X-Git-Url: http://git.megacz.com/?p=coq-hetmet.git;a=blobdiff_plain;f=src%2FGeneral.v;h=541dc6f1200ad8bcb54ea45713a3897af76f7d9c;hp=db77f344df6bf4e9361bf583700b048e2035fc56;hb=18a60d7a8ae87aa64c73f9ac03c785b12f8bd25a;hpb=327fd294a7a4d3c02b5491708aadcd9acef9e376 diff --git a/src/General.v b/src/General.v index db77f34..541dc6f 100644 --- a/src/General.v +++ b/src/General.v @@ -106,6 +106,11 @@ Fixpoint treeReduce {T:Type}{R:Type}(mapLeaf:T->R)(mergeBranches:R->R->R) (t:Tre end. Definition treeDecomposition {D T:Type} (mapLeaf:T->D) (mergeBranches:D->D->D) := forall d:D, { tt:Tree T & d = treeReduce mapLeaf mergeBranches tt }. +Lemma mapOptionTree_distributes + : forall T R (a b:Tree ??T) (f:T->R), + mapOptionTree f (a,,b) = (mapOptionTree f a),,(mapOptionTree f b). + reflexivity. + Qed. Fixpoint reduceTree {T}(unit:T)(merge:T -> T -> T)(tt:Tree ??T) : T := match tt with @@ -213,6 +218,104 @@ Fixpoint mapProp {A:Type} (f:A->Prop) (l:list A) : Prop := | (a::al) => f a /\ mapProp f al end. + +(* delete the n^th element of a list *) +Definition list_del : forall {T:Type} (l:list T) (n:nat)(pf:lt n (length l)), list T. + refine (fix list_del {T:Type} (l:list T) (n:nat) : lt n (length l) -> list T := + match l as L return lt n (length L) -> list T with + | nil => _ + | a::b => match n with + | O => fun _ => b + | S n' => fun pf => (fun list_del' => _) (list_del _ b n') + end + end). + intro pf. + simpl in pf. + assert False. + inversion pf. + inversion H. + + simpl in *. + apply list_del'. + omega. + Defined. + +Definition list_get : forall {T:Type} (l:list T) (n:nat), lt n (length l) -> T. + refine (fix list_get {T:Type} (l:list T) (n:nat) : lt n (length l) -> T := + match l as L return lt n (length L) -> T with + | nil => _ + | a::b => match n with + | O => fun _ => a + | S n' => fun pf => (fun list_get' => _) (list_get _ b n') + end + end). + intro pf. + assert False. + inversion pf. + inversion H. + + simpl in *. + apply list_get'. + omega. + Defined. + +Fixpoint list_ins (n:nat) {T:Type} (t:T) (l:list T) : list T := + match n with + | O => t::l + | S n' => match l with + | nil => t::nil + | a::b => a::(list_ins n' t b) + end + end. + +Lemma list_ins_nil : forall T n x, @list_ins n T x nil = x::nil. + intros. + destruct n; auto. + Qed. + +Fixpoint list_take {T:Type}(l:list T)(n:nat) := + match n with + | O => nil + | S n' => match l with + | nil => nil + | a::b => a::(list_take b n') + end + end. + +Fixpoint list_drop {T:Type}(l:list T)(n:nat) := + match n with + | O => l + | S n' => match l with + | nil => nil + | a::b => list_drop b n' + end + end. + +Lemma list_ins_app T n κ : forall Γ, @list_ins n T κ Γ = app (list_take Γ n) (κ::(list_drop Γ n)). + induction n. + simpl. + intros. + destruct Γ; auto. + intro Γ. + destruct Γ. + reflexivity. + simpl. + rewrite <- IHn. + reflexivity. + Qed. + +Lemma list_take_drop T l : forall n, app (@list_take T l n) (list_drop l n) = l. + induction l; auto. + simpl. + destruct n; auto. + simpl. + destruct n. + reflexivity. + simpl. + rewrite IHl. + reflexivity. + Qed. + Lemma map_id : forall A (l:list A), (map (fun x:A => x) l) = l. induction l. auto. @@ -469,6 +572,16 @@ Instance EqDecidableList {T:Type}(eqd:EqDecidable T) : EqDecidable (list T). apply eqd_dec. Defined. +Fixpoint listToString {T:Type}{tst:ToString T}(l:list T) : string := + match l with + | nil => "nil" + | a::b => (toString a) +++ "::" +++ listToString b + end. + +Instance ListToString {T:Type}{tst:ToString T} : ToString (list T) := + { toString := @listToString _ _ }. + + (*******************************************************************************) (* Tree Flags *) @@ -510,6 +623,12 @@ Fixpoint takeT {T}{Σ:Tree T}(tf:TreeFlags Σ) : ??(Tree T) := end end. +Definition takeT' {T}{Σ:Tree ??T}(tf:TreeFlags Σ) : Tree ??T := + match takeT tf with + | None => [] + | Some x => x + end. + (* lift a function T->bool to a function (option T)->bool by yielding (None |-> b) *) Definition liftBoolFunc {T}(b:bool)(f:T -> bool) : ??T -> bool := fun t => @@ -782,6 +901,30 @@ Lemma ilist_chop' {T}{F}{l1 l2:list T}(v:IList T F (app l1 l2)) : IList T F l2. inversion v; subst; auto. Defined. +Lemma ilist_app {T}{F}{l1:list T}(v1:IList T F l1) : forall {l2:list T}(v2:IList T F l2), IList T F (app l1 l2). + induction l1; auto. + intros. + inversion v1. + subst. + simpl. + apply ICons. + apply X. + apply IHl1; auto. + Defined. + +Definition ilist_ins {T}{F}{l:list T} z (fz:F z) : forall n (il:IList T F l), IList T F (list_ins n z l). + induction l; simpl. + intros. + destruct n; simpl. + apply ICons; [ apply fz | apply INil ]. + apply ICons; [ apply fz | apply INil ]. + intros. + destruct n; simpl. + apply ICons; auto. + inversion il; subst. + apply ICons; auto. + Defined. + Fixpoint ilist_to_list {T}{Z}{l:list T}(il:IList T (fun _ => Z) l) : list Z := match il with | INil => nil @@ -856,6 +999,8 @@ Definition map2 {A}{B}(f:A->B)(t:A*A) : (B*B) := ((f (fst t)), (f (snd t))). (* boolean "not" *) Definition bnot (b:bool) : bool := if b then false else true. +Definition band (b1 b2:bool) : bool := if b1 then b2 else false. +Definition bor (b1 b2:bool) : bool := if b1 then true else b2. (* string stuff *) Variable eol : string. @@ -892,7 +1037,7 @@ Definition orErrorBindWithMessage {T:Type} (oe:OrError T) {Q:Type} (f:T -> OrErr Notation "a >>=[ S ] b" := (@orErrorBindWithMessage _ a _ b S) (at level 20). Definition addErrorMessage s {T} (x:OrError T) := - x >>=[ s ] (fun y => OK y). + x >>=[ eol +++ eol +++ s ] (fun y => OK y). Inductive Indexed {T:Type}(f:T -> Type) : ???T -> Type := | Indexed_Error : forall error_message:string, Indexed f (Error error_message) @@ -943,6 +1088,16 @@ Lemma list2vecOrFail {T}(l:list T)(n:nat)(error_message:nat->nat->string) : ???( apply (Error (error_message (length l) n)). Defined. +(* this makes a type function application, ensuring not to oversaturate it (though if it was undersaturated we can't fix that) *) +Fixpoint split_list {T}(l:list T)(n:nat) : ???(list T * list T) := + match n with + | O => OK (nil , l) + | S n' => match l with + | nil => Error "take_list failed" + | h::t => split_list t n' >>= fun t' => let (t1,t2) := t' in OK ((h::t1),t2) + end + end. + (* Uniques *) Variable UniqSupply : Type. Extract Inlined Constant UniqSupply => "UniqSupply.UniqSupply". Variable Unique : Type. Extract Inlined Constant Unique => "Unique.Unique".