(* Title: HOL/Induct/ABexp.thy
Author: Stefan Berghofer, TU Muenchen
*)
section \<open>Arithmetic and boolean expressions\<close>
theory ABexp
imports Main
begin
datatype 'a aexp =
IF "'a bexp" "'a aexp" "'a aexp"
| Sum "'a aexp" "'a aexp"
| Diff "'a aexp" "'a aexp"
| Var 'a
| Num nat
and 'a bexp =
Less "'a aexp" "'a aexp"
| And "'a bexp" "'a bexp"
| Neg "'a bexp"
text \<open>\medskip Evaluation of arithmetic and boolean expressions\<close>
primrec evala :: "('a \<Rightarrow> nat) \<Rightarrow> 'a aexp \<Rightarrow> nat"
and evalb :: "('a \<Rightarrow> nat) \<Rightarrow> 'a bexp \<Rightarrow> bool"
where
"evala env (IF b a1 a2) = (if evalb env b then evala env a1 else evala env a2)"
| "evala env (Sum a1 a2) = evala env a1 + evala env a2"
| "evala env (Diff a1 a2) = evala env a1 - evala env a2"
| "evala env (Var v) = env v"
| "evala env (Num n) = n"
| "evalb env (Less a1 a2) = (evala env a1 < evala env a2)"
| "evalb env (And b1 b2) = (evalb env b1 \<and> evalb env b2)"
| "evalb env (Neg b) = (\<not> evalb env b)"
text \<open>\medskip Substitution on arithmetic and boolean expressions\<close>
primrec substa :: "('a \<Rightarrow> 'b aexp) \<Rightarrow> 'a aexp \<Rightarrow> 'b aexp"
and substb :: "('a \<Rightarrow> 'b aexp) \<Rightarrow> 'a bexp \<Rightarrow> 'b bexp"
where
"substa f (IF b a1 a2) = IF (substb f b) (substa f a1) (substa f a2)"
| "substa f (Sum a1 a2) = Sum (substa f a1) (substa f a2)"
| "substa f (Diff a1 a2) = Diff (substa f a1) (substa f a2)"
| "substa f (Var v) = f v"
| "substa f (Num n) = Num n"
| "substb f (Less a1 a2) = Less (substa f a1) (substa f a2)"
| "substb f (And b1 b2) = And (substb f b1) (substb f b2)"
| "substb f (Neg b) = Neg (substb f b)"
lemma subst1_aexp:
"evala env (substa (Var (v := a')) a) = evala (env (v := evala env a')) a"
and subst1_bexp:
"evalb env (substb (Var (v := a')) b) = evalb (env (v := evala env a')) b"
\<comment> \<open>one variable\<close>
by (induct a and b) simp_all
lemma subst_all_aexp:
"evala env (substa s a) = evala (\<lambda>x. evala env (s x)) a"
and subst_all_bexp:
"evalb env (substb s b) = evalb (\<lambda>x. evala env (s x)) b"
by (induct a and b) auto
end