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remove old relational interpreter version (was not fixed)

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ProgramSnail 2026-02-15 18:56:35 +00:00
parent 5af2728354
commit 9d2f508291
2 changed files with 0 additions and 392 deletions
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44
lib/dune
View file

@ -44,27 +44,6 @@
-pp
lib/pp5+gt+plugins+ocanren+dump.exe)))
(library
(name relational_semantic_interpreter)
(modules relational_semantic_interpreter)
(flags
; (-dsource)
(:standard -rectypes))
(libraries OCanren OCanren.tester)
(preprocessor_deps ./pp5+gt+plugins+ocanren+dump.exe)
(wrapped false)
(preprocess
(pps
OCanren-ppx.ppx_repr
OCanren-ppx.ppx_deriving_reify
OCanren-ppx.ppx_fresh
GT.ppx
GT.ppx_all
OCanren-ppx.ppx_distrib
--
-pp
lib/pp5+gt+plugins+ocanren+dump.exe)))
(library
(name relational_semantic_interpreter_oc)
(modules relational_semantic_interpreter_oc)
@ -86,29 +65,6 @@
-pp
lib/pp5+gt+plugins+ocanren+dump.exe)))
; (library
; (name test)
; (modules test)
; (flags
; (-dsource)
; (:standard -rectypes))
; (libraries OCanren OCanren.tester)
; (preprocessor_deps ./pp5+gt+plugins+ocanren+dump.exe)
; (wrapped false)
; (preprocess
; (pps
; ppx_expect
; ppx_inline_test
; GT.ppx
; GT.ppx_all
; OCanren-ppx.ppx_repr
; OCanren-ppx.ppx_deriving_reify
; OCanren-ppx.ppx_fresh
; OCanren-ppx.ppx_distrib
; --
; -pp
; lib/pp5+gt+plugins+ocanren+dump.exe)))
(rule
(targets pp5+gt+plugins+ocanren+dump.exe)
(action

348
lib/relational_semantic_interpreter.ml
View file

@ -1,348 +0,0 @@
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 Tag = struct
[@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"]
[%%distrib
type nonrec t = Ref | Value
[@@deriving gt ~options:{ show; gmap }]
type nonrec ground = t
]
let ref = inj Ref
let value = inj Value
end
module Stmt = struct
[@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"]
[%%distrib
type nonrec ('d, 'dl) t = Call of 'd * 'dl | Read of 'd | Write of 'd
[@@deriving gt ~options:{ show; gmap }]
type nonrec ground = (Nat.ground, Nat.ground List.ground) t
]
let call f args = inj (Call (f, args))
let read id = inj (Read id)
let write id = inj (Write id)
end
module Body = struct
[@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"]
[%%distrib
type nonrec ('stmt, 'l) t = T of ('stmt, 'l) List.t
[@@deriving gt ~options:{ show; gmap }]
type nonrec ground = (Stmt.ground, Stmt.ground List.ground) t
]
let make stmts = inj (T stmts)
end
module FunDecl = struct
[@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"]
[%%distrib
type nonrec ('l, 'b) t = T of 'l * 'b
[@@deriving gt ~options:{ show; gmap }]
type nonrec ground = (Tag.ground List.ground, Body.ground) t
]
let make args body = inj (T (args, body))
end
module Prog = struct
[@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"]
[%%distrib
type nonrec ('l, 'f) t = T of 'l * 'f
[@@deriving gt ~options:{ show; gmap }]
type nonrec ground = (FunDecl.ground List.ground, FunDecl.ground) t
]
let make decls main_decl = inj (T (decls, main_decl))
end
module Arg = struct
[@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"]
[%%distrib
type nonrec 'd t = RValue | LValue of 'd
[@@deriving gt ~options:{ show; gmap }]
type nonrec ground = Nat.ground t
]
let rvalue = inj RValue
let lvalue x = inj (LValue x)
end
module Value = struct
[@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"]
[%%distrib
type nonrec t = Unit | Bot
[@@deriving gt ~options:{ show; gmap }]
type nonrec ground = t
]
let unit = inj Unit
let bot = inj Bot
end
(* module Envr = struct *)
(* [@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"] *)
(* [%%distrib *)
(* type nonrec ('d, 'l) t = T of ('d * 'd, 'l) List.t *)
(* [@@deriving gt ~options:{ show; gmap }] *)
(* type nonrec ground = (Nat.ground, Nat.ground List.ground) t *)
(* ] *)
(* let make elems = inj (T elems) *)
(* end *)
module State = struct
[@@@warning "-26-27-32-33-34-35-36-37-38-39-60-66-67"]
[%%distrib
type nonrec ('env, 'mem, 'last_mem, 'assignments) t = T of 'env * 'mem * 'last_mem * 'assignments
[@@deriving gt ~options:{ show; gmap }]
type nonrec ground = (((Nat.ground, Nat.ground) Pair.ground) List.ground,
Value.ground List.ground, Nat.ground, Nat.ground List.ground) t
]
let make env mem last_mem assignments = inj (T (env, mem, last_mem, assignments))
end
let rec list_replace xs id value ys =
conde
[ (xs === Std.nil ()) &&& (ys === Std.nil ()) (* TODO: error *)
; fresh (x xs') (xs === List.cons x xs') (id === Nat.o) (ys === List.cons value xs)
; fresh (x xs' id' ys') (xs === List. cons x xs') (id === Nat.s id') (ys === List.cons x ys')
(list_replace xs' id' value ys')
]
let rec list_assoc a xs v' =
conde
[ fresh (a' b' xs')
(xs === List.cons (a', b') xs')
(a =/= a')
(list_assoc a xs' v')
; fresh (a' b' xs')
(xs === List.cons (a', b') xs')
(a === a')
(v' === b')
]
(* TODO: difference from List.assoco ?? *)
let env_get state id mem_id' =
fresh (env mem mem_len assignments)
(state === State.make env mem mem_len assignments)
(list_assoc id env mem_id')
(* (List.assoco id env mem_id') *)
let env_add state id mem_id state' =
fresh (env env' mem mem_len assignments)
(state === State.make env mem mem_len assignments)
(state' === State.make env' mem mem_len assignments)
(env' === List.cons (id, mem_id) env)
let inv_id mem_len id id' =
fresh (inv_id_inc)
(Nat.addo inv_id_inc id mem_len)
(Nat.addo id' (Nat.s Nat.o) inv_id_inc)
(* --- *)
let rec list_nth xs id x' =
conde
[ (xs === Std.nil ()) (* TODO: error *)
; fresh (y' xs') (id === Nat.o) (List.cons y' xs' === xs) (x' === y')
; fresh (id' y' xs') (Nat.s id' === id) (List.cons y' xs' === xs) (list_nth xs' id' x')
]
(* TODO: use real holes *)
let mem_get state id value' =
fresh (mem mem_len mem_id mem_id_inv _env _assignments)
(state === inj (State.T (_env, mem, mem_len, _assignments)))
(env_get state id mem_id)
(inv_id mem_len mem_id mem_id_inv)
(list_nth mem mem_id_inv value')
let mem_set state id value state'=
fresh (env mem mem_len assignments mem_id inv_mem_id mem' assignments')
(state === State.make env mem mem_len assignments)
(env_get state id mem_id)
(inv_id mem_len mem_id inv_mem_id)
(list_replace mem mem_id value mem')
(assignments' === List.cons id assignments)
(state' === State.make env mem' mem_len assignments')
let mem_add state value state' =
fresh (env mem mem_len mem_len' assignments mem')
(state === State.make env mem mem_len assignments)
(mem' === List.cons value mem)
(mem_len' === Nat.s mem_len)
(state' === State.make env mem mem_len' assignments)
let mem_check state id state' =
conde
[ (mem_get state id Value.bot) &&& (state' === state)
; (mem_get state id Value.unit) &&& (state' === state)
]
(* --- *)
let rec list_foldl f acc xs acc' =
conde
[ (xs === Std.nil ()) &&& (acc' === acc)
; fresh (x' xs' acc_upd)
(xs === List.cons x' xs')
(list_foldl f acc xs' acc_upd)
(f acc_upd x' acc')
]
let rec list_foldr2 f acc xs ys acc' =
conde
[ (xs === Std.nil ()) &&& (ys === Std.nil ()) &&& (acc' === acc)
; fresh (x' xs' y' ys' acc_upd)
(xs === List.cons x' xs')
(ys === List.cons y' ys')
(f acc x' y' acc_upd)
(list_foldr2 f acc_upd xs' ys' acc')
]
let rec list_foldl2 f acc xs ys acc' =
conde
[ (xs === Std.nil ()) &&& (ys === Std.nil ()) &&& (acc' === acc)
; fresh (x' xs' y' ys' acc_upd)
(xs === List.cons x' xs')
(ys === List.cons y' ys')
(list_foldl2 f acc xs' ys' acc_upd)
(f acc_upd x' y' acc')
]
let arg_to_value state arg value' =
conde
[ (arg === Arg.rvalue) &&& (value' === Value.unit)
; fresh (id) (arg === Arg.lvalue id) (mem_get state id value')
]
let arg_to_rvalue _arg value' = (value' === inj Arg.RValue)
let st_mem_len state mem_len' =
fresh (_env _mem _assignments) (* TODO: replace with real placeholder ? *)
(state === State.make _env _mem mem_len' _assignments)
let st_add_arg state state_before id arg_tag arg state'' =
conde
[ (arg_tag === Tag.ref) &&& (arg === Arg.rvalue) &&& (state'' === state)
(* TODO: error, TODO: allow later ?? *)
; fresh (arg' value')
(arg_tag === Tag.ref)
(arg === Arg.lvalue arg')
(env_get state_before arg' value')
(env_add state id value' state'')
; fresh (value' state' mem_len_dec')
(arg_tag === Tag.value)
(arg_to_value state_before arg value')
(mem_add state value' state')
(st_mem_len state (Nat.s mem_len_dec'))
(env_add state' id mem_len_dec' state'')
]
let st_spoil_folder mem_len state mem id mem' =
fresh (mem_id' mem_id_inv')
(env_get state id mem_id')
(inv_id mem_len mem_id' mem_id_inv')
(list_replace mem mem_id_inv' (inj Value.Bot) mem')
let st_spoil_assignments state state' =
fresh (env mem mem' mem_len assignments nil')
(state === State.make env mem mem_len assignments)
(list_foldl (st_spoil_folder mem_len state) mem assignments mem')
(* (List.fold_left (fun mem id -> list_replace mem (inv_id mem_len @@ env_get state id) BotV) mem assignments mem') *)
(nil' === Std.nil ())
(state' === State.make env mem' mem_len nil')
(* --- *)
let arg_to_lvalue arg arg' = (arg' === inj (Arg.LValue arg))
let rec list_drop n xs xs' =
conde
[ (xs === Std.nil ()) &&& (xs' === Std.nil ())
; n === Nat.o &&& (xs === xs')
; fresh (n' y ys) (Nat.s n' === n) (xs === List.cons y ys) (list_drop n' ys xs')
]
let rec eval_stmt state prog stmt state' =
conde
[ fresh (f_id args f args')
(stmt === Stmt.call f_id args)
(list_nth prog f_id f)
(List.mapo arg_to_lvalue args args')
(eval_fun state prog f args' state')
; fresh (id) (stmt === Stmt.read id) (mem_check state id state')
; fresh (id) (stmt === Stmt.write id) (mem_set state id Value.unit state')
]
and eval_body_folder prog state stmt state' = eval_stmt state prog stmt state'
and eval_body state prog body state' =
list_foldl (eval_body_folder prog) state body state'
(* (List.fold_left (fun state stmt -> eval_stmt state prog stmt) state body) *)
and add_arg_folder state_before state_c arg_tag arg state_c' =
fresh (state id state' id')
(state_c === inj (state, id))
(st_add_arg state state_before id arg_tag arg state')
(id' === Nat.s id)
(state_c' === inj (state', id'))
and eval_fun state prog decl args state' =
fresh (arg_tags body
env_before mem_before len_before assignments_before
state_clean
state_with_vars _counter
state_evaled
state_spoiled
_env mem_spoiled len _assignments
mem_updated len_to_drop
nil_env nil_assignments)
(nil_env === Std.nil ())
(nil_assignments === Std.nil ())
(decl === FunDecl.make arg_tags body)
(state === State.make env_before mem_before len_before assignments_before)
(state_clean === State.make nil_env mem_before len_before nil_assignments)
(list_foldl2 (add_arg_folder state) (inj (state, Nat.o)) arg_tags args (inj (state_with_vars, _counter))) (* TODO: replace with real placeholder *)
(eval_body state_with_vars prog body state_evaled)
(st_spoil_assignments state_evaled state_spoiled)
(state_spoiled === State.make _env mem_spoiled len _assignments)
(Nat.addo len_to_drop len_before len)
(list_drop len_to_drop mem_spoiled mem_updated)
(state' === State.make env_before mem_updated len_before assignments_before)
and eval_fun_empty_args state prog decl state' =
fresh (arg_tags args _hole) (* TODO: replace with real placeholder *)
(decl === FunDecl.make arg_tags _hole)
(List.mapo arg_to_rvalue arg_tags args)
(eval_fun state prog decl args state')
(* --- *)
let empty_state state =
fresh (nil_env nil_mem nil_assignments)
(nil_env === Std.nil ())
(nil_assignments === Std.nil ())
(nil_mem === Std.nil ())
(state === State.make nil_env nil_mem Nat.o nil_assignments)
let eval_prog all_prog state' =
fresh (prog main_decl state)
(all_prog === Prog.make prog main_decl)
(empty_state state)
(eval_fun_empty_args state prog main_decl state')
end