--- /dev/null
+(**************************************************************************)
+(* ___ *)
+(* ||M|| *)
+(* ||A|| A project by Andrea Asperti *)
+(* ||T|| *)
+(* ||I|| Developers: *)
+(* ||T|| The HELM team. *)
+(* ||A|| http://helm.cs.unibo.it *)
+(* \ / *)
+(* \ / This file is distributed under the terms of the *)
+(* v GNU General Public License Version 2 *)
+(* *)
+(**************************************************************************)
+
+include "basics/types.ma".
+include "arithmetics/nat.ma".
+include "basics/lists/list.ma".
+
+inductive T : Type[0] ≝
+ leaf: nat → T
+ | node: T → T → T.
+
+definition path ≝ list bool.
+
+definition option_map: ∀A,B:Type[0]. (A → option B) → option A → option B ≝
+ λA,B,f,x. match x with [ None ⇒ None … | Some v ⇒ f v ].
+
+definition left: ∀A:Type[0]. (T → option T) → (T → option A) → T → option A ≝
+ λA,kl,k,t.
+ match t with
+ [ leaf _ ⇒ None ?
+ | node l r ⇒ option_map … (λl'. k (node l' r)) (kl l) ].
+
+definition right: ∀A:Type[0]. (T → option T) → (T → option A) → T → option A ≝
+ λA,kr,k,t.
+ match t with
+ [ leaf _ ⇒ None ?
+ | node l r ⇒ option_map … (λr'. k (node l r')) (kr r) ].
+
+definition setleaf: ∀A:Type[0]. (nat → option nat) → (T → option A) → T → option A ≝
+ λA,kv,k,t.
+ match t with
+ [ leaf n ⇒ option_map … (λn'. k (leaf n')) (kv n)
+ | node l r ⇒ None ? ].
+
+definition stop: T → option T ≝
+ λt. Some … t.
+
+(*****************************)
+
+let rec setleaf_fun (v:nat) (x:T) (p:path) on p : option T ≝
+ match p with
+ [ nil ⇒
+ match x with
+ [ leaf _ ⇒ Some … (leaf v)
+ | node x1 x2 ⇒ None ? ]
+ | cons b tl ⇒
+ match x with
+ [ leaf n ⇒ None …
+ | node x1 x2 ⇒
+ if b then
+ option_map … (λx2'. Some … (node x1 x2')) (setleaf_fun v x2 tl)
+ else
+ option_map … (λx1'. Some … (node x1' x2)) (setleaf_fun v x1 tl) ]].
+
+let rec update (A:Type[0]) (v:nat) (k: T → option A) (p:path) on p: T → option A ≝
+ match p with
+ [ nil ⇒ setleaf … (λ_. Some … v) k
+ | cons b tl ⇒
+ if b then right … (update T v stop tl) k else left … (update T v stop tl) k ].
+
+let rec add_fun (t1:T) (t2:T) on t2 : option T ≝
+ match t1 with
+ [ leaf m ⇒ match t2 with [ leaf n ⇒ Some … (leaf (m+n)) | _ ⇒ None ? ]
+ | node l1 r1 ⇒
+ match t2 with
+ [ node l2 r2 ⇒
+ option_map … (λl'.
+ option_map … (λr'. Some … (node l' r')) (add_fun r1 r2)) (add_fun l1 l2)
+ | _ ⇒ None … ]].
+
+let rec add (A:Type[0]) (k: T → option A) (t1:T) on t1 : T → option A ≝
+ match t1 with
+ [ leaf n ⇒ setleaf … (λm.Some … (n+m)) k
+ | node l r ⇒
+ left … (add … stop l) (right … (add … stop r) k) ].
+
+definition example ≝
+ node (node (leaf 0) (leaf 1)) (node (leaf 2) (leaf 3)).
+
+lemma test: add … stop example example = ?.
+ normalize //
+qed.
+
+lemma test1: update ? 5 stop [false;false] example = ?.
+ normalize //
+qed.
+
+theorem update_correct:
+ ∀v,p,t. setleaf_fun v t p = update ? v stop p t.
+#v #p elim p normalize [* normalize // ]
+#hd #tl #IH * normalize
+ [ cases hd normalize //
+ | cases hd normalize #l #r >IH // ]
+qed.
+
+theorem add_correct: ∀t1,t2. add_fun t1 t2 = add … stop t1 t2.
+ #t1 elim t1 normalize
+ [ #n * normalize //
+ | #l1 #r1 #IHl #IHr * normalize // #l2 #r2 >IHl >IHr // ]
+qed.
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