(* Title: HOL/UNITY/Alloc
ID: $Id$
Author: Lawrence C Paulson, Cambridge University Computer Laboratory
Copyright 1998 University of Cambridge
Specification of Chandy and Charpentier's Allocator
*)
Alloc = AllocBase + PPROD +
(** State definitions. OUTPUT variables are locals **)
record clientState =
giv :: nat list (*client's INPUT history: tokens GRANTED*)
ask :: nat list (*client's OUTPUT history: tokens REQUESTED*)
rel :: nat list (*client's OUTPUT history: tokens RELEASED*)
record 'a clientState_d =
clientState +
dummy :: 'a (*dummy field for new variables*)
constdefs
(*DUPLICATED FROM Client.thy, but with "tok" removed*)
(*Maybe want a special theory section to declare such maps*)
non_dummy :: 'a clientState_d => clientState
"non_dummy s == (|giv = giv s, ask = ask s, rel = rel s|)"
(*Renaming map to put a Client into the standard form*)
client_map :: "'a clientState_d => clientState*'a"
"client_map == funPair non_dummy dummy"
record allocState =
allocGiv :: nat => nat list (*OUTPUT history: source of "giv" for i*)
allocAsk :: nat => nat list (*INPUT: allocator's copy of "ask" for i*)
allocRel :: nat => nat list (*INPUT: allocator's copy of "rel" for i*)
record 'a allocState_d =
allocState +
dummy :: 'a (*dummy field for new variables*)
record 'a systemState =
allocState +
client :: nat => clientState (*states of all clients*)
dummy :: 'a (*dummy field for new variables*)
constdefs
(** Resource allocation system specification **)
(*spec (1)*)
system_safety :: 'a systemState program set
"system_safety ==
Always {s. setsum(%i.(tokens o giv o sub i o client)s) (lessThan Nclients)
<= NbT + setsum(%i.(tokens o rel o sub i o client)s) (lessThan Nclients)}"
(*spec (2)*)
system_progress :: 'a systemState program set
"system_progress == INT i : lessThan Nclients.
INT h.
{s. h <= (ask o sub i o client)s} LeadsTo
{s. h pfixLe (giv o sub i o client) s}"
system_spec :: 'a systemState program set
"system_spec == system_safety Int system_progress"
(** Client specification (required) ***)
(*spec (3)*)
client_increasing :: 'a clientState_d program set
"client_increasing ==
UNIV guarantees[funPair rel ask]
Increasing ask Int Increasing rel"
(*spec (4)*)
client_bounded :: 'a clientState_d program set
"client_bounded ==
UNIV guarantees[ask]
Always {s. ALL elt : set (ask s). elt <= NbT}"
(*spec (5)*)
client_progress :: 'a clientState_d program set
"client_progress ==
Increasing giv
guarantees[funPair rel ask]
(INT h. {s. h <= giv s & h pfixGe ask s}
LeadsTo {s. tokens h <= (tokens o rel) s})"
(*spec: preserves part*)
client_preserves :: 'a clientState_d program set
"client_preserves == preserves (funPair giv clientState_d.dummy)"
client_spec :: 'a clientState_d program set
"client_spec == client_increasing Int client_bounded Int client_progress
Int client_preserves"
(** Allocator specification (required) ***)
(*spec (6)*)
alloc_increasing :: 'a allocState_d program set
"alloc_increasing ==
UNIV
guarantees[allocGiv]
(INT i : lessThan Nclients. Increasing (sub i o allocGiv))"
(*spec (7)*)
alloc_safety :: 'a allocState_d program set
"alloc_safety ==
(INT i : lessThan Nclients. Increasing (sub i o allocRel))
guarantees[allocGiv]
Always {s. setsum(%i.(tokens o sub i o allocGiv)s) (lessThan Nclients)
<= NbT + setsum(%i.(tokens o sub i o allocRel)s) (lessThan Nclients)}"
(*spec (8)*)
alloc_progress :: 'a allocState_d program set
"alloc_progress ==
(INT i : lessThan Nclients. Increasing (sub i o allocAsk) Int
Increasing (sub i o allocRel))
Int
Always {s. ALL i<Nclients.
ALL elt : set ((sub i o allocAsk) s). elt <= NbT}
Int
(INT i : lessThan Nclients.
INT h. {s. h <= (sub i o allocGiv)s & h pfixGe (sub i o allocAsk)s}
LeadsTo
{s. tokens h <= (tokens o sub i o allocRel)s})
guarantees[allocGiv]
(INT i : lessThan Nclients.
INT h. {s. h <= (sub i o allocAsk) s}
LeadsTo
{s. h pfixLe (sub i o allocGiv) s})"
(*NOTE: to follow the original paper, the formula above should have had
INT h. {s. h i <= (sub i o allocGiv)s & h i pfixGe (sub i o allocAsk)s}
LeadsTo
{s. tokens h i <= (tokens o sub i o allocRel)s})
thus h should have been a function variable. However, only h i is ever
looked at.*)
(*spec: preserves part*)
alloc_preserves :: 'a allocState_d program set
"alloc_preserves == preserves (funPair allocRel
(funPair allocAsk allocState_d.dummy))"
alloc_spec :: 'a allocState_d program set
"alloc_spec == alloc_increasing Int alloc_safety Int alloc_progress Int
alloc_preserves"
(** Network specification ***)
(*spec (9.1)*)
network_ask :: 'a systemState program set
"network_ask == INT i : lessThan Nclients.
Increasing (ask o sub i o client)
guarantees[allocAsk]
((sub i o allocAsk) Fols (ask o sub i o client))"
(*spec (9.2)*)
network_giv :: 'a systemState program set
"network_giv == INT i : lessThan Nclients.
Increasing (sub i o allocGiv)
guarantees[giv o sub i o client]
((giv o sub i o client) Fols (sub i o allocGiv))"
(*spec (9.3)*)
network_rel :: 'a systemState program set
"network_rel == INT i : lessThan Nclients.
Increasing (rel o sub i o client)
guarantees[allocRel]
((sub i o allocRel) Fols (rel o sub i o client))"
(*spec: preserves part*)
network_preserves :: 'a systemState program set
"network_preserves == preserves allocGiv Int
(INT i : lessThan Nclients.
preserves (funPair rel ask o sub i o client))"
network_spec :: 'a systemState program set
"network_spec == network_ask Int network_giv Int
network_rel Int network_preserves"
(** State mappings **)
sysOfAlloc :: "((nat => clientState) * 'a) allocState_d => 'a systemState"
"sysOfAlloc == %s. let (cl,xtr) = allocState_d.dummy s
in (| allocGiv = allocGiv s,
allocAsk = allocAsk s,
allocRel = allocRel s,
client = cl,
dummy = xtr|)"
sysOfClient :: "(nat => clientState) * 'a allocState_d => 'a systemState"
"sysOfClient == %(cl,al). (| allocGiv = allocGiv al,
allocAsk = allocAsk al,
allocRel = allocRel al,
client = cl,
systemState.dummy = allocState_d.dummy al|)"
consts
Alloc :: 'a allocState_d program
Client :: 'a clientState_d program
Network :: 'a systemState program
System :: 'a systemState program
rules
Alloc "Alloc : alloc_spec"
Client "Client : client_spec"
Network "Network : network_spec"
defs
System_def
"System == rename sysOfAlloc Alloc Join Network Join
(rename sysOfClient
(plam x: lessThan Nclients. rename client_map Client))"
(**
locale System =
fixes
Alloc :: 'a allocState_d program
Client :: 'a clientState_d program
Network :: 'a systemState program
System :: 'a systemState program
assumes
Alloc "Alloc : alloc_spec"
Client "Client : client_spec"
Network "Network : network_spec"
defines
System_def
"System == rename sysOfAlloc Alloc
Join
Network
Join
(rename sysOfClient
(plam x: lessThan Nclients. rename client_map Client))"
**)
end