X-Git-Url: http://git.megacz.com/?p=coq-hetmet.git;a=blobdiff_plain;f=src%2FGeneral.v;h=2a1a398b5576d40548733415ced4c084ad3d4c6d;hp=b0266f4ae9258c4534eb5265e1fce33f4f3c6a09;hb=b3214686b18b2d6f6905394494da8d1c17587bdb;hpb=2f9327bdfddb3908dc279c02db25ad527b37e17a

diff --git a/src/General.v b/src/General.v
index b0266f4..2a1a398 100644
--- a/src/General.v
+++ b/src/General.v
@@ -52,7 +52,7 @@ Fixpoint mapOptionTree {a b:Type}(f:a->b)(t:@Tree ??a) : @Tree ??b :=
   match t with 
     | T_Leaf None     => T_Leaf None
     | T_Leaf (Some x) => T_Leaf (Some (f x))
-    | T_Branch l r => T_Branch (mapOptionTree f l) (mapOptionTree f r)
+    | T_Branch l r    => T_Branch (mapOptionTree f l) (mapOptionTree f r)
   end.
 Fixpoint mapTreeAndFlatten {a b:Type}(f:a->@Tree b)(t:@Tree a) : @Tree b :=
   match t with 
@@ -129,6 +129,14 @@ Lemma mapOptionTree_compose : forall A B C (f:A->B)(g:B->C)(l:Tree ??A),
     reflexivity.
     Qed.
 
+Lemma mapOptionTree_extensional {A}{B}(f g:A->B) : (forall a, f a = g a) -> (forall t, mapOptionTree f t = mapOptionTree g t).
+  intros.
+  induction t.
+  destruct a; auto.
+  simpl; rewrite H; auto.
+  simpl; rewrite IHt1; rewrite IHt2; auto.
+  Qed.
+
 Open Scope string_scope.
 Fixpoint treeToString {T}{TT:ToString T}(t:Tree ??T) : string :=
 match t with
@@ -223,6 +231,17 @@ Lemma mapOptionTree_comp a b c (f:a->b) (g:b->c) q : (mapOptionTree g (mapOption
     reflexivity.
   Qed.
 
+Lemma leaves_unleaves {T}(t:list T) : leaves (unleaves t) = t.
+  induction t; auto.
+  simpl.
+  rewrite IHt; auto.
+  Qed.
+
+Lemma mapleaves' {T:Type}(t:list T){Q}{f:T->Q} : unleaves (map f t) = mapOptionTree f (unleaves t).
+  induction t; simpl in *; auto.
+  rewrite IHt; auto.
+  Qed.
+
 (* handy facts: map preserves the length of a list *)
 Lemma map_on_nil : forall A B (s1:list A) (f:A->B), nil = map f s1 -> s1=nil.
   intros.
@@ -849,3 +868,33 @@ Coercion FMT       : FreshMonad >-> Funclass.
 
 
 Variable Prelude_error : forall {A}, string -> A.   Extract Inlined Constant Prelude_error => "Prelude.error".
+
+
+
+
+Ltac eqd_dec_refl X :=
+  destruct (eqd_dec X X) as [eqd_dec1 | eqd_dec2];
+    [ clear eqd_dec1 | set (eqd_dec2 (refl_equal _)) as eqd_dec2'; inversion eqd_dec2' ].
+
+Lemma unleaves_injective : forall T (t1 t2:list T), unleaves t1 = unleaves t2 -> t1 = t2.
+  intros T.
+  induction t1; intros.
+  destruct t2.
+  auto.
+  inversion H.
+  destruct t2.
+  inversion H.
+  simpl in H.
+  inversion H.
+  set (IHt1 _ H2) as q.
+  rewrite q.
+  reflexivity.
+  Qed.
+
+Lemma fst_zip : forall T Q n (v1:vec T n)(v2:vec Q n), vec_map (@fst _ _) (vec_zip v1 v2) = v1.
+  admit.
+  Defined.
+
+Lemma snd_zip : forall T Q n (v1:vec T n)(v2:vec Q n), vec_map (@snd _ _) (vec_zip v1 v2) = v2.
+  admit.
+  Defined.