(* Title: HOL/UNITY/Mutex.thy
ID: $Id$
Author: Lawrence C Paulson, Cambridge University Computer Laboratory
Copyright 1998 University of Cambridge
Based on "A Family of 2-Process Mutual Exclusion Algorithms" by J Misra
*)
Mutex = SubstAx +
(*WE NEED A GENERAL TREATMENT OF NUMBERS!!*)
syntax
"3" :: nat ("3")
"4" :: nat ("4")
translations
"3" == "Suc 2"
"4" == "Suc 3"
record state =
PP :: bool
MM :: nat
NN :: nat
UU :: bool
VV :: bool
constdefs
(** The program for process U **)
cmd0U :: "(state*state) set"
"cmd0U == {(s,s'). s' = s (|UU:=True, MM:=1|) & MM s = 0}"
cmd1U :: "(state*state) set"
"cmd1U == {(s,s'). s' = s (|PP:= VV s, MM:=2|) & MM s = 1}"
cmd2U :: "(state*state) set"
"cmd2U == {(s,s'). s' = s (|MM:=3|) & ~ PP s & MM s = 2}"
cmd3U :: "(state*state) set"
"cmd3U == {(s,s'). s' = s (|UU:=False, MM:=4|) & MM s = 3}"
cmd4U :: "(state*state) set"
"cmd4U == {(s,s'). s' = s (|PP:=True, MM:=0|) & MM s = 4}"
(** The program for process V **)
cmd0V :: "(state*state) set"
"cmd0V == {(s,s'). s' = s (|VV:=True, NN:=1|) & NN s = 0}"
cmd1V :: "(state*state) set"
"cmd1V == {(s,s'). s' = s (|PP:= ~ UU s, NN:=2|) & NN s = 1}"
cmd2V :: "(state*state) set"
"cmd2V == {(s,s'). s' = s (|NN:=3|) & PP s & NN s = 2}"
cmd3V :: "(state*state) set"
"cmd3V == {(s,s'). s' = s (|VV:=False, NN:=4|) & NN s = 3}"
cmd4V :: "(state*state) set"
"cmd4V == {(s,s'). s' = s (|PP:=False, NN:=0|) & NN s = 4}"
Mprg :: state program
"Mprg == (|Init = {s. ~ UU s & ~ VV s & MM s = 0 & NN s = 0},
Acts0 = {cmd0U, cmd1U, cmd2U, cmd3U, cmd4U,
cmd0V, cmd1V, cmd2V, cmd3V, cmd4V}|)"
(** The correct invariants **)
invariantU :: "state set"
"invariantU == {s. (UU s = (1 <= MM s & MM s <= 3)) &
(MM s = 3 --> ~ PP s)}"
invariantV :: "state set"
"invariantV == {s. (VV s = (1 <= NN s & NN s <= 3)) &
(NN s = 3 --> PP s)}"
(** The faulty invariant (for U alone) **)
bad_invariantU :: "state set"
"bad_invariantU == {s. (UU s = (1 <= MM s & MM s <= 3)) &
(3 <= MM s & MM s <= 4 --> ~ PP s)}"
end