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Streamline some syntactic proofs
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Ailrun committed May 6, 2024
1 parent dfa9303 commit a55abb3
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2 changes: 2 additions & 0 deletions theories/Core/Syntactic/Presup.v
Original file line number Diff line number Diff line change
@@ -1,5 +1,6 @@
From Mcltt Require Import Base CtxEquiv LibTactics Relations Syntax System SystemLemmas.

#[local]
Ltac gen_presup_ctx H :=
match type of H with
| {{ ⊢ ~?Γ ≈ ~?Δ }} =>
Expand All @@ -13,6 +14,7 @@ Ltac gen_presup_ctx H :=
| _ => idtac
end.

#[local]
Ltac gen_presup_IH presup_exp presup_exp_eq presup_sub_eq H :=
match type of H with
| {{ ~?Γ ⊢ ~?M : ~?A }} =>
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22 changes: 11 additions & 11 deletions theories/Core/Syntactic/Relations.v
Original file line number Diff line number Diff line change
@@ -1,27 +1,27 @@
From Coq Require Import Setoid.

From Mcltt Require Import Base CtxEquiv LibTactics Syntax System SystemLemmas.

Lemma ctx_eq_refl : forall {Γ}, {{ ⊢ Γ }} -> {{ ⊢ Γ ≈ Γ }}.
Proof with mauto.
intros * HΓ.
induction HΓ...
Proof with solve [mauto].
induction 1...
Qed.

#[export]
Hint Resolve ctx_eq_refl : mcltt.

Lemma ctx_eq_trans : forall {Γ0 Γ1 Γ2}, {{ ⊢ Γ0 ≈ Γ1 }} -> {{ ⊢ Γ1 ≈ Γ2 }} -> {{ ⊢ Γ0 ≈ Γ2 }}.
Proof with mauto.
Proof with solve [mauto].
intros * HΓ01 HΓ12.
gen Γ2.
induction HΓ01 as [|? ? ? i01 * HΓ01 IHΓ01 HΓ0T0 _ HΓ0T01 _]; intros...
induction HΓ01 as [|Γ0 ? T0 i01 T1]; intros; mauto.
rename HΓ12 into HT1Γ12.
inversion_clear HT1Γ12 as [|? ? ? i12 * HΓ12' _ HΓ2'T2 _ HΓ2'T12].
pose proof (lift_exp_max_left i12 HΓ0T0).
pose proof (lift_exp_max_right i01 HΓ2'T2).
pose proof (lift_exp_eq_max_left i12 HΓ0T01).
pose proof (lift_exp_eq_max_right i01 HΓ2'T12).
inversion_clear HT1Γ12 as [|? Γ2' ? i12 T2].
clear Γ2; rename Γ2' into Γ2.
set (i := max i01 i12).
assert {{ Γ0 ⊢ T0 : Type@i }} by mauto using lift_exp_max_left.
assert {{ Γ2 ⊢ T2 : Type@i }} by mauto using lift_exp_max_right.
assert {{ Γ0 ⊢ T0 ≈ T1 : Type@i }} by mauto using lift_exp_eq_max_left.
assert {{ Γ2 ⊢ T1 ≈ T2 : Type@i }} by mauto using lift_exp_eq_max_right.
econstructor...
Qed.

Expand Down
61 changes: 25 additions & 36 deletions theories/Core/Syntactic/SystemLemmas.v
Original file line number Diff line number Diff line change
Expand Up @@ -2,22 +2,21 @@ From Mcltt Require Import Base LibTactics System Syntax.

Lemma ctx_decomp : forall {Γ A}, {{ ⊢ Γ , A }} -> {{ ⊢ Γ }} /\ exists i, {{ Γ ⊢ A : Type@i }}.
Proof with solve [mauto].
intros * HAΓ.
inversion HAΓ; subst...
inversion 1; subst...
Qed.

#[export]
Hint Resolve ctx_decomp : mcltt.

Lemma ctx_decomp_left : forall {Γ A}, {{ ⊢ Γ , A }} -> {{ ⊢ Γ }}.
Proof with solve [eauto].
intros * HAΓ.
intros.
eapply proj1, ctx_decomp...
Qed.

Lemma ctx_decomp_right : forall {Γ A}, {{ ⊢ Γ , A }} -> exists i, {{ Γ ⊢ A : Type@i }}.
Proof with solve [eauto].
intros * HAΓ.
intros.
eapply proj2, ctx_decomp...
Qed.

Expand All @@ -26,8 +25,7 @@ Hint Resolve ctx_decomp_left ctx_decomp_right : mcltt.

Lemma lift_exp_ge : forall {Γ A n m}, n <= m -> {{ Γ ⊢ A : Type@n }} -> {{ Γ ⊢ A : Type@m }}.
Proof with solve [mauto].
intros * Hnm HA.
induction Hnm...
induction 1...
Qed.

#[export]
Expand All @@ -47,8 +45,7 @@ Qed.

Lemma lift_exp_eq_ge : forall {Γ A A' n m}, n <= m -> {{ Γ ⊢ A ≈ A': Type@n }} -> {{ Γ ⊢ A ≈ A' : Type@m }}.
Proof with solve [mauto].
intros * Hnm HAA'.
induction Hnm; subst...
induction 1; subst...
Qed.

#[export]
Expand All @@ -68,19 +65,18 @@ Qed.

Lemma presup_ctx_eq : forall {Γ Δ}, {{ ⊢ Γ ≈ Δ }} -> {{ ⊢ Γ }} /\ {{ ⊢ Δ }}.
Proof with solve [mauto].
intros * HΓΔ.
induction HΓΔ as [|* ? []]...
induction 1 as [|* ? []]...
Qed.

Lemma presup_ctx_eq_left : forall {Γ Δ}, {{ ⊢ Γ ≈ Δ }} -> {{ ⊢ Γ }}.
Proof with solve [eauto].
intros * HΓΔ.
intros.
eapply proj1, presup_ctx_eq...
Qed.

Lemma presup_ctx_eq_right : forall {Γ Δ}, {{ ⊢ Γ ≈ Δ }} -> {{ ⊢ Δ }}.
Proof with solve [eauto].
intros * HΓΔ.
intros.
eapply proj2, presup_ctx_eq...
Qed.

Expand All @@ -89,19 +85,18 @@ Hint Resolve presup_ctx_eq presup_ctx_eq_left presup_ctx_eq_right : mcltt.

Lemma presup_sub_ctx : forall {Γ Δ σ}, {{ Γ ⊢s σ : Δ }} -> {{ ⊢ Γ }} /\ {{ ⊢ Δ }}.
Proof with solve [mauto].
intros * Hσ.
induction Hσ; repeat destruct_one_pair...
induction 1; repeat destruct_one_pair...
Qed.

Lemma presup_sub_ctx_left : forall {Γ Δ σ}, {{ Γ ⊢s σ : Δ }} -> {{ ⊢ Γ }}.
Proof with solve [eauto].
intros * Hσ.
intros.
eapply proj1, presup_sub_ctx...
Qed.

Lemma presup_sub_ctx_right : forall {Γ Δ σ}, {{ Γ ⊢s σ : Δ }} -> {{ ⊢ Δ }}.
Proof with solve [eauto].
intros * Hσ.
intros.
eapply proj2, presup_sub_ctx...
Qed.

Expand All @@ -110,28 +105,26 @@ Hint Resolve presup_sub_ctx presup_sub_ctx_left presup_sub_ctx_right : mcltt.

Lemma presup_exp_ctx : forall {Γ M A}, {{ Γ ⊢ M : A }} -> {{ ⊢ Γ }}.
Proof with solve [mauto].
intros * HM.
induction HM...
induction 1...
Qed.

#[export]
Hint Resolve presup_exp_ctx : mcltt.

Lemma presup_sub_eq_ctx : forall {Γ Δ σ σ'}, {{ Γ ⊢s σ ≈ σ' : Δ }} -> {{ ⊢ Γ }} /\ {{ ⊢ Δ }}.
Proof with solve [mauto].
intros * Hσσ'.
induction Hσσ'; repeat destruct_one_pair...
induction 1; repeat destruct_one_pair...
Qed.

Lemma presup_sub_eq_ctx_left : forall {Γ Δ σ σ'}, {{ Γ ⊢s σ ≈ σ' : Δ }} -> {{ ⊢ Γ }}.
Proof with solve [eauto].
intros * Hσσ'.
intros.
eapply proj1, presup_sub_eq_ctx...
Qed.

Lemma presup_sub_eq_ctx_right : forall {Γ Δ σ σ'}, {{ Γ ⊢s σ ≈ σ' : Δ }} -> {{ ⊢ Δ }}.
Proof with solve [eauto].
intros * Hσσ'.
intros.
eapply proj2, presup_sub_eq_ctx...
Qed.

Expand All @@ -140,8 +133,7 @@ Hint Resolve presup_sub_eq_ctx presup_sub_eq_ctx_left presup_sub_eq_ctx_right :

Lemma presup_exp_eq_ctx : forall {Γ M M' A}, {{ Γ ⊢ M ≈ M' : A }} -> {{ ⊢ Γ }}.
Proof with solve [mauto].
intros * HMM'.
induction HMM'...
induction 1...
Unshelve.
all: constructor.
Qed.
Expand All @@ -167,8 +159,7 @@ Hint Resolve sub_eq_refl : mcltt.

Lemma ctx_eq_sym : forall {Γ Δ}, {{ ⊢ Γ ≈ Δ }} -> {{ ⊢ Δ ≈ Γ }}.
Proof with solve [mauto].
intros * HΓΔ.
induction HΓΔ...
induction 1...
Qed.

#[export]
Expand Down Expand Up @@ -240,8 +231,7 @@ Qed.

Lemma exp_eq_var_1_sub_typ : forall {Γ σ Δ A i M j}, {{ Γ ⊢s σ : Δ }} -> {{ Δ ⊢ A : Type@i }} -> {{ Γ ⊢ M : A[σ] }} -> {{ #0 : Type@j[Wk] ∈ Δ }} -> {{ Γ ⊢ #1[σ ,, M] ≈ #0[σ] : Type@j }}.
Proof with solve [mauto].
intros * ? ? ? Hvar0.
inversion Hvar0 as [? Δ'|]; subst.
inversion 4 as [? Δ'|]; subst.
assert {{ ⊢ Δ' }} by mauto.
eapply wf_exp_eq_conv...
Qed.
Expand All @@ -251,9 +241,9 @@ Hint Resolve exp_eq_var_0_sub_typ exp_eq_var_1_sub_typ : mcltt.

Lemma exp_eq_var_0_weaken_typ : forall {Γ A i}, {{ ⊢ Γ , A }} -> {{ #0 : Type@i[Wk] ∈ Γ }} -> {{ Γ , A ⊢ #0[Wk] ≈ #1 : Type@i }}.
Proof with solve [mauto].
intros * ? Hvar0.
intros * ?.
assert {{ ⊢ Γ }} by mauto.
inversion Hvar0 as [? Γ'|]; subst.
inversion 1 as [? Γ'|]; subst.
assert {{ ⊢ Γ' }} by mauto.
eapply wf_exp_eq_conv; only 1: solve [mauto].
eapply exp_eq_typ_sub_sub; [|solve [mauto]]...
Expand Down Expand Up @@ -394,8 +384,7 @@ Qed.

Lemma exp_eq_var_1_sub_nat : forall {Γ σ Δ A i M}, {{ Γ ⊢s σ : Δ }} -> {{ Δ ⊢ A : Type@i }} -> {{ Γ ⊢ M : A[σ] }} -> {{ #0 : ℕ[Wk] ∈ Δ }} -> {{ Γ ⊢ #1[σ ,, M] ≈ #0[σ] : ℕ }}.
Proof with solve [mauto].
intros * ? ? ? Hvar0.
inversion Hvar0 as [? Δ'|]; subst.
inversion 4 as [? Δ'|]; subst.
assert {{ ⊢ Δ' }} by mauto.
assert {{ Γ ⊢ #1[σ,, M] ≈ #0[σ] : ℕ[Wk][σ] }}...
Unshelve.
Expand All @@ -407,9 +396,9 @@ Hint Resolve exp_eq_var_0_sub_nat exp_eq_var_1_sub_nat : mcltt.

Lemma exp_eq_var_0_weaken_nat : forall {Γ A}, {{ ⊢ Γ , A }} -> {{ #0 : ℕ[Wk] ∈ Γ }} -> {{ Γ , A ⊢ #0[Wk] ≈ #1 : ℕ }}.
Proof with solve [mauto].
intros * ? Hvar0.
intros * ?.
assert {{ ⊢ Γ }} by mauto.
inversion Hvar0 as [? Γ'|]; subst.
inversion 1 as [? Γ'|]; subst.
assert {{ ⊢ Γ' }} by mauto.
assert {{ Γ', ℕ, A ⊢ #0[Wk] ≈ # 1 : ℕ[Wk][Wk] }}...
Unshelve.
Expand Down Expand Up @@ -485,8 +474,8 @@ Hint Resolve exp_eq_sub_sub_compose_cong : mcltt.

Lemma ctx_lookup_wf : forall {Γ A x}, {{ ⊢ Γ }} -> {{ #x : A ∈ Γ }} -> exists i, {{ Γ ⊢ A : Type@i }}.
Proof with solve [mauto].
intros * HΓ Hx.
induction Hx; inversion_clear HΓ; [|assert (exists i, {{ Γ ⊢ A : Type@i }}) as [] by eauto]...
intros * HΓ.
induction 1; inversion_clear HΓ; [|assert (exists i, {{ Γ ⊢ A : Type@i }}) as [] by eauto]...
Qed.

#[export]
Expand Down

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