From algebra Require Export upred_tactics.
From heap_lang Require Export tactics substitution.
Import uPred.
(** wp-specific helper tactics *)
Ltac wp_bind K :=
lazymatch eval hnf in K with
| [] => idtac
| _ => etrans; [|solve [ apply (wp_bind K) ]]; simpl
end.
Ltac wp_finish :=
let rec go :=
match goal with
| |- _ ⊑ ▷ _ => etrans; [|apply later_mono; go; reflexivity]
| |- _ ⊑ wp _ _ _ =>
etrans; [|eapply wp_value_pvs; reflexivity];
(* sometimes, we will have to do a final view shift, so only apply
pvs_intro if we obtain a consecutive wp *)
try (eapply pvs_intro;
match goal with |- _ ⊑ wp _ _ _ => simpl | _ => fail end)
| _ => idtac
end in simpl; intros_revert go.
Tactic Notation "wp_rec" ">" :=
löb ltac:(
(* Find the redex and apply wp_rec *)
idtac; (* *)
lazymatch goal with
| |- _ ⊑ wp ?E ?e ?Q => reshape_expr e ltac:(fun K e' =>
match eval cbv in e' with
| App (Rec _ _ _) _ =>
wp_bind K; etrans;
[|eapply wp_rec; repeat (reflexivity || rewrite /= to_of_val)];
wp_finish
end)
end).
Tactic Notation "wp_rec" := wp_rec>; try strip_later.
Tactic Notation "wp_lam" ">" :=
match goal with
| |- _ ⊑ wp ?E ?e ?Q => reshape_expr e ltac:(fun K e' =>
match eval cbv in e' with
| App (Rec "" _ _) _ =>
wp_bind K; etrans;
[|eapply wp_lam; repeat (reflexivity || rewrite /= to_of_val)];
wp_finish
end)
end.
Tactic Notation "wp_lam" := wp_lam>; try strip_later.
Tactic Notation "wp_let" ">" := wp_lam>.
Tactic Notation "wp_let" := wp_lam.
Tactic Notation "wp_seq" ">" := wp_let>.
Tactic Notation "wp_seq" := wp_let.
Tactic Notation "wp_op" ">" :=
match goal with
| |- _ ⊑ wp ?E ?e ?Q => reshape_expr e ltac:(fun K e' =>
match eval cbv in e' with
| BinOp LtOp _ _ => wp_bind K; apply wp_lt; wp_finish
| BinOp LeOp _ _ => wp_bind K; apply wp_le; wp_finish
| BinOp EqOp _ _ => wp_bind K; apply wp_eq; wp_finish
| BinOp _ _ _ =>
wp_bind K; etrans; [|eapply wp_bin_op; reflexivity]; wp_finish
| UnOp _ _ =>
wp_bind K; etrans; [|eapply wp_un_op; reflexivity]; wp_finish
end)
end.
Tactic Notation "wp_op" := wp_op>; try strip_later.
Tactic Notation "wp_if" ">" :=
match goal with
| |- _ ⊑ wp ?E ?e ?Q => reshape_expr e ltac:(fun K e' =>
match eval cbv in e' with
| If _ _ _ =>
wp_bind K;
etrans; [|apply wp_if_true || apply wp_if_false]; wp_finish
end)
end.
Tactic Notation "wp_if" := wp_if>; try strip_later.
Tactic Notation "wp_focus" open_constr(efoc) :=
match goal with
| |- _ ⊑ wp ?E ?e ?Q => reshape_expr e ltac:(fun K e' =>
match e' with efoc => unify e' efoc; wp_bind K end)
end.
Tactic Notation "wp" ">" tactic(tac) :=
match goal with
| |- _ ⊑ wp ?E ?e ?Q => reshape_expr e ltac:(fun K e' => wp_bind K; tac)
end.
Tactic Notation "wp" tactic(tac) := (wp> tac); [try strip_later|..].
(* In case the precondition does not match.
TODO: Have one tactic unifying wp and ewp. *)
Tactic Notation "ewp" tactic(tac) := wp (etrans; [|tac]).
Tactic Notation "ewp" ">" tactic(tac) := wp> (etrans; [|tac]).