| Quellcodebibliothek Statistik Leitseite products/Sources/formale Sprachen/Roqc/test-suite/bugs/ (Beweissystem des Inria Version 9.1.0©) Datei vom 15.8.2025 mit Größe 4 kB |
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Quelle bug_5797.v Sprache: Coq |
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Set Implicit Arguments.
Open Scope type_scope. Inductive One : Set := inOne: One. Definition maybe: forall A B:Set,(A -> B) -> One + A -> One + B. Proof. intros A B f c. case c. left; assumption. right; apply f; assumption. Defined. Definition id (A:Set)(a:A):=a. Definition LamF (X: Set -> Set)(A:Set) :Set := A + (X A)*(X A) + X(One + A). Definition LamF' (X: Set -> Set)(A:Set) :Set := LamF X A. Definition index := list bool. Inductive L (A:Set) : index -> Set := initL: A -> L A nil | pluslL: forall l:index, One -> L A (cons false l) | plusrL: forall l:index, L A l -> L A (cons false l) | varL: forall l:index, L A l -> L A (cons true l) | appL: forall l:index, L A (cons true l) -> L A (cons true l) -> L A (cons true l) | absL: forall l:index, L A (cons true (cons false l)) -> L A (cons true l). Scheme L_rec_simp := Minimality for L Sort Set. Definition Lam' (A:Set) := L A (cons true nil). Definition aczelapp: forall (l1 l2: index)(A:Set), L (L A l2) l1 -> L A (app l1 l2). Proof. intros l1 l2 A. generalize l1. clear l1. (* Check (fun i:index => L A (i++l2)). *) apply (L_rec_simp (A:=L A l2) (fun i:index => L A (app i l2))). trivial. intros l o. simpl app. apply pluslL; assumption. intros l _ t. simpl app. apply plusrL; assumption. intros l _ t. simpl app. apply varL; assumption. intros l _ t1 _ t2. simpl app in *|-*. Check 0. apply appL; [exact t1| exact t2]. intros l _ t. simpl app in *|-*. Check 0. apply absL; assumption. Defined. Definition monL: forall (l:index)(A:Set)(B:Set), (A->B) -> L A l -> L B l. Proof. intros l A B f. intro t. elim t. intro a. exact (initL (f a)). intros i u. exact (pluslL _ _ u). intros i _ r. exact (plusrL r). intros i _ r. exact (varL r). intros i _ r1 _ r2. exact (appL r1 r2). intros i _ r. exact (absL r). Defined. Definition lam': forall (A B:Set), (A -> B) -> Lam' A -> Lam' B. Proof. intros A B f t. unfold Lam' in *|-*. Check 0. exact (monL f t). Defined. Definition inLam': forall A:Set, LamF' Lam' A -> Lam' A. Proof. intros A [[a|[t1 t2]]|r]. unfold Lam'. exact (varL (initL a)). exact (appL t1 t2). unfold Lam' in * |- *. Check 0. apply absL. change (L A (app (cons true nil) (cons false nil))). apply aczelapp. (* Check (fun x:One + A => (match (maybe (fun a:A => initL a) x) with | inl u => pluslL _ _ u | inr t' => plusrL t' end)). *) exact (monL (fun x:One + A => (match (maybe (fun a:A => initL a) x) with | inl u => pluslL _ _ u | inr t' => plusrL t' end)) r). Defined. Section minimal. Definition sub1 (F G: Set -> Set):= forall A:Set, F A->G A. Hypothesis G: Set -> Set. Hypothesis step: sub1 (LamF' G) G. Fixpoint L'(A:Set)(i:index){struct i} : Set := match i with nil => A | cons false l => One + L' A l | cons true l => G (L' A l) end. Definition LinL': forall (A:Set)(i:index), L A i -> L' A i. Proof. intros A i t. elim t. intro a. unfold L'. assumption. intros l u. left; assumption. intros l _ r. right; assumption. intros l _ r. apply (step (A:=L' A l)). exact (inl _ (inl _ r)). intros l _ r1 _ r2. apply (step (A:=L' A l)). (* unfold L' in * |- *. Check 0. *) exact (inl _ (inr _ (pair r1 r2))). intros l _ r. apply (step (A:=L' A l)). exact (inr _ r). Defined. Definition L'inG: forall A: Set, L' A (cons true nil) -> G A. Proof. intros A t. unfold L' in t. assumption. Defined. Definition Itbasic: sub1 Lam' G. Proof. intros A t. apply L'inG. unfold Lam' in t. exact (LinL' t). Defined. End minimal. Definition recid := Itbasic inLam'. Definition L'Lam'inL: forall (i:index)(A:Set), L' Lam' A i -> L A i. Proof. intros i A t. induction i. unfold L' in t. apply initL. assumption. induction a. simpl L' in t. apply (aczelapp (l1:=cons true nil) (l2:=i)). exact (lam' IHi t). simpl L' in t. induction t. exact (pluslL _ _ a). exact (plusrL (IHi b)). Defined. Lemma recidgen: forall(A:Set)(i:index)(t:L A i), L'Lam'inL i A (LinL' inLam' t) = t. Proof. intros A i t. induction t. trivial. trivial. simpl. rewrite IHt. trivial. simpl L'Lam'inL. rewrite IHt. trivial. simpl L'Lam'inL. simpl L'Lam'inL in IHt1. unfold lam' in IHt1. simpl L'Lam'inL in IHt2. unfold lam' in IHt2. (* going on. This fails for the original solution. *) rewrite IHt1. rewrite IHt2. trivial. Abort. (* one goal still left *) ¤ Dauer der Verarbeitung: 0.11 Sekunden (vorverarbeitet) ¤*© Formatika GbR, Deutschland |
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2026-03-28