Theory Quantales_Converse.Modal_Kleene_Algebra_Var
section ‹Modal Kleene algebra based on domain and range semirings›
theory "Modal_Kleene_Algebra_Var"
imports KAD.Domain_Semiring KAD.Range_Semiring
begin
notation domain_op (‹dom›)
notation range_op (‹cod›)
subclass (in domain_semiring) dioid_one_zero..
subclass (in range_semiring) dioid_one_zero
by unfold_locales simp
subsection ‹Modal semirings›
text ‹The following modal semirings are based on domain and range semirings instead of antidomain and antirange semirings,
as in the AFP entry for Kleene algebra with domain.›
class dr_modal_semiring = domain_semiring + range_semiring +
assumes dc_compat [simp]: "dom (cod x) = cod x"
and cd_compat [simp]: "cod (dom x) = dom x"
begin
sublocale msrdual: dr_modal_semiring "(+)" "λx y. y ⋅ x" 1 0 cod "(≤)" "(<)" dom
by unfold_locales simp_all
lemma d_cod_fix: "(dom x = x) = (x = cod x)"
by (metis local.cd_compat local.dc_compat)
lemma local_var: "(x ⋅ y = 0) = (cod x ⋅ dom y = 0)"
using local.dom_weakly_local local.rdual.dom_weakly_local by force
lemma fbdia_conjugation: "(fd x (dom p) ⋅ dom q = 0) = (dom p ⋅ bd x (dom q) = 0)"
by (metis local.bd_def local.cd_compat local.ddual.mult_assoc local.dom_weakly_local local.fd_def local.rdual.dom_weakly_local local.rdual.dsg4)
end
subsection ‹Modal Kleene algebra›
class dr_modal_kleene_algebra = dr_modal_semiring + kleene_algebra
end