(* Title: HOL/TLA/Memory/ProcedureInterface.thy
Author: Stephan Merz, University of Munich
*)
header {* Procedure interface for RPC-Memory components *}
theory ProcedureInterface
imports "../TLA" RPCMemoryParams
begin
typedecl ('a,'r) chan
(* type of channels with argument type 'a and return type 'r.
we model a channel as an array of variables (of type chan)
rather than a single array-valued variable because the
notation gets a little simpler.
*)
type_synonym ('a,'r) channel =" (PrIds => ('a,'r) chan) stfun"
consts
(* data-level functions *)
cbit :: "('a,'r) chan => bit"
rbit :: "('a,'r) chan => bit"
arg :: "('a,'r) chan => 'a"
res :: "('a,'r) chan => 'r"
(* state functions *)
caller :: "('a,'r) channel => (PrIds => (bit * 'a)) stfun"
rtrner :: "('a,'r) channel => (PrIds => (bit * 'r)) stfun"
(* state predicates *)
Calling :: "('a,'r) channel => PrIds => stpred"
(* actions *)
ACall :: "('a,'r) channel => PrIds => 'a stfun => action"
AReturn :: "('a,'r) channel => PrIds => 'r stfun => action"
(* temporal formulas *)
PLegalCaller :: "('a,'r) channel => PrIds => temporal"
LegalCaller :: "('a,'r) channel => temporal"
PLegalReturner :: "('a,'r) channel => PrIds => temporal"
LegalReturner :: "('a,'r) channel => temporal"
(* slice through array-valued state function *)
slice :: "('a => 'b) stfun => 'a => 'b stfun"
syntax
"_slice" :: "[lift, 'a] => lift" ("(_!_)" [70,70] 70)
"_Call" :: "['a, 'b, lift] => lift" ("(Call _ _ _)" [90,90,90] 90)
"_Return" :: "['a, 'b, lift] => lift" ("(Return _ _ _)" [90,90,90] 90)
translations
"_slice" == "CONST slice"
"_Call" == "CONST ACall"
"_Return" == "CONST AReturn"
defs
slice_def: "(PRED (x!i)) s == x s i"
caller_def: "caller ch == %s p. (cbit (ch s p), arg (ch s p))"
rtrner_def: "rtrner ch == %s p. (rbit (ch s p), res (ch s p))"
Calling_def: "Calling ch p == PRED cbit< ch!p > ~= rbit< ch!p >"
Call_def: "(ACT Call ch p v) == ACT ~ $Calling ch p
& (cbit<ch!p>$ ~= $rbit<ch!p>)
& (arg<ch!p>$ = $v)"
Return_def: "(ACT Return ch p v) == ACT $Calling ch p
& (rbit<ch!p>$ = $cbit<ch!p>)
& (res<ch!p>$ = $v)"
PLegalCaller_def: "PLegalCaller ch p == TEMP
Init(~ Calling ch p)
& [][ ? a. Call ch p a ]_((caller ch)!p)"
LegalCaller_def: "LegalCaller ch == TEMP (! p. PLegalCaller ch p)"
PLegalReturner_def: "PLegalReturner ch p == TEMP
[][ ? v. Return ch p v ]_((rtrner ch)!p)"
LegalReturner_def: "LegalReturner ch == TEMP (! p. PLegalReturner ch p)"
declare slice_def [simp]
lemmas Procedure_defs = caller_def rtrner_def Calling_def Call_def Return_def
PLegalCaller_def LegalCaller_def PLegalReturner_def LegalReturner_def
(* Calls and returns change their subchannel *)
lemma Call_changed: "|- Call ch p v --> <Call ch p v>_((caller ch)!p)"
by (auto simp: angle_def Call_def caller_def Calling_def)
lemma Return_changed: "|- Return ch p v --> <Return ch p v>_((rtrner ch)!p)"
by (auto simp: angle_def Return_def rtrner_def Calling_def)
end