mirror of
https://github.com/achlipala/frap.git
synced 2024-11-27 23:06:20 +00:00
FirstClassFunctions: fix later examples
This commit is contained in:
parent
5019b2561e
commit
3e689a9a4a
1 changed files with 34 additions and 31 deletions
|
@ -6,25 +6,7 @@
|
|||
Require Import Frap.
|
||||
|
||||
|
||||
(** * Classic list functions *)
|
||||
|
||||
Fixpoint map {A B : Set} (f : A -> B) (ls : list A) : list B :=
|
||||
match ls with
|
||||
| nil => nil
|
||||
| x :: ls' => f x :: map f ls'
|
||||
end.
|
||||
|
||||
Fixpoint filter {A : Set} (f : A -> bool) (ls : list A) : list A :=
|
||||
match ls with
|
||||
| nil => nil
|
||||
| x :: ls' => if f x then x :: filter f ls' else filter f ls'
|
||||
end.
|
||||
|
||||
Fixpoint fold_left {A B : Set} (f : B -> A -> B) (ls : list A) (acc : B) : B :=
|
||||
match ls with
|
||||
| nil => acc
|
||||
| x :: ls' => fold_left f ls' (f acc x)
|
||||
end.
|
||||
(** * Some data fodder for us to compute with later *)
|
||||
|
||||
Record programming_language := {
|
||||
Name : string;
|
||||
|
@ -64,6 +46,27 @@ Definition ocaml := {|
|
|||
|
||||
Definition languages := [pascal; c; gallina; haskell; ocaml].
|
||||
|
||||
|
||||
(** * Classic list functions *)
|
||||
|
||||
Fixpoint map {A B : Set} (f : A -> B) (ls : list A) : list B :=
|
||||
match ls with
|
||||
| nil => nil
|
||||
| x :: ls' => f x :: map f ls'
|
||||
end.
|
||||
|
||||
Fixpoint filter {A : Set} (f : A -> bool) (ls : list A) : list A :=
|
||||
match ls with
|
||||
| nil => nil
|
||||
| x :: ls' => if f x then x :: filter f ls' else filter f ls'
|
||||
end.
|
||||
|
||||
Fixpoint fold_left {A B : Set} (f : B -> A -> B) (ls : list A) (acc : B) : B :=
|
||||
match ls with
|
||||
| nil => acc
|
||||
| x :: ls' => fold_left f ls' (f acc x)
|
||||
end.
|
||||
|
||||
Compute map Name languages.
|
||||
Compute map Name (filter PurelyFunctional languages).
|
||||
Compute fold_left max (map AppearedInYear languages) 0.
|
||||
|
@ -247,10 +250,10 @@ Fixpoint filterK {A R : Set} (f : A -> (bool -> R) -> R) (ls : list A) (k : list
|
|||
| x :: ls' => f x (fun b => filterK f ls' (fun ls'' => k (if b then x :: ls'' else ls'')))
|
||||
end.
|
||||
|
||||
Fixpoint fold_lefK {A B R : Set} (f : B -> A -> (B -> R) -> R) (ls : list A) (acc : B) (k : B -> R) : R :=
|
||||
Fixpoint fold_leftK {A B R : Set} (f : B -> A -> (B -> R) -> R) (ls : list A) (acc : B) (k : B -> R) : R :=
|
||||
match ls with
|
||||
| nil => k acc
|
||||
| x :: ls' => f acc x (fun x' => foldl_leftK f ls' x' k)
|
||||
| x :: ls' => f acc x (fun x' => fold_leftK f ls' x' k)
|
||||
end.
|
||||
|
||||
Definition NameK {R : Set} (l : programming_language) (k : string -> R) : R :=
|
||||
|
@ -264,10 +267,10 @@ Definition maxK {R : Set} (n1 n2 : nat) (k : nat -> R) : R :=
|
|||
|
||||
Compute mapK NameK languages (fun ls => ls).
|
||||
Compute filterK PurelyFunctionalK languages (fun ls => mapK NameK ls (fun x => x)).
|
||||
Compute mapK AppearedInYearK languages (fun ls => foldlK maxK 0 ls (fun x => x)).
|
||||
Compute mapK AppearedInYearK languages (fun ls => fold_leftK maxK ls 0 (fun x => x)).
|
||||
Compute filterK PurelyFunctionalK languages
|
||||
(fun ls1 => mapK AppearedInYearK ls1
|
||||
(fun ls2 => foldlK maxK 0 ls2 (fun x => x))).
|
||||
(fun ls2 => fold_leftK maxK ls2 0 (fun x => x))).
|
||||
|
||||
Theorem mapK_ok : forall {A B R : Set} (f : A -> (B -> R) -> R) (f_base : A -> B),
|
||||
(forall x k, f x k = k (f_base x))
|
||||
|
@ -309,10 +312,10 @@ Proof.
|
|||
apply mapK_ok with (f_base := Name); trivial.
|
||||
Qed.
|
||||
|
||||
Theorem foldlK_ok : forall {A B R : Set} (f : A -> B -> (B -> R) -> R) (f_base : A -> B -> B),
|
||||
Theorem fold_leftK_ok : forall {A B R : Set} (f : B -> A -> (B -> R) -> R) (f_base : B -> A -> B),
|
||||
(forall x acc k, f x acc k = k (f_base x acc))
|
||||
-> forall (ls : list A) (acc : B) (k : B -> R),
|
||||
foldlK f acc ls k = k (foldl f_base acc ls).
|
||||
fold_leftK f ls acc k = k (fold_left f_base ls acc).
|
||||
Proof.
|
||||
induct ls; simplify; try equality.
|
||||
|
||||
|
@ -321,22 +324,22 @@ Proof.
|
|||
Qed.
|
||||
|
||||
Theorem latest_ok : forall langs,
|
||||
mapK AppearedInYearK langs (fun ls => foldlK maxK 0 ls (fun x => x))
|
||||
= foldl max 0 (map AppearedInYear langs).
|
||||
mapK AppearedInYearK langs (fun ls => fold_leftK maxK ls 0 (fun x => x))
|
||||
= fold_left max (map AppearedInYear langs) 0.
|
||||
Proof.
|
||||
simplify.
|
||||
rewrite mapK_ok with (f_base := AppearedInYear); trivial.
|
||||
apply foldlK_ok with (f_base := max); trivial.
|
||||
apply fold_leftK_ok with (f_base := max); trivial.
|
||||
Qed.
|
||||
|
||||
Theorem latestpure_ok : forall langs,
|
||||
filterK PurelyFunctionalK langs
|
||||
(fun ls1 => mapK AppearedInYearK ls1
|
||||
(fun ls2 => foldlK maxK 0 ls2 (fun x => x)))
|
||||
= foldl max 0 (map AppearedInYear (filter PurelyFunctional langs)).
|
||||
(fun ls2 => fold_leftK maxK ls2 0 (fun x => x)))
|
||||
= fold_left max (map AppearedInYear (filter PurelyFunctional langs)) 0.
|
||||
Proof.
|
||||
simplify.
|
||||
rewrite filterK_ok with (f_base := PurelyFunctional); trivial.
|
||||
rewrite mapK_ok with (f_base := AppearedInYear); trivial.
|
||||
apply foldlK_ok with (f_base := max); trivial.
|
||||
apply fold_leftK_ok with (f_base := max); trivial.
|
||||
Qed.
|
||||
|
|
Loading…
Reference in a new issue