Quelle Set_Comprehension_Pointfree_Examples.thy Sprache: Isabelle

(*  Title:      HOL/ex/Set_Comprehension_Pointfree_Examples.thy
    Author:     Lukas Bulwahn, Rafal Kolanski
    Copyright   2012 TU Muenchen
*)

section ‹Examples for the set comprehension to pointfree simproc›

theory Set_Comprehension_Pointfree_Examples
imports Main
begin

declare [[simproc add: finite_Collect]]

lemma
  "finite (UNIV::'a set) \ finite {p. \x::'a. p = (x, x)}"
  by simp

lemma
  "finite A \ finite B \ finite {f a b| a b. a \ A \ b \ B}"
  by simp

lemma
  "finite B \ finite A' \ finite {f a b| a b. a \ A \ a \ A' \ b \ B}"
  by simp

lemma
  "finite A \ finite B \ finite {f a b| a b. a \ A \ b \ B \ b \ B'}"
  by simp

lemma
  "finite A \ finite B \ finite C \ finite {f a b c| a b c. a \ A \ b \ B \ c \ C}"
  by simp

lemma
  "finite A \ finite B \ finite C \ finite D \
     finite {f a b c d| a b c d. a ∈ A ∧ b ∈ B ∧ c ∈ C ∧ d ∈ D}"
  by simp

lemma
  "finite A \ finite B \ finite C \ finite D \ finite E \
    finite {f a b c d e | a b c d e. a ∈ A ∧ b ∈ B ∧ c ∈ C ∧ d ∈ D ∧ e ∈ E}"
  by simp

lemma
  "finite A \ finite B \ finite C \ finite D \ finite E \
    finite {f a d c b e | e b c d a. b ∈ B ∧ a ∈ A ∧ e ∈ E' \ c \ C \ d \ D \ e \ E \ b \ B'}"
  by simp

lemma
  "\ finite A ; finite B ; finite C ; finite D \
  ==> finite ({f a b c d| a b c d. a ∈ A ∧ b ∈ B ∧ c ∈ C ∧ d ∈ D})"
  by simp

lemma
  "finite ((\(a,b,c,d). f a b c d) ` (A \ B \ C \ D))
  ==> finite ({f a b c d| a b c d. a ∈ A ∧ b ∈ B ∧ c ∈ C ∧ d ∈ D})"
  by simp

lemma
  "finite S \ finite {s'. \s\S. s' = f a e s}"
  by simp

lemma
  "finite A \ finite B \ finite {f a b| a b. a \ A \ b \ B \ a \ Z}"
  by simp

lemma
  "finite A \ finite B \ finite R \ finite {f a b x y| a b x y. a \ A \ b \ B \ (x,y) \ R}"
by simp

lemma
  "finite A \ finite B \ finite R \ finite {f a b x y| a b x y. a \ A \ (x,y) \ R \ b \ B}"
by simp

lemma
  "finite A \ finite B \ finite R \ finite {f a (x, b) y| y b x a. a \ A \ (x,y) \ R \ b \ B}"
by simp

lemma
  "finite A \ finite AA \ finite B \ finite {f a b| a b. (a \ A \ a \ AA) \ b \ B \ a \ Z}"
by simp

lemma
  "finite A1 \ finite A2 \ finite A3 \ finite A4 \ finite A5 \ finite B \
     finite {f a b c | a b c. ((a ∈ A1 ∧ a ∈ A2) ∨ (a ∈ A3 ∧ (a ∈ A4 ∨ a ∈ A5))) ∧ b ∈ B ∧ a ∉ Z}"
apply simp
oops

lemma "finite B \ finite {c. \x. x \ B \ c = a * x}"
by simp

lemma
  "finite A \ finite B \ finite {f a * g b |a b. a \ A \ b \ B}"
by simp

lemma
  "finite S \ inj (\(x, y). g x y) \ finite {f x y| x y. g x y \ S}"
  by (auto intro: finite_vimageI)

lemma
  "finite A \ finite S \ inj (\(x, y). g x y) \ finite {f x y z | x y z. g x y \ S & z \ A}"
  by (auto intro: finite_vimageI)

lemma
  "finite S \ finite A \ inj (\(x, y). g x y) \ inj (\(x, y). h x y)
    ==> finite {f a b c d | a b c d. g a c ∈ S ∧ h b d ∈ A}"
  by (auto intro: finite_vimageI)

lemma
  assumes "finite S" shows "finite {(a,b,c,d). ([a, b], [c, d]) \ S}"
using assms by (auto intro!: finite_vimageI simp add: inj_on_def)
  (* injectivity to be automated with further rules and automation *)

schematic_goal (* check interaction with schematics *)
  "finite {x :: ?'A \ ?'B \ bool. \a b. x = Pair_Rep a b}
   = finite ((λ(b :: ?'B, a:: ?'A). Pair_Rep a b) ` (UNIV × UNIV))"
  by simp

declare [[simproc del: finite_Collect]]

section ‹Testing simproc in code generation›

definition union :: "nat set => nat set => nat set"
where
  "union A B = {x. x \ A \ x \ B}"

definition common_subsets :: "nat set \ nat set \ nat set set"
where
  "common_subsets S1 S2 = {S. S \ S1 \ S \ S2}"

definition products :: "nat set => nat set => nat set"
where
  "products A B = {c. \a b. a \ A \ b \ B \ c = a * b}"

export_code union common_subsets products checking SML

end

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