2016-02-21 17:16:31 +00:00
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Require Import String Arith Omega Program Sets Relations Map Var Invariant Bool ModelCheck.
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Export String Arith Sets Relations Map Var Invariant Bool ModelCheck.
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2015-12-31 20:44:34 +00:00
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Require Import List.
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2016-02-02 17:38:00 +00:00
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Export List ListNotations.
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2015-12-31 20:44:34 +00:00
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Open Scope string_scope.
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2016-02-06 23:24:06 +00:00
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Open Scope list_scope.
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2015-12-31 20:44:34 +00:00
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Ltac inductN n :=
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match goal with
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| [ |- forall x : ?E, _ ] =>
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match type of E with
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| Prop =>
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let H := fresh in intro H;
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match n with
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| 1 => dependent induction H
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| S ?n' => inductN n'
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end
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| _ => intro; inductN n
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end
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end.
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Ltac induct e := inductN e || dependent induction e.
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Ltac invert' H := inversion H; clear H; subst.
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Ltac invertN n :=
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match goal with
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| [ |- forall x : ?E, _ ] =>
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match type of E with
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| Prop =>
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let H := fresh in intro H;
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match n with
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| 1 => invert' H
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| S ?n' => invertN n'
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end
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| _ => intro; invertN n
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end
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end.
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Ltac invert e := invertN e || invert' e.
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Ltac invert0 e := invert e; fail.
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Ltac invert1 e := invert0 e || (invert e; []).
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Ltac invert2 e := invert1 e || (invert e; [|]).
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2016-02-23 23:59:50 +00:00
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Ltac maps_neq :=
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match goal with
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| [ H : ?m1 = ?m2 |- _ ] =>
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let rec recur E :=
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match E with
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| ?E' $+ (?k, _) =>
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(apply (f_equal (fun m => m $? k)) in H; simpl in *; autorewrite with core in *; simpl in *; congruence)
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|| recur E'
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end in
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recur m1 || recur m2
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end.
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Ltac fancy_neq :=
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repeat match goal with
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| _ => maps_neq
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| [ H : _ = _ |- _ ] => invert H
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end.
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Ltac removeDups :=
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match goal with
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| [ |- context[constant ?ls] ] =>
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someMatch ls;
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erewrite (@removeDups_ok _ ls)
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by repeat (apply RdNil
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|| (apply RdNew; [ simpl; intuition (congruence || solve [ fancy_neq ]) | ])
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|| (apply RdDup; [ simpl; intuition congruence | ]))
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end.
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2016-02-18 22:51:58 +00:00
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Ltac simplify := repeat (unifyTails; pose proof I);
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repeat match goal with
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| [ H : True |- _ ] => clear H
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end;
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repeat progress (simpl in *; intros; try autorewrite with core in *);
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repeat (removeDups || doSubtract).
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2016-02-09 18:11:58 +00:00
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Ltac propositional := intuition idtac.
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2015-12-31 20:44:34 +00:00
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2016-01-17 01:32:12 +00:00
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Ltac linear_arithmetic := intros;
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2015-12-31 20:44:34 +00:00
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repeat match goal with
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| [ |- context[max ?a ?b] ] =>
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let Heq := fresh "Heq" in destruct (Max.max_spec a b) as [[? Heq] | [? Heq]];
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rewrite Heq in *; clear Heq
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| [ _ : context[max ?a ?b] |- _ ] =>
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let Heq := fresh "Heq" in destruct (Max.max_spec a b) as [[? Heq] | [? Heq]];
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rewrite Heq in *; clear Heq
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| [ |- context[min ?a ?b] ] =>
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let Heq := fresh "Heq" in destruct (Min.min_spec a b) as [[? Heq] | [? Heq]];
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rewrite Heq in *; clear Heq
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| [ _ : context[min ?a ?b] |- _ ] =>
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let Heq := fresh "Heq" in destruct (Min.min_spec a b) as [[? Heq] | [? Heq]];
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rewrite Heq in *; clear Heq
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end; omega.
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2016-02-09 21:28:48 +00:00
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Ltac equality := intuition congruence.
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2015-12-31 20:44:34 +00:00
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Ltac cases E :=
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2016-02-06 23:24:06 +00:00
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((is_var E; destruct E)
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|| match type of E with
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| {_} + {_} => destruct E
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| _ => let Heq := fresh "Heq" in destruct E eqn:Heq
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end);
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repeat match goal with
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| [ H : _ = left _ |- _ ] => clear H
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| [ H : _ = right _ |- _ ] => clear H
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end.
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2016-01-17 01:32:12 +00:00
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Global Opaque max min.
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2016-02-07 03:09:37 +00:00
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Infix "==n" := eq_nat_dec (no associativity, at level 50).
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2016-03-07 01:30:05 +00:00
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Infix "<=?" := le_lt_dec.
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2016-02-07 03:09:37 +00:00
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Export Frap.Map.
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2016-02-07 14:14:13 +00:00
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Ltac maps_equal := Frap.Map.M.maps_equal; simplify.
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2016-02-16 00:39:36 +00:00
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Ltac first_order := firstorder idtac.
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2016-02-21 17:16:31 +00:00
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(** * Model checking *)
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Ltac model_check_done :=
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apply MscDone; apply prove_oneStepClosure; simplify; propositional; subst;
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repeat match goal with
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2016-02-21 22:00:01 +00:00
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| [ H : ?P |- _ ] =>
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match type of P with
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| Prop => invert H; simplify
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end
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end; equality.
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2016-02-21 17:16:31 +00:00
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Ltac singletoner :=
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repeat match goal with
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2016-02-22 22:53:31 +00:00
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(* | _ => apply singleton_in *)
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| [ |- _ ?S ] => idtac S; apply singleton_in
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2016-02-21 17:16:31 +00:00
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| [ |- (_ \cup _) _ ] => apply singleton_in_other
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end.
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Ltac model_check_step :=
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eapply MscStep; [
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2016-02-21 18:39:22 +00:00
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repeat (apply oneStepClosure_empty
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2016-02-21 17:16:31 +00:00
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|| (apply oneStepClosure_split; [ simplify;
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repeat match goal with
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2016-02-21 22:00:01 +00:00
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| [ H : ?P |- _ ] =>
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match type of P with
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| Prop => invert H; simplify; try congruence
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end
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2016-02-21 17:16:31 +00:00
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end; solve [ singletoner ] | ]))
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| simplify ].
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Ltac model_check_steps1 := model_check_done || model_check_step.
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Ltac model_check_steps := repeat model_check_steps1.
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2016-02-23 20:23:16 +00:00
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Ltac model_check_finish := simplify; propositional; subst; simplify; try equality; try linear_arithmetic.
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2016-02-21 17:16:31 +00:00
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Ltac model_check_infer :=
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apply multiStepClosure_ok; simplify; model_check_steps.
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Ltac model_check_find_invariant :=
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simplify; eapply invariant_weaken; [ model_check_infer | ]; cbv beta in *.
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Ltac model_check := model_check_find_invariant; model_check_finish.
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2016-02-23 20:23:16 +00:00
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Inductive ordering (n m : nat) :=
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| Lt (_ : n < m)
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| Eq (_ : n = m)
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| Gt (_ : n > m).
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Local Hint Constructors ordering.
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Local Hint Extern 1 (_ < _) => omega.
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Local Hint Extern 1 (_ > _) => omega.
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Theorem totally_ordered : forall n m, ordering n m.
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Proof.
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induction n; destruct m; simpl; eauto.
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destruct (IHn m); eauto.
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Qed.
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Ltac total_ordering N M := destruct (totally_ordered N M).
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2016-03-05 21:07:11 +00:00
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Ltac inList x xs :=
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match xs with
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| (x, _) => constr:true
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| (_, ?xs') => inList x xs'
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| _ => constr:false
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end.
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Ltac maybe_simplify_map m found kont :=
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match m with
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| @empty ?A ?B => kont (@empty A B)
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| ?m' $+ (?k, ?v) =>
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let iL := inList k found in
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match iL with
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| true => maybe_simplify_map m' found kont
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| false =>
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maybe_simplify_map m' (k, found) ltac:(fun m' => kont (m' $+ (k, v)))
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end
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end.
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Ltac simplify_map' m found kont :=
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match m with
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| ?m' $+ (?k, ?v) =>
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let iL := inList k found in
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match iL with
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| true => maybe_simplify_map m' found kont
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| false =>
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simplify_map' m' (k, found) ltac:(fun m' => kont (m' $+ (k, v)))
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end
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end.
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Ltac simplify_map :=
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match goal with
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| [ |- context[@add ?A ?B ?m ?k ?v] ] =>
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simplify_map' (m $+ (k, v)) tt ltac:(fun m' =>
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replace (@add A B m k v) with m' by maps_equal)
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end.
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2016-03-05 23:36:39 +00:00
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Ltac sets := Sets.sets ltac:(simpl in *; intuition (subst; auto)).
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