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added HOMbeta (higher-order matching wrt. beta-equivalence)
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added reduction from SSTS01 to HOMbeta
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mrhaandi committed Apr 4, 2024
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1 change: 1 addition & 0 deletions README.md
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Expand Up @@ -100,6 +100,7 @@ An equivalence proof that most of the mentioned models of computation compute th
- Strong normalization for given terms in the strong call-by-name lambda-calculus (`SNclosed` in [`LambdaCalculus/Lambda.v`](theories/LambdaCalculus/Lambda.v))
- System F Inhabitation (`SysF_INH` in [`SystemF/SysF.v`](theories/SystemF/SysF.v)), System F Typability (`SysF_TYP` in [`SystemF/SysF.v`](theories/SystemF/SysF.v)), System F Type Checking (`SysF_TC` in [`SystemF/SysF.v`](theories/SystemF/SysF.v))
- Intersection Type Inhabitation (`CD_INH` in [`IntersectionTypes/CD.v`](theories/IntersectionTypes/CD.v)), Intersection Type Typability (`CD_TYP` in [`IntersectionTypes/CD.v`](theories/IntersectionTypes/CD.v)), Intersection Type Type Checking (`CD_TC` in [`IntersectionTypes/CD.v`](theories/IntersectionTypes/CD.v))
- Higher-order matching wrt. beta-equivalence (`HOMbeta` in [`LambdaCalculus/HOMatching.v`](theories/LambdaCalculus/HOMatching.v))

#### Decidable Problems

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41 changes: 41 additions & 0 deletions theories/LambdaCalculus/HOMatching.v
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(*
Author(s):
Andrej Dudenhefner (TU Dortmund University, Germany)
Problem(s):
Higher-Order Matching wrt. beta-equivalence (HOMbeta)
Literature:
[1] Loader, Ralph. "Higher order β-matching is undecidable." Logic Journal of the IGPL 11.1 (2003): 51-68.
*)

Require Import List Relation_Operators.

Require Undecidability.L.L Undecidability.LambdaCalculus.Lambda.

(* lambda-term syntax *)
Import L (term, var, app, lam).

(* beta-reduction (strong call-by-name reduction) *)
Import Lambda (step).

(* simple types with a single atom *)
Inductive ty : Type :=
| atom (* type variable *)
| arr (s t : ty). (* function type *)

(*
simply typed lambda-calculus with a single atom
"stlc Gamma M s" means that in the type environment Gamma the term M is assigned the type s
*)
Inductive stlc (Gamma : list ty) : term -> ty -> Prop :=
| stlc_var x t : nth_error Gamma x = Some t -> stlc Gamma (var x) t
| stlc_app M N s t : stlc Gamma M (arr s t) -> stlc Gamma N s -> stlc Gamma (app M N) t
| stlc_lam M s t : stlc (cons s Gamma) M t -> stlc Gamma (lam M) (arr s t).

(* Higher-Order Matching wrt. beta-equivalence *)
Definition HOMbeta : { '(s, t, F, N) : (ty * ty * term * term) | stlc nil F (arr s t) /\ stlc nil N t } -> Prop :=
(* given simply typed terms F : s -> t and N : t *)
fun '(exist _ (s, t, F, N) _) =>
(* is there a simply typed term M : s such that F A is beta-equivalent to B? *)
exists (M : term), stlc nil M s /\ clos_refl_sym_trans term step (app F M) N.
22 changes: 22 additions & 0 deletions theories/LambdaCalculus/HOMatching_undec.v
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(*
Author(s):
Andrej Dudenhefner (TU Dortmund University, Germany)
Undecidability Result(s):
Higher-Order Matching wrt. beta-equivalence (HOMbeta_undec)
*)

From Undecidability.Synthetic Require Import Undecidability.

Require Import Undecidability.LambdaCalculus.HOMatching.
Require Undecidability.LambdaCalculus.Reductions.SSTS01_to_HOMbeta.
Require Import Undecidability.StringRewriting.SSTS_undec.

(* Undecidability of Higher-Order Matching wrt. beta-equivalence *)
Theorem HOMbeta_undec : undecidable HOMbeta.
Proof.
apply (undecidability_from_reducibility SSTS01_undec).
exact SSTS01_to_HOMbeta.reduction.
Qed.

Check HOMbeta_undec.
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Expand Up @@ -334,7 +334,7 @@ Qed.

Lemma closed_colon {s} : closed s -> forall sigma, subst sigma (colon s (lam (var 0))) = colon s (lam (var 0)).
Proof.
move=> Hs sigma. rewrite subst_closed; last done.
move=> Hs sigma. rewrite subst_L_closed; last done.
by apply /closed_dcl /bound_colon; apply /closed_dcl.
Qed.

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