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Some heftier ModelChecking examples
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3 changed files with 110 additions and 25 deletions
2
Frap.v
2
Frap.v
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@ -43,7 +43,7 @@ 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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Ltac simplify := repeat progress (simpl in *; intros; try autorewrite with core in *);
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Ltac simplify := repeat progress (simpl in *; intros; try autorewrite with core in *; repeat unifyTails);
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repeat (removeDups || doSubtract).
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Ltac propositional := intuition idtac.
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122
ModelChecking.v
122
ModelChecking.v
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@ -146,13 +146,24 @@ Proof.
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constructor.
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Qed.
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Theorem singleton_in : forall {A} (x : A),
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{x} x.
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Theorem singleton_in : forall {A} (x : A) rest,
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({x} \cup rest) x.
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Proof.
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simplify.
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left.
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simplify.
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equality.
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Qed.
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Theorem singleton_in_other : forall {A} (x : A) (s1 s2 : set A),
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s2 x
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-> (s1 \cup s2) x.
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Proof.
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simplify.
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right.
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assumption.
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Qed.
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Theorem factorial_ok_2 :
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invariantFor (factorial_sys 2) (fact_correct 2).
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Proof.
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@ -213,13 +224,19 @@ Ltac model_check_done :=
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| [ H : _ |- _ ] => invert H
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end; simplify; equality.
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Ltac singletoner :=
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repeat match goal with
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| _ => apply singleton_in
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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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repeat ((apply oneStepClosure_empty; simplify)
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|| (apply oneStepClosure_split; [ simplify;
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repeat match goal with
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| [ H : _ |- _ ] => invert H
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end; apply singleton_in | ]))
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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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@ -246,8 +263,8 @@ Proof.
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model_check.
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Qed.
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Theorem factorial_ok_4 :
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invariantFor (factorial_sys 4) (fact_correct 4).
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Theorem factorial_ok_5 :
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invariantFor (factorial_sys 5) (fact_correct 5).
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Proof.
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model_check.
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Qed.
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@ -255,21 +272,6 @@ Qed.
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(** * Getting smarter about not exploring from the same state twice *)
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(*Theorem oneStepClosure_new_done : forall state (sys : trsys state) (invariant : state -> Prop),
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(forall st, sys.(Initial) st -> invariant st)
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-> oneStepClosure_new sys invariant invariant
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-> invariantFor sys invariant.
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Proof.
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unfold oneStepClosure_new.
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propositional.
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apply invariant_induction.
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assumption.
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simplify.
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eapply H2.
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eassumption.
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assumption.
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Qed.*)
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Inductive multiStepClosure_smarter {state} (sys : trsys state)
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: (state -> Prop) -> (state -> Prop) -> (state -> Prop) -> Prop :=
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| MscsDone : forall inv worklist,
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@ -383,21 +385,23 @@ Ltac smodel_check_done :=
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Ltac smodel_check_step :=
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eapply MscsStep; [
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repeat ((apply oneStepClosure_new_empty; simplify)
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repeat ((apply oneStepClosure_new_empty; solve [ simplify ])
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|| (apply oneStepClosure_new_split; [ simplify;
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repeat match goal with
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| [ H : _ |- _ ] => invert H
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end; apply singleton_in | ]))
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end; solve [ singletoner ] | ]))
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| simplify ].
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Ltac smodel_check_steps1 := smodel_check_done || smodel_check_step.
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Ltac smodel_check_steps := repeat smodel_check_steps1.
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Ltac smodel_check_find_invariant :=
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Ltac smodel_check_setup :=
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simplify; eapply invariantFor_weaken; [
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apply multiStepClosure_smarter_ok; simplify; smodel_check_steps
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apply multiStepClosure_smarter_ok; simplify
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| ].
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Ltac smodel_check_find_invariant := smodel_check_setup; [ smodel_check_steps | ].
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Ltac smodel_check := smodel_check_find_invariant; model_check_finish.
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Theorem factorial_ok_2_smarter_snazzy :
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@ -417,3 +421,73 @@ Theorem factorial_ok_5_smarter_snazzy :
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Proof.
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smodel_check.
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Qed.
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(** * Back to the multithreaded example from last time *)
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Theorem increment2_init_is :
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parallel1 increment_init increment_init = { {| Shared := {| Global := 0; Locked := false |};
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Private := (Lock, Lock) |} }.
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Proof.
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simplify.
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apply sets_equal; simplify.
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propositional.
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invert H.
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invert H2.
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invert H4.
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equality.
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rewrite <- H0.
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constructor.
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constructor.
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constructor.
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Qed.
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Hint Rewrite increment2_init_is.
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(*Theorem increment2_ok :
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invariantFor increment2_sys increment2_right_answer.
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Proof.
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unfold increment2_right_answer.
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smodel_check.
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Qed.*)
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Definition increment3_sys := parallel increment_sys increment2_sys.
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Definition increment3_right_answer
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(s : threaded_state inc_state (increment_program * (increment_program * increment_program))) :=
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s.(Private) = (Done, (Done, Done))
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-> s.(Shared).(Global) = 3.
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Theorem increment3_init_is :
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parallel1 increment_init (parallel1 increment_init increment_init)
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= { {| Shared := {| Global := 0; Locked := false |};
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Private := (Lock, (Lock, Lock)) |} }.
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Proof.
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simplify.
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apply sets_equal; simplify.
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propositional.
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invert H.
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invert H2.
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invert H4.
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equality.
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invert H.
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rewrite <- H0.
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constructor.
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constructor.
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constructor.
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constructor.
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Qed.
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Hint Rewrite increment3_init_is.
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Theorem increment3_ok :
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invariantFor increment3_sys increment3_right_answer.
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Proof.
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unfold increment3_right_answer.
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smodel_check_find_invariant.
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model_check_finish.
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Qed.
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11
Sets.v
11
Sets.v
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@ -238,3 +238,14 @@ Ltac doSubtract :=
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|| (apply DsKeep; [ simpl; intuition congruence | ])
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|| (apply DsDrop; [ simpl; intuition congruence | ]))
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end.
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(** Undetermined set variables in fixed points should be turned into the empty set. *)
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Ltac unifyTails :=
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match goal with
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| [ |- context[_ \cup ?x] ] => is_evar x;
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match type of x with
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| set ?A => unify x (constant (@nil A))
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| ?A -> Prop => unify x (constant (@nil A))
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end
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end.
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