs == [] & ys == [] & zs == [] & acc' == acc | { fresh x', xs', y', ys', z', zs', acc_upd in xs == x' :: xs' & ys == y' :: ys' & zs == z' :: zs' & f acc x' y' z' acc_upd & list_foldl3o f acc_upd xs' ys' zs' acc' } } let rec list_foldr3o f acc xs ys zs acc' = ocanren { xs == [] & ys == [] & zs == [] & acc' == acc | { fresh x', xs', y', ys', z', zs', acc_upd in xs == x' :: xs' & ys == y' :: ys' & zs == z' :: zs' & list_foldr3o f acc xs' ys' zs' acc_upd & f acc_upd x' y' z' acc' } } let rec list_zip_witho f xs ys zs = ocanren { { fresh x, xs', y, ys', z, zs' in xs == x :: xs' & ys == y :: ys' & zs == z :: zs' & f x y z & list_zip_witho f xs' ys' zs' } | { fresh x, xs' in xs == x :: xs' & ys == [] & zs == [] } | { fresh y, ys' in xs == [] & ys == y :: ys' & zs == [] } | { xs == [] & ys == [] & zs == [] } } let rec list_checko f xs = ocanren { { xs == [] } | { fresh x', xs' in xs == x' :: xs' & f x' & list_checko f xs' } } (* NOTE: unrequired ? *) (* let list_map2o f xs ys zs = ocanren { *) (* { xs == [] & ys == [] } | *) (* { fresh x', xs', y', ys', z', zs' in *) (* xs == x' :: xs' & *) (* ys == y' :: ys' & *) (* f x' y' z' *) (* list_map2o f xs' ys' zs' & *) (* zs == z' :: zs' } *) (* } *) (* - state utils *) let types_assoco id types tp = let open TypesEnv in ocanren { fresh tps in types == TypesEnv tps & List.assoco id tps tp } let vals_assoco id vals v = let open ValsEnv in ocanren { fresh vs in vals == ValsEnv vs & List.assoco id vs v } let types_addo types x tp types' = let open TypesEnv in ocanren { fresh tps in types == TypesEnv tps & types' == TypesEnv ((Std.pair x tp) :: tps) } let vals_addo vals x v vals' = let open ValsEnv in ocanren { fresh vs in vals == ValsEnv vs & vals' == ValsEnv ((Std.pair x v) :: vs) } (* --- *) let mem_geto mem id v = let open MemEnv in ocanren { fresh mem_data, mem_len, rev_id in MemEnv (mem_data, mem_len) == mem & Nat.addo (Nat.s rev_id) id mem_len & list_ntho mem_data rev_id v } let mem_addo mem v mem_with_id' = let open MemEnv in ocanren { fresh mem_data, mem_len, mem' in MemEnv (mem_data, mem_len) == mem & mem' == MemEnv (v :: mem_data, Nat.s mem_len) & Std.pair mem' mem_len == mem_with_id' } let mem_seto mem id v mem' = let open MemEnv in ocanren { fresh mem_data, mem_len, rev_id, mem_data' in MemEnv (mem_data, mem_len) == mem & Nat.addo (Nat.s rev_id) id mem_len & list_replaceo mem_data rev_id v mem_data' & MemEnv (mem_data', mem_len) == mem' } let is_trivial_vo v = let open Value in ocanren { fresh v_m, v_r, v_w in v == UnitV (v_m, v_r, v_w) } let rec pathvaro p x = let open Path in ocanren { p == VarP x | { fresh p' in p == DerefP p' & pathvaro p' x } | { fresh p', _id in p == AccessP (p', _id) & pathvaro p' x } } let rec pathrevo p rp rp' = let open Path in let open RevPath in ocanren { { fresh _x in p == VarP _x & rp == rp' } | { fresh p' in p == DerefP p' & pathrevo p' (DerefRP rp) rp' } | { fresh p', id in p == AccessP (p', id) & pathrevo p' (AccessRP (rp, id)) rp' } } let rec pathtypeo types p tp = let open Path in let open Type in ocanren { { fresh x in p == VarP x & types_assoco x types tp } | { fresh p', tp', _c in p == DerefP p' & pathtypeo types p' tp' & tp' == RefT (_c, tp) } | { fresh p', id', tp', tps in p == AccessP (p', id') & pathtypeo types p' tp' & tp' == TupleT tps & list_ntho tps id' tp } } let rec pathvalo mem vals p v = let open Path in let open Value in ocanren { { fresh x, id in p == VarP x & vals_assoco x vals id & mem_geto mem id v } | { fresh p', v', id in p == DerefP p' & pathvalo mem vals p' v' & v' == RefV id & mem_geto mem id v } | { fresh p', id', v', vs in p == AccessP (p', id') & pathvalo mem vals p' v' & v' == TupleV vs & list_ntho vs id' v } } (* --- eval rules --- *) (* - value construction *) let rec valbuild_foldero mem_with_vs tp mem_with_vs' = ocanren { fresh mem, vs, mem', v', vs' in Std.pair mem vs == mem_with_vs & valbuildo mem tp (Std.pair mem' v') & vs' == v' :: vs & mem_with_vs' == Std.pair mem' vs' } and valbuildo mem tp mem_with_id' = let open Type in let open Value in let open ReadCap in (* let open CopyCap in *) let open MemVal in let open ReadVal in let open WriteVal in ocanren { { fresh r, w in tp == UnitT (r, w) & { { r == Rd & mem_with_id' == Std.pair mem (UnitV (ZeroMV, ZeroRV, ZeroWV)) } | { r == NRd & mem_with_id' == Std.pair mem (UnitV (BotMV, ZeroRV, ZeroWV)) } } } | (* { fresh ts in *) (* tp == FunT ts & *) (* ??? } | *) { fresh c, tp' in tp == RefT (c, tp') & { fresh mem_cp, v_cp, mem_add, id_add in valbuildo mem tp' (Std.pair mem_cp v_cp) & mem_addo mem_cp v_cp (Std.pair mem_add id_add) & mem_with_id' == (mem_add, RefV id_add) } } | { fresh tps, mem', vs' in tp == TupleT tps & list_foldro valbuild_foldero (Std.pair mem []) tps (Std.pair mem' vs') & mem_with_id' == Std.pair mem' (TupleV vs') } } (* let rec valcopy_foldero mem_with_vs v tp mem_with_vs' = *) (* ocanren { *) (* fresh mem, vs, mem', v', vs' in *) (* Std.pair mem vs == mem_with_vs & *) (* valcopyo mem v tp (Std.pair mem' v') & *) (* vs' == v' :: vs & *) (* mem_with_vs' == Std.pair mem' vs' *) (* } *) (* and valcopyo mem v tp mem_with_id' = *) (* let open Type in *) (* let open Value in *) (* let open ReadCap in *) (* let open CopyCap in *) (* let open MemVal in *) (* let open ReadVal in *) (* let open WriteVal in *) (* ocanren { *) (* { fresh r, w in *) (* tp == UnitT (r, w) & *) (* { { fresh v_m, _v_r, _v_w in *) (* r == Rd & *) (* v == UnitV (v_m, _v_r, _v_w) & *) (* mem_with_id' == Std.pair mem (UnitV (v_m, ZeroRV, ZeroWV)) } | *) (* { r == NRd & *) (* mem_with_id' == Std.pair mem (UnitV (BotMV, ZeroRV, ZeroWV)) } } } | *) (* { fresh stmts, ts in *) (* v == FunV stmts & *) (* tp == FunT ts & *) (* mem_with_id' == Std.pair mem v } | *) (* { fresh c, tp', id in *) (* v == RefV id & *) (* tp == RefT (c, tp') & *) (* { c == Rf & mem_with_id' == Std.pair mem v } | *) (* { fresh v', mem_cp, v_cp, mem_add, id_add in *) (* c == Cp & *) (* mem_geto mem id v' & *) (* valcopyo mem v' tp' (Std.pair mem_cp v_cp) & *) (* mem_addo mem_cp v_cp (Std.pair mem_add id_add) & *) (* mem_with_id' == (mem_add, RefV id_add) } } | *) (* { fresh vs, tps, mem', vs' in *) (* v == TupleV vs & *) (* tp == TupleT tps & *) (* list_foldr2o valcopy_foldero (Std.pair mem []) vs tps (Std.pair mem' vs') & *) (* mem_with_id' == Std.pair mem' (TupleV vs') } *) (* } *) (* - action rules *) let memvmodo a v_m v_m' = let open MemVal in let open Action in ocanren { { a == ReadA & v_m == ZeroMV & v_m' == ZeroMV } | { a == AlwaysWriteA & v_m' == ZeroMV } | { a == MayWriteA & v_m == ZeroMV & v_m' == ZeroMV } | { a == MayWriteA & v_m =/= ZeroMV & v_m' == SmthMV } } let readvmodo a v_r v_r' = let open ReadVal in let open Action in ocanren { { v_r == TopRV & v_r' == TopRV } | { v_r == OneRV & v_r' == OneRV } | { a == ReadA & v_r == ZeroRV & v_r' == OneRV } | { a == AlwaysWriteA & v_r == ZeroRV & v_r' == TopRV } | { a == MayWriteA & v_r == ZeroRV & v_r' == ZeroRV } } let writevmodo a v_w v_w' = let open WriteVal in let open Action in ocanren { { a == ReadA & v_w' == v_w } | { a == AlwaysWriteA & v_w' == OneWV } | { a == MayWriteA & v_w == OneWV & v_w' == OneWV } | { a == MayWriteA & v_w =/= OneWV & v_w' == v_w } } (* - value update *) (* NOTE: reversed path used *) let rec valchangeo mem v rp b mem_with_v' = let open RevPath in let open Value in ocanren { { rp == VarRP & mem_with_v' == Std.pair mem b } | { fresh rp', id, v', mem_upd, v_upd, mem_with_v_upd, mem_st in rp == DerefRP rp' & v == RefV id & mem_geto mem id v' & valchangeo mem v' rp' b mem_with_v_upd & Std.pair mem_upd v_upd == mem_with_v_upd & mem_seto mem_upd id v_upd mem_st & mem_with_v' == Std.pair mem_st (RefV id) } | { fresh rp', id, vs', v', mem_upd, v_upd, mem_with_v_upd, vs_upd in rp == AccessRP (rp', id) & v == TupleV vs' & list_ntho vs' id v' & valchangeo mem v' rp' b mem_with_v_upd & Std.pair mem_upd v_upd == mem_with_v_upd & list_replaceo vs' id v_upd vs_upd & mem_with_v' == Std.pair mem_upd (TupleV vs_upd) } } (* NOTE: reversed path used *) let rec substructure_tuple_foldero rp a mem_with_vs v mem_with_vs' = ocanren { fresh mem, vs, mem', v' in Std.pair mem vs == mem_with_vs & valupdo mem v rp a (Std.pair mem' v') & mem_with_vs' == Std.pair mem' (v' :: vs) } and valupdo mem v rp a mem_with_v' = let open RevPath in let open Value in ocanren { { fresh v_m, v_r, v_w, v_m', v_r', v_w', v' in rp == VarRP & v == UnitV (v_m, v_r, v_w) & memvmodo a v_m v_m' & readvmodo a v_r v_r' & writevmodo a v_w v_w' & v' == UnitV (v_m', v_r', v_w') & mem_with_v' == Std.pair mem v' } | { fresh rp', id, v', mem_upd, v_upd, mem_with_v_upd, mem_st in { rp == DerefRP rp' | { rp == VarRP & rp' == VarRP } } & (* ref path or substructure *) v == RefV id & mem_geto mem id v' & valupdo mem v' rp' a mem_with_v_upd & Std.pair mem_upd v_upd == mem_with_v_upd & mem_seto mem_upd id v_upd mem_st & mem_with_v' == Std.pair mem_st (RefV id) } | { fresh vs', mem_upd, vs_upd in rp == VarRP & v == TupleV vs' & list_foldro (substructure_tuple_foldero rp a) (Std.pair mem []) vs' (Std.pair mem_upd vs_upd) & mem_with_v' == Std.pair mem_upd (TupleV vs_upd) } | { fresh rp', id, vs', v', mem_upd, v_upd, vs_upd in rp == AccessRP (rp', id) & v == TupleV vs' & list_ntho vs' id v' & valupdo mem v' rp' a (Std.pair mem_upd v_upd) & list_replaceo vs' id v_upd vs_upd & mem_with_v' == Std.pair mem_upd (TupleV vs_upd) } } (* - value combination *) let memvalcombo u v u' = let open MemVal in ocanren { { u == ZeroMV & v == ZeroMV & u' == ZeroMV } | { u == BotMV & v == BotMV & u' == BotMV } | { { u =/= ZeroMV | { u == ZeroMV & v =/= ZeroMV } } & { u =/= BotMV | { u == BotMV & v =/= BotMV } } & u' == SmthMV } } let readvalcombo u v u' = let open ReadVal in ocanren { { u == TopRV & v == TopRV & u' == TopRV } | { u == ZeroRV & v == ZeroRV & u' == ZeroRV } | { u == TopRV & v == ZeroRV & u' == ZeroRV } | { u == ZeroRV & v == TopRV & u' == ZeroRV } | { { u == OneRV | { u =/= OneRV & v == OneRV } } & u' == OneRV } } let writevalcombo u v u' = let open WriteVal in ocanren { { u == OneWV & v == OneWV & u' == OneWV } | { u == ZeroWV & v == ZeroWV & u' == ZeroWV } | { { u =/= ZeroWV | { u == ZeroWV & v =/= ZeroWV } } & { u =/= OneWV | { u == OneWV & v =/= OneWV } } & u' == SmthWV } } let rec valcombo u v u' = let open Value in ocanren { { fresh u_m, u_r, u_w, v_m, v_r, v_w, u_m', u_r', u_w' in u == UnitV (u_m, u_r, u_w) & v == UnitV (v_m, v_r, v_w) & memvalcombo u_m v_m u_m' & readvalcombo u_r v_r u_r' & writevalcombo u_w v_w u_w' & u' == UnitV (u_m', u_r', u_w') } | { u == FunV & v == FunV & u' == FunV } | { fresh a, b in u == RefV a & v == RefV b & a == b & u' == RefV a } | { fresh us, vs, us' in u == TupleV us & v == TupleV vs & list_zip_witho valcombo us vs us' & u' == TupleV us' } } let memcombo m n m' = let open MemEnv in ocanren { fresh mm, ml, nm, nl, mm' in MemEnv (mm, ml) == m & MemEnv (nm, nl) == n & list_zip_witho valcombo mm nm mm' & m' == MemEnv (mm', ml) } (* - expression evaluation *) (* let rec exprval_foldero mem vals vs e vs' = ocanren { *) (* fresh v' in *) (* exprvalo mem vals e v' & *) (* vs' == v' :: vs *) (* } *) (* and *) let rec exprvalo mem vals e v' = let open Expr in let open Value in let open MemVal in let open ReadVal in let open WriteVal in ocanren { { e == UnitE & v' == UnitV (ZeroMV, ZeroRV, ZeroWV) } | { fresh p in e == PathE p & pathvalo mem vals p v' } | { fresh x, v in e == RefE x & vals_assoco x vals v & v' == RefV v } | { fresh es, vs' in e == TupleE es & (* list_foldro (exprval_foldero mem vals) [] es vs' & *) List.mapo (exprvalo mem vals) es vs' & v' == TupleV vs' } } (* - expression typing *) let rec exprtypeo types e tp' = let open Expr in let open Type in let open ReadCap in let open WriteCap in let open CopyCap in ocanren { { e == UnitE & tp' == UnitT (Rd, NeverWr) } | { fresh p in e == PathE p & pathtypeo types p tp' } | { fresh x, tp in e == RefE x & types_assoco x types tp & tp' == RefT (Rf, tp) } | { fresh es, tps' in e == TupleE es & List.mapo (exprtypeo types) es tps' & tp' == TupleT tps' } } (* - context initialization *) let add_declo st x d st' = let open StEnv in let open Decl in let open Value in let open Type in ocanren { fresh mem, types, vals in st == StEnv (mem, types, vals) & { { fresh tp, mem_bd, v_bd, mem_add, id_add, types', vals' in d == VarD tp & valbuildo mem tp (Pair.pair mem_bd v_bd) & mem_addo mem_bd v_bd (Pair.pair mem_add id_add) & types_addo types x tp types' & vals_addo vals x id_add vals' & st' == StEnv (mem_add, types', vals') } | { fresh tps, s, mem_add, id_add, types', vals' in d == FunD (tps, s) & mem_addo mem FunV (Pair.pair mem_add id_add) & types_addo types x (FunT tps) types' & vals_addo vals x id_add vals' & st' == StEnv (mem_add, types', vals') } } } let empty_memo m = let open MemEnv in ocanren { m == MemEnv ([], 0) } let empty_stateo st = let open StEnv in let open TypesEnv in let open ValsEnv in ocanren { fresh m in empty_memo m & st == StEnv (m, TypesEnv [], ValsEnv []) } (* TODO: better way ??? *) let globals_min_ido x = ocanren { x == 10 } let prog_init_foldero st_with_id d st_with_id' = ocanren { fresh st, x, st' in Std.pair st x == st_with_id & add_declo st x d st' & st_with_id' == Std.pair st' (Nat.s x) } let prog_inito prog st' = let open Prg in ocanren { fresh decls, s, st_init, min_id, st_with_id', _id' in prog == Prg (decls, s) & empty_stateo st_init & globals_min_ido min_id & list_foldlo prog_init_foldero (Std.pair st_init min_id) decls st_with_id' & Std.pair st' _id' == st_with_id' } (* - call values spoil *) (* TODO: check that negation is interpreted correctly *) let is_correct_tagso r w m c = let open ReadCap in let open WriteCap in let open Mode in let open CopyCap in ocanren { { r == NRd | r == Rd & is_ino m } & { is_not_outo m | is_outo m & w == AlwaysWr & c == Rf } } let tryreado r v_m v_r v_w v' = let open Action in let open Value in let open ReadCap in ocanren { { fresh v_m', v_r', v_w' in r == Rd & memvmodo ReadA v_m v_m' & readvmodo ReadA v_r v_r' & writevmodo ReadA v_w v_w' & v' == UnitV (v_m', v_r', v_w') } | { r == NRd & v' == UnitV (v_m, v_r, v_w)} } let tryspoilo m w v_m v_m' = let open Mode in let open WriteCap in let open MemVal in ocanren { { is_outo m & { w == AlwaysWr | w == MayWr } & v_m' == v_m } | { is_not_outo m & w == AlwaysWr & v_m' == BotMV } | { is_not_outo m & w == MayWr & v_m' == SmthMV } } let rec valspoil_foldero m c mem_with_vs tp v mem_with_vs' = ocanren { fresh mem, vs, mem', v' in Std.pair mem vs == mem_with_vs & valspoilo mem v tp m c (Std.pair mem' v') & mem_with_vs' == Std.pair mem' (v' :: vs) } and valspoilo mem v tp m c mem_with_v' = let open Type in let open Value in let open WriteCap in let open CopyCap in let open Action in ocanren { { fresh r, w, v_m, v_r, v_w, v', v'' in tp == UnitT (r, w) & v == UnitV (v_m, v_r, v_w) & is_correct_tagso r w m c & tryreado r v_m v_r v_w v' & { { { c == Cp | { c == Rf & w == NeverWr } } & mem_with_v' == Std.pair mem v' } | { fresh v_m', v_r', v_w', v_m'', v_r'', v_w'', v_m''' in c == Rf & { w == AlwaysWr | w == MayWr } & v' == UnitV (v_m', v_r', v_w') & { { w == AlwaysWr & memvmodo AlwaysWriteA v_m' v_m'' & readvmodo AlwaysWriteA v_r' v_r'' & writevmodo AlwaysWriteA v_w' v_w'' } | { w == MayWr & memvmodo MayWriteA v_m' v_m'' & readvmodo MayWriteA v_r' v_r'' & writevmodo MayWriteA v_w' v_w'' } } & tryspoilo m w v_m'' v_m''' & v'' == UnitV (v_m''', v_r'', v_w'') & mem_with_v' == Std.pair mem v'' } } } | { fresh ts in tp == FunT ts & v == FunV & mem_with_v' == Std.pair mem v } | { fresh ctp', tp', id', v', mem_sp, v_sp, mem_set in tp == RefT (ctp', tp') & v == RefV id' & mem_geto mem id' v' & valspoilo mem v' tp' m ctp' (Std.pair mem_sp v_sp) & mem_seto mem_sp id' v_sp mem_set & mem_with_v' == Std.pair mem_set (RefV id') } | { fresh tps, vs, mem_sp, vs_sp in tp == TupleT tps & v == TupleV vs & list_foldr2o (valspoil_foldero m c) (Std.pair mem []) tps vs (Std.pair mem_sp vs_sp) & mem_with_v' == Std.pair mem_sp (TupleV vs_sp) } } (* full spoil *) let argsspoilpo st m tp p mem' = let open StEnv in let open CopyCap in let open RevPath in ocanren { fresh mem, types, vals, x, id, b(* , tp' *), rp, mem_sp, b_sp, v_sp, mem_upd, v_upd in st == StEnv (mem, types, vals) & pathvaro p x & vals_assoco x vals id & pathvalo mem vals p b & (* pathtypeo types p tp' & *) valspoilo mem b tp m Cp (Std.pair mem_sp b_sp) & pathrevo p VarRP rp & mem_geto mem_sp id v_sp & valchangeo mem_sp v_sp rp b_sp (Std.pair mem_upd v_upd) & mem_seto mem_upd id v_upd mem' } let rec argsspoile_foldero types vals m mem tp e mem' = let open StEnv in ocanren { fresh st in st == StEnv (mem, types, vals) & argsspoileo st m tp e mem' } and argsspoileo st m tp e mem' = let open StEnv in let open Expr in let open Type in let open Path in ocanren { fresh _r, _w, mem, types, vals in st == StEnv (mem, types, vals) & { { e == UnitE & tp == UnitT (_r, _w) & mem' == mem } | { fresh p in e == PathE p & argsspoilpo st m tp p mem' } | { fresh x in e == RefE x & argsspoilpo st m tp (VarP x) mem' } | { fresh es, tps in e == TupleE es & tp == TupleT tps & list_foldl2o (argsspoile_foldero types vals m) mem tps es mem'} } } (* - funciton argument addition *) let addargo st x tp st' = let open StEnv in ocanren { fresh mem, types, vals, mem_bd, v_bd, mem_add, id_add, types', vals' in st == StEnv (mem, types, vals) & valbuildo mem tp (Std.pair mem_bd v_bd) & mem_addo mem_bd v_bd (Std.pair mem_add id_add) & types_addo types x tp types' & vals_addo vals x id_add vals' & st' == StEnv (mem_add, types', vals') } (* --- *) let writeval_to_capo v_w w' = let open WriteVal in let open WriteCap in ocanren { { v_w == ZeroWV & w' == NeverWr } | { v_w == SmthWV & w' == MayWr } | { v_w == OneWV & w' == AlwaysWr } } let rec tags_checko mem v tp = let open ReadVal in let open ReadCap in let open Type in let open Value in ocanren { { fresh v_m, v_r, v_w, r, w in v == UnitV (v_m, v_r, v_w) & tp == UnitT (r, w) & { { r == Rd & v_r == OneRV } | { r == NRd & v_r == ZeroRV } | { r == NRd & v_r == TopRV } } & writeval_to_capo v_w w } | { fresh _ts in v == FunV & tp == FunT _ts } | { fresh id, _c, tp', v' in v == RefV id & tp == RefT (_c, tp') & mem_geto mem id v' & tags_checko mem v' tp' } | { fresh vs, tps in v == TupleV vs & tp == TupleT tps & List.mapo (tags_checko mem) vs tps } } (* - writability check *) let rec is_all_type_writableo tp = let open Type in let open WriteCap in ocanren { { fresh _r, w in tp == UnitT (_r, w) & { w == MayWr | w == AlwaysWr } } | { fresh _tps in tp == FunT _tps } | { fresh _c, tp' in tp == RefT (_c, tp') & is_all_type_writableo tp' } | { fresh tps' in tp == TupleT tps' & list_checko is_all_type_writableo tps' } } (* - statement evaluation *) let rec stmt_eval_spoil_foldero types vals mem mtp e mem' = let open StEnv in ocanren { fresh m, tp, st in Std.pair m tp == mtp & st == StEnv (mem, types, vals) & argsspoileo st m tp e mem' } and stmt_evalo st s st' = let open StEnv in let open Stmt in let open Type in let open RevPath in let open Action in ocanren { fresh mem, types, vals in st == StEnv (mem, types, vals) & { { s == SkipS & st == st' } | { fresh f, es, tp, _tps, _vs, tps, mem_spoiled in s == CallS (f, es) & pathtypeo types f tp & tp == FunT tps & list_foldl2o (stmt_eval_spoil_foldero types vals) mem tps es mem_spoiled & st' == StEnv (mem_spoiled, types, vals) } | { fresh p, tp, x, id, v, rp, mem_upd, v_upd, mem_set in s == WriteS p & pathtypeo types p tp & is_all_type_writableo tp & pathvaro p x & vals_assoco x vals id & mem_geto mem id v & pathrevo p VarRP rp & valupdo mem v rp AlwaysWriteA (Std.pair mem_upd v_upd) & mem_seto mem_upd id v_upd mem_set & st' == StEnv (mem_set, types, vals) } | { fresh p, _tp, _r, _w, x, id, v, rp, mem_upd, v_upd, mem_set in s == ReadS p & pathvaro p x & vals_assoco x vals id & mem_geto mem id v & pathrevo p VarRP rp & valupdo mem v rp ReadA (Std.pair mem_upd v_upd) & mem_seto mem_upd id v_upd mem_set & st' == StEnv (mem_set, types, vals) } | (* { fresh p in *) (* s == ReadS p & *) (* pathvalo mem vals p ZeroV & *) (* st == st' } | *) { fresh sl, sr, stl in s == SeqS (sl, sr) & stmt_evalo st sl stl & stmt_evalo stl sr st' } | { fresh sl, sr, stl, str, meml, typesl, valsl, memr, typesr, valsr, mem' in s == ChoiceS (sl, sr) & stmt_evalo st sl stl & stmt_evalo st sr str & stl == StEnv (meml, typesl, valsl) & str == StEnv (memr, typesr, valsr) & typesl == typesr & valsl == valsr & memcombo meml memr mem' & st' == StEnv (mem', typesl, valsl) } } } (* - function evaluation *) let rec f_addarg_foldero st_with_id mtp st_with_id' = ocanren { fresh st, x, m, tp, st' in Std.pair st x == st_with_id & Std.pair m tp == mtp & addargo st x tp st' & st_with_id' == Std.pair st' (Nat.s x) } and f_tags_check_foldero mem vals x mtp x' = ocanren { fresh m, tp, id', v' in mtp == Std.pair m tp & vals_assoco x vals id' & mem_geto mem id' v' & tags_checko mem v' tp & x' == Nat.s x } (* list_foldlo (stmt_eval_func_foldero mem_swa types_swa vals_swa tps) visited_swa fstmts visited' & *) and func_evalo st d = let open StEnv in let open Decl in ocanren { { fresh tps, stmt, state_with_args, _arg_id, st_after_stmt, mem_after_stmt, _types_after_stmt, vals_after_stmt, _x' in d == FunD (tps, stmt) & list_foldlo f_addarg_foldero (Std.pair st 0) tps (Std.pair state_with_args _arg_id) & stmt_evalo state_with_args stmt st_after_stmt & st_after_stmt == StEnv (mem_after_stmt, _types_after_stmt, vals_after_stmt) & list_foldlo (f_tags_check_foldero mem_after_stmt vals_after_stmt) 0 tps _x' } | { fresh _tp in d == VarD _tp } } (* --- program execution --- *) let prog_evalo prog st' = let open Prg in ocanren { fresh decls, s, init_st in prog == Prg (decls, s) & prog_inito prog init_st & list_checko (func_evalo init_st) decls & stmt_evalo init_st s st' } end