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Diffstat (limited to 'test-suite/bugs/closed/shouldsucceed/1784.v')
| -rw-r--r-- | test-suite/bugs/closed/shouldsucceed/1784.v | 101 |
1 files changed, 101 insertions, 0 deletions
diff --git a/test-suite/bugs/closed/shouldsucceed/1784.v b/test-suite/bugs/closed/shouldsucceed/1784.v new file mode 100644 index 00000000..616dd26f --- /dev/null +++ b/test-suite/bugs/closed/shouldsucceed/1784.v @@ -0,0 +1,101 @@ +Require Import List. +Require Import ZArith. +Require String. Open Scope string_scope. +Ltac Case s := let c := fresh "case" in set (c := s). + +Set Implicit Arguments. +Unset Strict Implicit. + +Inductive sv : Set := +| I : Z -> sv +| S : list sv -> sv. + +Section sv_induction. + +Variables + (VP: sv -> Prop) + (LP: list sv -> Prop) + + (VPint: forall n, VP (I n)) + (VPset: forall vs, LP vs -> VP (S vs)) + (lpcons: forall v vs, VP v -> LP vs -> LP (v::vs)) + (lpnil: LP nil). + +Fixpoint setl_value_indp (x:sv) {struct x}: VP x := + match x as x return VP x with + | I n => VPint n + | S vs => + VPset + ((fix values_indp (vs:list sv) {struct vs}: (LP vs) := + match vs as vs return LP vs with + | nil => lpnil + | v::vs => lpcons (setl_value_indp v) (values_indp vs) + end) vs) + end. +End sv_induction. + +Inductive slt : sv -> sv -> Prop := +| IC : forall z, slt (I z) (I z) +| IS : forall vs vs', slist_in vs vs' -> slt (S vs) (S vs') + +with sin : sv -> list sv -> Prop := +| Ihd : forall s s' sv', slt s s' -> sin s (s'::sv') +| Itl : forall s s' sv', sin s sv' -> sin s (s'::sv') + +with slist_in : list sv -> list sv -> Prop := +| Inil : forall sv', + slist_in nil sv' +| Icons : forall s sv sv', + sin s sv' -> + slist_in sv sv' -> + slist_in (s::sv) sv'. + +Hint Constructors sin slt slist_in. + +Require Import Program. + +Program Fixpoint lt_dec (x y:sv) { struct x } : {slt x y}+{~slt x y} := + match x with + | I x => + match y with + | I y => if (Z_eq_dec x y) then in_left else in_right + | S ys => in_right + end + | S xs => + match y with + | I y => in_right + | S ys => + let fix list_in (xs ys:list sv) {struct xs} : + {slist_in xs ys} + {~slist_in xs ys} := + match xs with + | nil => in_left + | x::xs => + let fix elem_in (ys:list sv) : {sin x ys}+{~sin x ys} := + match ys with + | nil => in_right + | y::ys => if lt_dec x y then in_left else if elem_in + ys then in_left else in_right + end + in + if elem_in ys then + if list_in xs ys then in_left else in_right + else in_right + end + in if list_in xs ys then in_left else in_right + end + end. + +Next Obligation. apply H; inversion H0; subst; trivial. Defined. +Next Obligation. inversion H. Defined. +Next Obligation. inversion H. Defined. +Next Obligation. inversion H; subst. Defined. +Next Obligation. + contradict H. inversion H1; subst. assumption. + contradict H0; assumption. Defined. +Next Obligation. + contradict H0. inversion H1; subst. assumption. Defined. +Next Obligation. + contradict H. inversion H0; subst. assumption. Defined. +Next Obligation. + contradict H. inversion H0; subst; auto. Defined. + |