(* Title: HOL/Quickcheck_Examples/Quickcheck_Lattice_Examples.thy
Author: Lukas Bulwahn
Copyright 2010 TU Muenchen
*)
theory Quickcheck_Lattice_Examples
imports "~~/src/HOL/Library/Quickcheck_Types"
begin
text {* We show how other default types help to find counterexamples to propositions if
the standard default type @{typ int} is insufficient. *}
notation
less_eq (infix "\<sqsubseteq>" 50) and
less (infix "\<sqsubset>" 50) and
top ("\<top>") and
bot ("\<bottom>") and
inf (infixl "\<sqinter>" 70) and
sup (infixl "\<squnion>" 65)
declare [[quickcheck_narrowing_active = false, quickcheck_timeout = 3600]]
subsection {* Distributive lattices *}
lemma sup_inf_distrib2:
"((y :: 'a :: distrib_lattice) \<sqinter> z) \<squnion> x = (y \<squnion> x) \<sqinter> (z \<squnion> x)"
quickcheck[expect = no_counterexample]
by(simp add: inf_sup_aci sup_inf_distrib1)
lemma sup_inf_distrib2_1:
"((y :: 'a :: lattice) \<sqinter> z) \<squnion> x = (y \<squnion> x) \<sqinter> (z \<squnion> x)"
quickcheck[expect = counterexample]
oops
lemma sup_inf_distrib2_2:
"((y :: 'a :: distrib_lattice) \<sqinter> z') \<squnion> x = (y \<squnion> x) \<sqinter> (z \<squnion> x)"
quickcheck[expect = counterexample]
oops
lemma inf_sup_distrib1_1:
"(x :: 'a :: distrib_lattice) \<sqinter> (y \<squnion> z) = (x \<sqinter> y) \<squnion> (x' \<sqinter> z)"
quickcheck[expect = counterexample]
oops
lemma inf_sup_distrib2_1:
"((y :: 'a :: distrib_lattice) \<squnion> z) \<sqinter> x = (y \<sqinter> x) \<squnion> (y \<sqinter> x)"
quickcheck[expect = counterexample]
oops
subsection {* Bounded lattices *}
lemma inf_bot_left [simp]:
"\<bottom> \<sqinter> (x :: 'a :: bounded_lattice_bot) = \<bottom>"
quickcheck[expect = no_counterexample]
by (rule inf_absorb1) simp
lemma inf_bot_left_1:
"\<bottom> \<sqinter> (x :: 'a :: bounded_lattice_bot) = x"
quickcheck[expect = counterexample]
oops
lemma inf_bot_left_2:
"y \<sqinter> (x :: 'a :: bounded_lattice_bot) = \<bottom>"
quickcheck[expect = counterexample]
oops
lemma inf_bot_left_3:
"x \<noteq> \<bottom> ==> y \<sqinter> (x :: 'a :: bounded_lattice_bot) \<noteq> \<bottom>"
quickcheck[expect = counterexample]
oops
lemma inf_bot_right [simp]:
"(x :: 'a :: bounded_lattice_bot) \<sqinter> \<bottom> = \<bottom>"
quickcheck[expect = no_counterexample]
by (rule inf_absorb2) simp
lemma inf_bot_right_1:
"x \<noteq> \<bottom> ==> (x :: 'a :: bounded_lattice_bot) \<sqinter> \<bottom> = y"
quickcheck[expect = counterexample]
oops
lemma inf_bot_right_2:
"(x :: 'a :: bounded_lattice_bot) \<sqinter> \<bottom> ~= \<bottom>"
quickcheck[expect = counterexample]
oops
lemma inf_bot_right [simp]:
"(x :: 'a :: bounded_lattice_bot) \<squnion> \<bottom> = \<bottom>"
quickcheck[expect = counterexample]
oops
lemma sup_bot_left [simp]:
"\<bottom> \<squnion> (x :: 'a :: bounded_lattice_bot) = x"
quickcheck[expect = no_counterexample]
by (rule sup_absorb2) simp
lemma sup_bot_right [simp]:
"(x :: 'a :: bounded_lattice_bot) \<squnion> \<bottom> = x"
quickcheck[expect = no_counterexample]
by (rule sup_absorb1) simp
lemma sup_eq_bot_iff [simp]:
"(x :: 'a :: bounded_lattice_bot) \<squnion> y = \<bottom> \<longleftrightarrow> x = \<bottom> \<and> y = \<bottom>"
quickcheck[expect = no_counterexample]
by (simp add: eq_iff)
lemma sup_top_left [simp]:
"\<top> \<squnion> (x :: 'a :: bounded_lattice_top) = \<top>"
quickcheck[expect = no_counterexample]
by (rule sup_absorb1) simp
lemma sup_top_right [simp]:
"(x :: 'a :: bounded_lattice_top) \<squnion> \<top> = \<top>"
quickcheck[expect = no_counterexample]
by (rule sup_absorb2) simp
lemma inf_top_left [simp]:
"\<top> \<sqinter> x = (x :: 'a :: bounded_lattice_top)"
quickcheck[expect = no_counterexample]
by (rule inf_absorb2) simp
lemma inf_top_right [simp]:
"x \<sqinter> \<top> = (x :: 'a :: bounded_lattice_top)"
quickcheck[expect = no_counterexample]
by (rule inf_absorb1) simp
lemma inf_eq_top_iff [simp]:
"(x :: 'a :: bounded_lattice_top) \<sqinter> y = \<top> \<longleftrightarrow> x = \<top> \<and> y = \<top>"
quickcheck[expect = no_counterexample]
by (simp add: eq_iff)
no_notation
less_eq (infix "\<sqsubseteq>" 50) and
less (infix "\<sqsubset>" 50) and
inf (infixl "\<sqinter>" 70) and
sup (infixl "\<squnion>" 65) and
top ("\<top>") and
bot ("\<bottom>")
end