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compare: st:fac507bebf28e5dd9e48fda6a59756b9ba8b6282
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eff48a1c6e ... fac507bebf

Author SHA1 Message Date
ProgramSnail
fac507bebf struct: analyzer & synthesizer val build, small fixes 2026-05-17 18:19:31 +00:00
ProgramSnail
7d8ab19675 struct: model: build rule 2026-05-17 18:09:39 +00:00
4 changed files with 144 additions and 22 deletions
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19
model_with_structures/analyzer.ml
View file

@ -195,6 +195,19 @@ struct
(* - value construction *) (* - value construction *)
let rec valbuild (mem : mem) (t : atype) : mem * value =
match t with
| UnitT (Rd, _) -> (mem, UnitV (ZeroMV, ZeroRV, ZeroWV))
| UnitT (NRd, _) -> (mem, UnitV (BotMV, ZeroRV, ZeroWV))
| FunT _ -> raise @@ Typing_error "valbuild: funciton value is not supported"
| RefT (_, t) -> let (mem', v') = valbuild mem t in
let (mem'', id'') = mem_add mem' v' in
(mem'', RefV id'')
| TupleT ts -> let folder = fun t (mem, vs') -> let (mem', v') = valbuild mem t in
(mem', v' :: vs') in
let mem', vs' = List.fold_right folder ts (mem, []) in
(mem', TupleV vs')
let rec valcopy (mem : mem) (v : value) (t : atype) : mem * value = let rec valcopy (mem : mem) (v : value) (t : atype) : mem * value =
match t, v with match t, v with
| UnitT (Rd, _), UnitV (v_m, _, _) -> (mem, UnitV (v_m, ZeroRV, ZeroWV)) | UnitT (Rd, _), UnitV (v_m, _, _) -> (mem, UnitV (v_m, ZeroRV, ZeroWV))
@ -204,10 +217,10 @@ struct
| RefT (_, t), RefV id -> let (mem', v') = valcopy mem (mem_get mem id) t in | RefT (_, t), RefV id -> let (mem', v') = valcopy mem (mem_get mem id) t in
let (mem'', id'') = mem_add mem' v' in let (mem'', id'') = mem_add mem' v' in
(mem'', RefV id'') (mem'', RefV id'')
| TupleT ts, TupleV vs -> let folder = fun (mem, vs') v t -> let (mem', v') = valcopy mem v t in | TupleT ts, TupleV vs -> let folder = fun v t (mem, vs') -> let (mem', v') = valcopy mem v t in
(mem', v' :: vs') in (mem', v' :: vs') in
let mem', vs' = List.fold_left2 folder (mem, []) vs ts in let mem', vs' = List.fold_right2 folder vs ts (mem, []) in
(mem', TupleV (List.rev vs')) (* TODO: FIXME: should reverse or not ?? *) (mem', TupleV vs')
| _, _ -> raise @@ Typing_error "valcopy: not trivial value, wrong type" | _, _ -> raise @@ Typing_error "valcopy: not trivial value, wrong type"
(* - action rules *) (* - action rules *)

102
model_with_structures/model.typ
View file

@ -540,9 +540,69 @@ $action$ - действия, совершаемые с примитивным з
=== Value Construction === Value Construction
#let build = `build`
#align(center, prooftree(
vertical-spacing: 4pt,
rule(
name: [ build trivial read value],
$mu xarrowSquiggly(cl Read \, w cr)_build
cl cdl 0_m, 0_r, 0_w cdr, mu cr$,
)
))
#h(10pt)
#align(center, prooftree(
vertical-spacing: 4pt,
rule(
name: [ build trivial $not$ read value],
$mu xarrowSquiggly(cl not Read \, w cr)_build
cl cdl bot, 0_r, 0_w cdr, mu cr$,
)
))
#h(10pt)
// TODO: function pointer type ??
#align(center, prooftree(
vertical-spacing: 4pt,
rule(
name: [ build reference value],
$mu xarrowSquiggly(t)_build cl v, mu_v cr$,
$mu_v xarrowSquiggly(v)_#[add] cl l, mu_a cr$,
$mu xarrowSquiggly(rf c t)_build cl rf l, mu_a cr$,
)
))
#h(10pt)
#align(center, prooftree(
vertical-spacing: 4pt,
rule(
name: [ build tuple value],
$mu_0 xarrowSquiggly(t_1)_build cl v_1, mu_1 cr$,
$...$,
$mu_(n - 1) xarrowSquiggly(t_n)_build cl v_n, mu_n cr$,
$mu_0 xarrowSquiggly([t_1, ... t_n])_build cl [v_1, ... v_n], mu_n cr$,
)
))
#h(10pt)
// ---
// TODO: FIXME:add ref / copy modes correctness check ?? // TODO: FIXME:add ref / copy modes correctness check ??
#let new = `new` // #let copy = `copy`
#align(center, prooftree( #align(center, prooftree(
vertical-spacing: 4pt, vertical-spacing: 4pt,
@ -551,22 +611,26 @@ $action$ - действия, совершаемые с примитивным з
$v_m in {0, ?, bot}$, $v_m in {0, ?, bot}$,
$cl cdl v_m, v_r, v_w cdr, mu cr $cl cdl v_m, v_r, v_w cdr, mu cr
xarrowSquiggly(cl Read \, w cr)_new xarrowSquiggly(cl Read \, w cr)_copy
cl cdl v_m, 0, 0 cdr, mu cr$, cl cdl v_m, 0_r, 0_w cdr, mu cr$,
) )
)) ))
#h(10pt)
// #align(center, prooftree( // #align(center, prooftree(
// vertical-spacing: 4pt, // vertical-spacing: 4pt,
// rule( // rule(
// name: [ new trivial read $top$ value], // name: [ new trivial read $top$ value],
// $cl cdl top, v_r, v_w cdr, mu cr // $cl cdl top, v_r, v_w cdr, mu cr
// xarrowSquiggly(cl Read \, w cr)_new // xarrowSquiggly(cl Read \, w cr)_copy
// cl cdl 0, 0, 0 cdr, mu cr$, // cl cdl 0, 0, 0 cdr, mu cr$,
// ) // )
// )) // ))
#h(10pt)
#align(center, prooftree( #align(center, prooftree(
vertical-spacing: 4pt, vertical-spacing: 4pt,
rule( rule(
@ -574,53 +638,61 @@ $action$ - действия, совершаемые с примитивным з
$v_m in {0, ?, bot/*, top */}$, $v_m in {0, ?, bot/*, top */}$,
$cl cdl v_m, v_r, v_w cdr, mu cr $cl cdl v_m, v_r, v_w cdr, mu cr
xarrowSquiggly(cl not Read \, w cr)_new xarrowSquiggly(cl not Read \, w cr)_copy
cl cdl bot, 0, 0 cdr, mu cr$, cl cdl bot, 0_r, 0_w cdr, mu cr$,
) )
)) ))
#h(10pt)
#align(center, prooftree( #align(center, prooftree(
vertical-spacing: 4pt, vertical-spacing: 4pt,
rule( rule(
name: [ new funciton pointer value], name: [ new funciton pointer value],
$cl lambda overline(s), mu cr xarrowSquiggly(lambda space c space overline(t))_new cl lambda overline(s), mu cr$, $cl lambda overline(s), mu cr xarrowSquiggly(lambda space c space overline(t))_copy cl lambda overline(s), mu cr$,
) )
)) ))
#h(10pt)
// #align(center, prooftree( // #align(center, prooftree(
// vertical-spacing: 4pt, // vertical-spacing: 4pt,
// rule( // rule(
// name: [ new reference ref value], // name: [ new reference ref value],
// $cl rf l, mu cr xarrowSquiggly(rf Ref t)_new cl rf l, mu cr$, // $cl rf l, mu cr xarrowSquiggly(rf Ref t)_copy cl rf l, mu cr$,
// ) // )
// )) // ))
// #h(10pt)
// NOTE: due to new memory cells types (with rw subcells) valnue should always be copied // NOTE: due to new memory cells types (with rw subcells) valnue should always be copied
#align(center, prooftree( #align(center, prooftree(
vertical-spacing: 4pt, vertical-spacing: 4pt,
rule( rule(
name: [ new reference /* copy */ value], name: [ new reference /* copy */ value],
$cl mu[l], mu cr xarrowSquiggly(t)_new cl v, mu_v cr$, $cl mu[l], mu cr xarrowSquiggly(t)_copy cl v, mu_v cr$,
$mu_v xarrowSquiggly(v)_#[add] cl l', mu_a cr$, $mu_v xarrowSquiggly(v)_#[add] cl l', mu_a cr$,
$cl rf l, mu cr xarrowSquiggly(rf c /*Copy*/ t)_new cl rf l', mu_a cr$, $cl rf l, mu cr xarrowSquiggly(rf c /*Copy*/ t)_copy cl rf l', mu_a cr$,
) )
)) ))
#h(10pt)
#align(center, prooftree( #align(center, prooftree(
vertical-spacing: 4pt, vertical-spacing: 4pt,
rule( rule(
name: [ new tuple value], name: [ new tuple value],
$cl v_1, mu_0 cr xarrowSquiggly(t_1)_new cl lambda v'_1, mu_1 cr$, $cl v_1, mu_0 cr xarrowSquiggly(t_1)_copy cl v'_1, mu_1 cr$,
$...$, $...$,
$cl v_n, mu_(n - 1) cr xarrowSquiggly(t_n)_new cl lambda v'_n, mu_n cr$, $cl v_n, mu_(n - 1) cr xarrowSquiggly(t_n)_copy cl v'_n, mu_n cr$,
$cl [v_1, ... v_n], mu_0 cr xarrowSquiggly([t_1, ... t_n])_new cl [v'_1, ... v'_n], mu_n cr$, $cl [v_1, ... v_n], mu_0 cr xarrowSquiggly([t_1, ... t_n])_copy cl [v'_1, ... v'_n], mu_n cr$,
) )
)) ))
@ -1067,7 +1139,7 @@ $action$ - действия, совершаемые с примитивным з
// expect well typed program // expect well typed program
$vals, mu texpre e eqmu v$, $vals, mu texpre e eqmu v$,
$cl v, mu cr xarrowSquiggly(t)_new cl v', mu' cr$, // TODO: FIXME check (required?) $cl v, mu cr xarrowSquiggly(t)_copy cl v', mu' cr$, // TODO: FIXME check (required?)
$mu' xarrowSquiggly(v')_#[add] cl l, mu'' cr$, $mu' xarrowSquiggly(v')_#[add] cl l, mu'' cr$,
$cl types, vals, mu cr xarrowSquiggly("var" x : t = e)_init cl types[x <- t], vals[x <- l], mu'' cr$ $cl types, vals, mu cr xarrowSquiggly("var" x : t = e)_init cl types[x <- t], vals[x <- l], mu'' cr$
@ -1354,7 +1426,7 @@ $action$ - действия, совершаемые с примитивным з
// TODO: check type compatibility for t and type for path p (?) // TODO: check type compatibility for t and type for path p (?)
// [*TODO: check t ~ t' in sme way (?)*], // [*TODO: check t ~ t' in sme way (?)*],
// <- programs considired to be well-typed // <- programs considired to be well-typed
$cl v, mu cr xarrowSquiggly(t)_new cl v', mu' cr$, $cl v, mu cr xarrowSquiggly(t)_copy cl v', mu' cr$,
$mu' xarrowSquiggly(v')_#[add] cl l, mu'' cr$, $mu' xarrowSquiggly(v')_#[add] cl l, mu'' cr$,
// TODO save type mode somewhere ?? // <- not needed because is described by other params <- ?? // TODO save type mode somewhere ?? // <- not needed because is described by other params <- ??

39
model_with_structures/synthesizer.ml
View file

@ -588,6 +588,44 @@ struct
(* - value construction *) (* - 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' = let rec valcopy_foldero mem_with_vs v tp mem_with_vs' =
ocanren { ocanren {
fresh mem, vs, mem', v', vs' in fresh mem, vs, mem', v', vs' in
@ -606,7 +644,6 @@ struct
let open WriteVal in let open WriteVal in
ocanren { ocanren {
{ fresh r, w in { fresh r, w in
is_trivial_vo v &
tp == UnitT (r, w) & tp == UnitT (r, w) &
{ { fresh v_m, _v_r, _v_w in { { fresh v_m, _v_r, _v_w in
r == Rd & r == Rd &

6
model_with_structures/tests_f.ml
View file

@ -1018,8 +1018,8 @@ let prog_eval_compl_test_send _ = show(answer) (Stream.take (run q
ReadS sb_access3] ReadS sb_access3]
sendFBranch & sendFBranch &
seqo [ChoiceS (sendFBranch, SkipS); seqo [ChoiceS (sendFBranch, SkipS);
WriteS (VarP 0)); WriteS (VarP 0);
ReadS (VarP 0))] ReadS (VarP 0)]
sendF & sendF &
fresh sa_access0, sa_access1, sa_access2, sa_access3 in fresh sa_access0, sa_access1, sa_access2, sa_access3 in
@ -1027,7 +1027,7 @@ let prog_eval_compl_test_send _ = show(answer) (Stream.take (run q
access_deref_accesso 1 1 0 sa_access1 & access_deref_accesso 1 1 0 sa_access1 &
access_deref_access_deref_accesso 0 0 0 0 sa_access2 & access_deref_access_deref_accesso 0 0 0 0 sa_access2 &
access_deref_accesso 0 1 0 sa_access3 & access_deref_accesso 0 1 0 sa_access3 &
seqo [WriteS (VarP 0)); seqo [WriteS (VarP 0);
CallS (VarP sendID, [PathE (VarP 0)]); CallS (VarP sendID, [PathE (VarP 0)]);
CallS (VarP get_version_idID, [PathE (VarP 0)]); CallS (VarP get_version_idID, [PathE (VarP 0)]);
CallS (VarP updated_versionID, [PathE (VarP 0)]); CallS (VarP updated_versionID, [PathE (VarP 0)]);