add equivalence relation for debruijn types

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Michael Sippel 2024-09-20 20:30:32 +02:00
parent f174eb1061
commit 1d6fb9ab6d
2 changed files with 181 additions and 0 deletions

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@ -7,6 +7,7 @@ Atom.v
Metatheory.v Metatheory.v
terms_debruijn.v terms_debruijn.v
equiv_debruijn.v
subst_lemmas_debruijn.v subst_lemmas_debruijn.v
terms.v terms.v

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coq/equiv_debruijn.v Normal file
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Require Import terms_debruijn.
Open Scope ladder_type_scope.
Open Scope ladder_expr_scope.
Reserved Notation "S '-->distribute-ladder' T" (at level 40).
Inductive type_distribute_ladder : type_DeBruijn -> type_DeBruijn -> Prop :=
| L_DistributeOverSpec1 : forall x x' y,
[< <x~x' y> >]
-->distribute-ladder
[< <x y>~<x' y> >]
| L_DistributeOverSpec2 : forall x y y',
[< <x y~y'> >]
-->distribute-ladder
[< <x y>~<x y'> >]
| L_DistributeOverFun1 : forall x x' y,
[< (x~x' -> y) >]
-->distribute-ladder
[< (x -> y) ~ (x' -> y) >]
| L_DistributeOverFun2 : forall x y y',
[< (x -> y~y') >]
-->distribute-ladder
[< (x -> y) ~ (x -> y') >]
| L_DistributeOverMorph1 : forall x x' y,
[< (x~x' ->morph y) >]
-->distribute-ladder
[< (x ->morph y) ~ (x' ->morph y) >]
| L_DistributeOverMorph2 : forall x y y',
[< x ->morph y~y' >]
-->distribute-ladder
[< (x ->morph y) ~ (x ->morph y') >]
where "S '-->distribute-ladder' T" := (type_distribute_ladder S T).
Reserved Notation "S '-->condense-ladder' T" (at level 40).
Inductive type_condense_ladder : type_DeBruijn -> type_DeBruijn -> Prop :=
| L_CondenseOverSpec1 : forall x x' y,
[< <x y>~<x' y> >]
-->condense-ladder
[< <x~x' y> >]
| L_CondenseOverSpec2 : forall x y y',
[< <x y>~<x y'> >]
-->condense-ladder
[< <x y~y'> >]
| L_CondenseOverFun1 : forall x x' y,
[< (x -> y) ~ (x' -> y) >]
-->condense-ladder
[< (x~x') -> y >]
| L_CondenseOverFun2 : forall x y y',
[< (x -> y) ~ (x -> y') >]
-->condense-ladder
[< (x -> y~y') >]
| L_CondenseOverMorph1 : forall x x' y,
[< (x ->morph y) ~ (x' ->morph y) >]
-->condense-ladder
[< (x~x' ->morph y) >]
| L_CondenseOverMorph2 : forall x y y',
[< (x ->morph y) ~ (x ->morph y') >]
-->condense-ladder
[< (x ->morph y~y') >]
where "S '-->condense-ladder' T" := (type_condense_ladder S T).
Create HintDb type_eq_hints.
Hint Constructors type_distribute_ladder : type_eq_hints.
Hint Constructors type_condense_ladder : type_eq_hints.
(** Inversion Lemma:
`-->distribute-ladder` is the inverse of `-->condense-ladder
*)
Lemma distribute_inverse :
forall x y,
x -->distribute-ladder y ->
y -->condense-ladder x.
Proof.
intros.
destruct H.
all: auto with type_eq_hints.
Qed.
(** Inversion Lemma:
`-->condense-ladder` is the inverse of `-->distribute-ladder`
*)
Lemma condense_inverse :
forall x y,
x -->condense-ladder y ->
y -->distribute-ladder x.
Proof.
intros.
destruct H.
all: auto with type_eq_hints.
Qed.
(** Define the equivalence relation as reflexive, transitive hull. $\label{coq:type-equiv}$ *)
Reserved Notation " S '===' T " (at level 40).
Inductive type_eq : type_DeBruijn -> type_DeBruijn -> Prop :=
| TEq_Refl : forall x,
x === x
| TEq_Trans : forall x y z,
x === y ->
y === z ->
x === z
| TEq_SubFun : forall x x' y y',
x === x' ->
y === y' ->
[< x -> y >] === [< x' -> y' >]
| TEq_SubMorph : forall x x' y y',
x === x' ->
y === y' ->
[< x ->morph y >] === [< x' ->morph y' >]
| TEq_LadderAssocLR : forall x y z,
[< (x~y)~z >]
===
[< x~(y~z) >]
| TEq_LadderAssocRL : forall x y z,
[< x~(y~z) >]
===
[< (x~y)~z >]
| TEq_Distribute : forall x y,
x -->distribute-ladder y ->
x === y
| TEq_Condense : forall x y,
x -->condense-ladder y ->
x === y
where "S '===' T" := (type_eq S T).
(** Symmetry of === *)
Lemma TEq_Symm :
forall x y,
(x === y) -> (y === x).
Proof.
intros.
induction H.
apply TEq_Refl.
apply TEq_Trans with (y:=y).
apply IHtype_eq2.
apply IHtype_eq1.
apply TEq_SubFun.
auto. auto.
apply TEq_SubMorph.
auto. auto.
apply TEq_LadderAssocRL.
apply TEq_LadderAssocLR.
apply TEq_Condense.
apply distribute_inverse.
apply H.
apply TEq_Distribute.
apply condense_inverse.
apply H.
Qed.