sane numerals (stage 1): added generic 1, removed 1' and 2 on nat,
"num" syntax (still with "#"), Numeral0, Numeral1;
(* 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
*)
(*Perhaps equalities.ML shouldn't add this in the first place!*)
Delsimps [image_Collect];
AddIs [impOfSubs subset_preserves_o];
Addsimps [impOfSubs subset_preserves_o];
Addsimps [funPair_o_distrib];
Addsimps [Always_INT_distrib];
Delsimps [o_apply];
(*Eliminate the "o" operator*)
val o_simp = simplify (simpset() addsimps [o_def]);
(*For rewriting of specifications related by "guarantees"*)
Addsimps [rename_image_constrains, rename_image_stable,
rename_image_increasing, rename_image_invariant,
rename_image_Constrains, rename_image_Stable,
rename_image_Increasing, rename_image_Always,
rename_image_leadsTo, rename_image_LeadsTo,
rename_preserves, rename_image_preserves, lift_image_preserves,
bij_image_INT, bij_is_inj RS image_Int, bij_image_Collect_eq];
(*Splits up conjunctions & intersections: like CONJUNCTS in the HOL system*)
fun list_of_Int th =
(list_of_Int (th RS conjunct1) @ list_of_Int (th RS conjunct2))
handle THM _ => (list_of_Int (th RS IntD1) @ list_of_Int (th RS IntD2))
handle THM _ => (list_of_Int (th RS INT_D))
handle THM _ => (list_of_Int (th RS bspec))
handle THM _ => [th];
(*Used just once, for Alloc_Increasing*)
val lessThanBspec = lessThan_iff RS iffD2 RSN (2, bspec);
fun normalize th =
normalize (th RS spec
handle THM _ => th RS lessThanBspec
handle THM _ => th RS bspec
handle THM _ => th RS (guarantees_INT_right_iff RS iffD1))
handle THM _ => th;
(*** bijectivity of sysOfAlloc [MUST BE AUTOMATED] ***)
val record_auto_tac =
auto_tac (claset() addIs [ext] addSWrapper record_split_wrapper,
simpset() addsimps [sysOfAlloc_def, sysOfClient_def,
client_map_def, non_dummy_def, funPair_def,
o_apply, Let_def]);
Goalw [sysOfAlloc_def, Let_def] "inj sysOfAlloc";
by (rtac injI 1);
by record_auto_tac;
qed "inj_sysOfAlloc";
AddIffs [inj_sysOfAlloc];
(*We need the inverse; also having it simplifies the proof of surjectivity*)
Goal "!!s. inv sysOfAlloc s = \
\ (| allocGiv = allocGiv s, \
\ allocAsk = allocAsk s, \
\ allocRel = allocRel s, \
\ allocState_d.dummy = (client s, dummy s) |)";
by (rtac (inj_sysOfAlloc RS inv_f_eq) 1);
by record_auto_tac;
qed "inv_sysOfAlloc_eq";
Addsimps [inv_sysOfAlloc_eq];
Goal "surj sysOfAlloc";
by (simp_tac (simpset() addsimps [surj_iff, expand_fun_eq, o_apply]) 1);
by record_auto_tac;
qed "surj_sysOfAlloc";
AddIffs [surj_sysOfAlloc];
Goal "bij sysOfAlloc";
by (blast_tac (claset() addIs [bijI]) 1);
qed "bij_sysOfAlloc";
AddIffs [bij_sysOfAlloc];
(*** bijectivity of sysOfClient ***)
Goalw [sysOfClient_def] "inj sysOfClient";
by (rtac injI 1);
by record_auto_tac;
qed "inj_sysOfClient";
AddIffs [inj_sysOfClient];
Goal "!!s. inv sysOfClient s = \
\ (client s, \
\ (| allocGiv = allocGiv s, \
\ allocAsk = allocAsk s, \
\ allocRel = allocRel s, \
\ allocState_d.dummy = systemState.dummy s|) )";
by (rtac (inj_sysOfClient RS inv_f_eq) 1);
by record_auto_tac;
qed "inv_sysOfClient_eq";
Addsimps [inv_sysOfClient_eq];
Goal "surj sysOfClient";
by (simp_tac (simpset() addsimps [surj_iff, expand_fun_eq, o_apply]) 1);
by record_auto_tac;
qed "surj_sysOfClient";
AddIffs [surj_sysOfClient];
Goal "bij sysOfClient";
by (blast_tac (claset() addIs [bijI]) 1);
qed "bij_sysOfClient";
AddIffs [bij_sysOfClient];
(*** bijectivity of client_map ***)
Goalw [inj_on_def] "inj client_map";
by record_auto_tac;
qed "inj_client_map";
AddIffs [inj_client_map];
Goal "!!s. inv client_map s = \
\ (%(x,y).(|giv = giv x, ask = ask x, rel = rel x, \
\ clientState_d.dummy = y|)) s";
by (rtac (inj_client_map RS inv_f_eq) 1);
by record_auto_tac;
qed "inv_client_map_eq";
Addsimps [inv_client_map_eq];
Goal "surj client_map";
by (simp_tac (simpset() addsimps [surj_iff, expand_fun_eq, o_apply]) 1);
by record_auto_tac;
qed "surj_client_map";
AddIffs [surj_client_map];
Goal "bij client_map";
by (blast_tac (claset() addIs [bijI]) 1);
qed "bij_client_map";
AddIffs [bij_client_map];
(** o-simprules for client_map **)
Goalw [client_map_def] "fst o client_map = non_dummy";
by (rtac fst_o_funPair 1);
qed "fst_o_client_map";
Addsimps (make_o_equivs fst_o_client_map);
Goalw [client_map_def] "snd o client_map = clientState_d.dummy";
by (rtac snd_o_funPair 1);
qed "snd_o_client_map";
Addsimps (make_o_equivs snd_o_client_map);
(** o-simprules for sysOfAlloc [MUST BE AUTOMATED] **)
Goal "client o sysOfAlloc = fst o allocState_d.dummy ";
by record_auto_tac;
qed "client_o_sysOfAlloc";
Addsimps (make_o_equivs client_o_sysOfAlloc);
Goal "allocGiv o sysOfAlloc = allocGiv";
by record_auto_tac;
qed "allocGiv_o_sysOfAlloc_eq";
Addsimps (make_o_equivs allocGiv_o_sysOfAlloc_eq);
Goal "allocAsk o sysOfAlloc = allocAsk";
by record_auto_tac;
qed "allocAsk_o_sysOfAlloc_eq";
Addsimps (make_o_equivs allocAsk_o_sysOfAlloc_eq);
Goal "allocRel o sysOfAlloc = allocRel";
by record_auto_tac;
qed "allocRel_o_sysOfAlloc_eq";
Addsimps (make_o_equivs allocRel_o_sysOfAlloc_eq);
(** o-simprules for sysOfClient [MUST BE AUTOMATED] **)
Goal "client o sysOfClient = fst";
by record_auto_tac;
qed "client_o_sysOfClient";
Addsimps (make_o_equivs client_o_sysOfClient);
Goal "allocGiv o sysOfClient = allocGiv o snd ";
by record_auto_tac;
qed "allocGiv_o_sysOfClient_eq";
Addsimps (make_o_equivs allocGiv_o_sysOfClient_eq);
Goal "allocAsk o sysOfClient = allocAsk o snd ";
by record_auto_tac;
qed "allocAsk_o_sysOfClient_eq";
Addsimps (make_o_equivs allocAsk_o_sysOfClient_eq);
Goal "allocRel o sysOfClient = allocRel o snd ";
by record_auto_tac;
qed "allocRel_o_sysOfClient_eq";
Addsimps (make_o_equivs allocRel_o_sysOfClient_eq);
Goal "allocGiv o inv sysOfAlloc = allocGiv";
by (simp_tac (simpset() addsimps [o_def]) 1);
qed "allocGiv_o_inv_sysOfAlloc_eq";
Addsimps (make_o_equivs allocGiv_o_inv_sysOfAlloc_eq);
Goal "allocAsk o inv sysOfAlloc = allocAsk";
by (simp_tac (simpset() addsimps [o_def]) 1);
qed "allocAsk_o_inv_sysOfAlloc_eq";
Addsimps (make_o_equivs allocAsk_o_inv_sysOfAlloc_eq);
Goal "allocRel o inv sysOfAlloc = allocRel";
by (simp_tac (simpset() addsimps [o_def]) 1);
qed "allocRel_o_inv_sysOfAlloc_eq";
Addsimps (make_o_equivs allocRel_o_inv_sysOfAlloc_eq);
Goal "(rel o inv client_map o drop_map i o inv sysOfClient) = \
\ rel o sub i o client";
by (simp_tac (simpset() addsimps [o_def, drop_map_def]) 1);
qed "rel_inv_client_map_drop_map";
Addsimps (make_o_equivs rel_inv_client_map_drop_map);
Goal "(ask o inv client_map o drop_map i o inv sysOfClient) = \
\ ask o sub i o client";
by (simp_tac (simpset() addsimps [o_def, drop_map_def]) 1);
qed "ask_inv_client_map_drop_map";
Addsimps (make_o_equivs ask_inv_client_map_drop_map);
(**
Open_locale "System";
val Alloc = thm "Alloc";
val Client = thm "Client";
val Network = thm "Network";
val System_def = thm "System_def";
CANNOT use bind_thm: it puts the theorem into standard form, in effect
exporting it from the locale
**)
AddIffs [finite_lessThan];
(*Client : <unfolded specification> *)
val client_spec_simps =
[client_spec_def, client_increasing_def, client_bounded_def,
client_progress_def, client_allowed_acts_def, client_preserves_def,
guarantees_Int_right];
val [Client_Increasing_ask, Client_Increasing_rel,
Client_Bounded, Client_Progress, Client_AllowedActs,
Client_preserves_giv, Client_preserves_dummy] =
Client |> simplify (simpset() addsimps client_spec_simps)
|> list_of_Int;
AddIffs [Client_Increasing_ask, Client_Increasing_rel, Client_Bounded,
Client_preserves_giv, Client_preserves_dummy];
(*Network : <unfolded specification> *)
val network_spec_simps =
[network_spec_def, network_ask_def, network_giv_def,
network_rel_def, network_allowed_acts_def, network_preserves_def,
ball_conj_distrib];
val [Network_Ask, Network_Giv, Network_Rel, Network_AllowedActs,
Network_preserves_allocGiv, Network_preserves_rel,
Network_preserves_ask] =
Network |> simplify (simpset() addsimps network_spec_simps)
|> list_of_Int;
AddIffs [Network_preserves_allocGiv];
Addsimps [Network_preserves_rel, Network_preserves_ask];
Addsimps [o_simp Network_preserves_rel, o_simp Network_preserves_ask];
(*Alloc : <unfolded specification> *)
val alloc_spec_simps =
[alloc_spec_def, alloc_increasing_def, alloc_safety_def,
alloc_progress_def, alloc_allowed_acts_def,
alloc_preserves_def];
val [Alloc_Increasing_0, Alloc_Safety, Alloc_Progress, Alloc_AllowedActs,
Alloc_preserves_allocRel, Alloc_preserves_allocAsk,
Alloc_preserves_dummy] =
Alloc |> simplify (simpset() addsimps alloc_spec_simps)
|> list_of_Int;
(*Strip off the INT in the guarantees postcondition*)
val Alloc_Increasing = normalize Alloc_Increasing_0;
AddIffs [Alloc_preserves_allocRel, Alloc_preserves_allocAsk,
Alloc_preserves_dummy];
(** Components lemmas [MUST BE AUTOMATED] **)
Goal "Network Join \
\ ((rename sysOfClient \
\ (plam x: (lessThan Nclients). rename client_map Client)) Join \
\ rename sysOfAlloc Alloc) \
\ = System";
by (simp_tac (simpset() addsimps System_def::Join_ac) 1);
qed "Network_component_System";
Goal "(rename sysOfClient \
\ (plam x: (lessThan Nclients). rename client_map Client)) Join \
\ (Network Join rename sysOfAlloc Alloc) = System";
by (simp_tac (simpset() addsimps System_def::Join_ac) 1);
qed "Client_component_System";
Goal "rename sysOfAlloc Alloc Join \
\ ((rename sysOfClient (plam x: (lessThan Nclients). rename client_map Client)) Join \
\ Network) = System";
by (simp_tac (simpset() addsimps System_def::Join_ac) 1);
qed "Alloc_component_System";
AddIffs [Client_component_System, Network_component_System,
Alloc_component_System];
(** These preservation laws should be generated automatically **)
Goal "Allowed Client = preserves rel Int preserves ask";
by (auto_tac (claset(),
simpset() addsimps [Allowed_def, Client_AllowedActs,
safety_prop_Acts_iff]));
qed "Client_Allowed";
Addsimps [Client_Allowed];
Goal "Allowed Network = \
\ preserves allocRel Int \
\ (INT i: lessThan Nclients. preserves(giv o sub i o client))";
by (auto_tac (claset(),
simpset() addsimps [Allowed_def, Network_AllowedActs,
safety_prop_Acts_iff]));
qed "Network_Allowed";
Addsimps [Network_Allowed];
Goal "Allowed Alloc = preserves allocGiv";
by (auto_tac (claset(),
simpset() addsimps [Allowed_def, Alloc_AllowedActs,
safety_prop_Acts_iff]));
qed "Alloc_Allowed";
Addsimps [Alloc_Allowed];
Goal "OK I (%i. lift i (rename client_map Client))";
by (rtac OK_lift_I 1);
by Auto_tac;
by (dres_inst_tac [("w1", "rel")] (impOfSubs subset_preserves_o) 1);
by (dres_inst_tac [("w1", "ask")] (impOfSubs subset_preserves_o) 2);
by (auto_tac (claset(), simpset() addsimps [o_def, split_def]));
qed "OK_lift_rename_Client";
Addsimps [OK_lift_rename_Client]; (*needed in rename_client_map_tac*
(*The proofs of rename_Client_Increasing, rename_Client_Bounded and
rename_Client_Progress are similar. All require copying out the original
Client property. A forward proof can be constructed as follows:
Client_Increasing_ask RS
(bij_client_map RS rename_rename_guarantees_eq RS iffD2)
RS (lift_lift_guarantees_eq RS iffD2)
RS guarantees_PLam_I
RS (bij_sysOfClient RS rename_rename_guarantees_eq RS iffD2)
|> simplify (simpset() addsimps [lift_image_eq_rename, o_def, split_def,
surj_rename RS surj_range]);
However, the "preserves" property remains to be discharged, and the unfolding
of "o" and "sub" complicates subsequent reasoning.
The following tactic works for all three proofs, though it certainly looks
ad-hoc!
*)
val rename_client_map_tac =
EVERY [
simp_tac (simpset() addsimps [rename_guarantees_eq_rename_inv]) 1,
rtac guarantees_PLam_I 1,
assume_tac 2,
(*preserves: routine reasoning*)
asm_simp_tac (simpset() addsimps [lift_preserves_sub]) 2,
(*the guarantee for "lift i (rename client_map Client)" *)
asm_simp_tac
(simpset() addsimps [lift_guarantees_eq_lift_inv,
rename_guarantees_eq_rename_inv,
bij_imp_bij_inv, surj_rename RS surj_range,
inv_inv_eq]) 1,
asm_simp_tac
(simpset() addsimps [o_def, non_dummy_def, guarantees_Int_right]) 1];
(*Lifting Client_Increasing to systemState*)
Goal "i : I \
\ ==> rename sysOfClient (plam x: I. rename client_map Client) : \
\ UNIV guarantees \
\ Increasing (ask o sub i o client) Int \
\ Increasing (rel o sub i o client)";
by rename_client_map_tac;
qed "rename_Client_Increasing";
Goal "[| F : preserves w; i ~= j |] \
\ ==> F : preserves (sub i o fst o lift_map j o funPair v w)";
by (auto_tac (claset(),
simpset() addsimps [lift_map_def, split_def, linorder_neq_iff, o_def]));
by (ALLGOALS (dtac (impOfSubs subset_preserves_o)));
by (auto_tac (claset(), simpset() addsimps [o_def]));
qed "preserves_sub_fst_lift_map";
Goal "[| i < Nclients; j < Nclients |] \
\ ==> Client : preserves (giv o sub i o fst o lift_map j o client_map)";
by (case_tac "i=j" 1);
by (asm_full_simp_tac (simpset() addsimps [o_def, non_dummy_def]) 1);
by (dtac (Client_preserves_dummy RS preserves_sub_fst_lift_map) 1);
by (ALLGOALS (dtac (impOfSubs subset_preserves_o)));
by (asm_full_simp_tac (simpset() addsimps [o_def, client_map_def]) 1);
qed "client_preserves_giv_oo_client_map";
Goal "rename sysOfClient (plam x: lessThan Nclients. rename client_map Client)\
\ ok Network";
by (auto_tac (claset(), simpset() addsimps [ok_iff_Allowed,
client_preserves_giv_oo_client_map]));
qed "rename_sysOfClient_ok_Network";
Goal "rename sysOfClient (plam x: lessThan Nclients. rename client_map Client)\
\ ok rename sysOfAlloc Alloc";
by (simp_tac (simpset() addsimps [ok_iff_Allowed]) 1);
qed "rename_sysOfClient_ok_Alloc";
Goal "rename sysOfAlloc Alloc ok Network";
by (simp_tac (simpset() addsimps [ok_iff_Allowed]) 1);
qed "rename_sysOfAlloc_ok_Network";
AddIffs [rename_sysOfClient_ok_Network, rename_sysOfClient_ok_Alloc,
rename_sysOfAlloc_ok_Network];
(*The "ok" laws, re-oriented*)
AddIffs [rename_sysOfClient_ok_Network RS ok_sym,
rename_sysOfClient_ok_Alloc RS ok_sym,
rename_sysOfAlloc_ok_Network RS ok_sym];
Goal "i < Nclients \
\ ==> System : Increasing (ask o sub i o client) Int \
\ Increasing (rel o sub i o client)";
by (rtac ([rename_Client_Increasing,
Client_component_System] MRS component_guaranteesD) 1);
by Auto_tac;
qed "System_Increasing";
bind_thm ("rename_guarantees_sysOfAlloc_I",
bij_sysOfAlloc RS rename_rename_guarantees_eq RS iffD2);
(*Lifting Alloc_Increasing up to the level of systemState*)
val rename_Alloc_Increasing =
Alloc_Increasing RS rename_guarantees_sysOfAlloc_I
|> simplify (simpset() addsimps [surj_rename RS surj_range, o_def]);
Goalw [System_def]
"i < Nclients ==> System : Increasing (sub i o allocGiv)";
by (simp_tac (simpset() addsimps [o_def]) 1);
by (rtac (rename_Alloc_Increasing RS guarantees_Join_I1 RS guaranteesD) 1);
by Auto_tac;
qed "System_Increasing_allocGiv";
AddSIs (list_of_Int System_Increasing);
(** Follows consequences.
The "Always (INT ...) formulation expresses the general safety property
and allows it to be combined using Always_Int_rule below. **)
Goal
"i < Nclients ==> System : ((sub i o allocRel) Fols (rel o sub i o client))";
by (auto_tac (claset() addSIs [Network_Rel RS component_guaranteesD],
simpset()));
qed "System_Follows_rel";
Goal
"i < Nclients ==> System : ((sub i o allocAsk) Fols (ask o sub i o client))";
by (auto_tac (claset() addSIs [Network_Ask RS component_guaranteesD],
simpset()));
qed "System_Follows_ask";
Goal
"i < Nclients ==> System : (giv o sub i o client) Fols (sub i o allocGiv)";
by (auto_tac (claset() addSIs [Network_Giv RS component_guaranteesD,
rename_Alloc_Increasing RS component_guaranteesD],
simpset()));
by (ALLGOALS (simp_tac (simpset() addsimps [o_def, non_dummy_def])));
by (auto_tac
(claset() addSIs [rename_Alloc_Increasing RS component_guaranteesD],
simpset()));
qed "System_Follows_allocGiv";
Goal "System : Always (INT i: lessThan Nclients. \
\ {s. (giv o sub i o client) s <= (sub i o allocGiv) s})";
by Auto_tac;
by (etac (System_Follows_allocGiv RS Follows_Bounded) 1);
qed "Always_giv_le_allocGiv";
Goal "System : Always (INT i: lessThan Nclients. \
\ {s. (sub i o allocAsk) s <= (ask o sub i o client) s})";
by Auto_tac;
by (etac (System_Follows_ask RS Follows_Bounded) 1);
qed "Always_allocAsk_le_ask";
Goal "System : Always (INT i: lessThan Nclients. \
\ {s. (sub i o allocRel) s <= (rel o sub i o client) s})";
by (auto_tac (claset() addSIs [Follows_Bounded, System_Follows_rel],
simpset()));
qed "Always_allocRel_le_rel";
(*** Proof of the safety property (1) ***)
(*safety (1), step 1 is System_Follows_rel*)
(*safety (1), step 2*)
(* i < Nclients ==> System : Increasing (sub i o allocRel) *)
bind_thm ("System_Increasing_allocRel",
System_Follows_rel RS Follows_Increasing1);
(*Lifting Alloc_safety up to the level of systemState.
Simplififying with o_def gets rid of the translations but it unfortunately
gets rid of the other "o"s too.*)
val rename_Alloc_Safety =
Alloc_Safety RS rename_guarantees_sysOfAlloc_I
|> simplify (simpset() addsimps [o_def]);
(*safety (1), step 3*)
Goal
"System : 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)}";
by (simp_tac (simpset() addsimps [o_apply]) 1);
by (rtac (rename_Alloc_Safety RS component_guaranteesD) 1);
by (auto_tac (claset(),
simpset() addsimps [o_simp System_Increasing_allocRel]));
qed "System_sum_bounded";
(** Follows reasoning **)
Goal "System : Always (INT i: lessThan Nclients. \
\ {s. (tokens o giv o sub i o client) s \
\ <= (tokens o sub i o allocGiv) s})";
by (rtac (Always_giv_le_allocGiv RS Always_weaken) 1);
by (auto_tac (claset() addIs [tokens_mono_prefix],
simpset() addsimps [o_apply]));
qed "Always_tokens_giv_le_allocGiv";
Goal "System : Always (INT i: lessThan Nclients. \
\ {s. (tokens o sub i o allocRel) s \
\ <= (tokens o rel o sub i o client) s})";
by (rtac (Always_allocRel_le_rel RS Always_weaken) 1);
by (auto_tac (claset() addIs [tokens_mono_prefix],
simpset() addsimps [o_apply]));
qed "Always_tokens_allocRel_le_rel";
(*safety (1), step 4 (final result!) *)
Goalw [system_safety_def] "System : system_safety";
by (rtac (Always_Int_rule [System_sum_bounded, Always_tokens_giv_le_allocGiv,
Always_tokens_allocRel_le_rel] RS Always_weaken) 1);
by Auto_tac;
by (rtac (setsum_fun_mono RS order_trans) 1);
by (dtac order_trans 2);
by (rtac ([order_refl, setsum_fun_mono] MRS add_le_mono) 2);
by (assume_tac 3);
by Auto_tac;
qed "System_safety";
(*** Proof of the progress property (2) ***)
(*progress (2), step 1 is System_Follows_ask and System_Follows_rel*)
(*progress (2), step 2; see also System_Increasing_allocRel*)
(* i < Nclients ==> System : Increasing (sub i o allocAsk) *)
bind_thm ("System_Increasing_allocAsk",
System_Follows_ask RS Follows_Increasing1);
(*progress (2), step 3: lifting "Client_Bounded" to systemState*)
Goal "i : I \
\ ==> rename sysOfClient (plam x: I. rename client_map Client) : \
\ UNIV guarantees \
\ Always {s. ALL elt : set ((ask o sub i o client) s). elt <= NbT}";
by rename_client_map_tac;
qed "rename_Client_Bounded";
Goal "i < Nclients \
\ ==> System : Always \
\ {s. ALL elt : set ((ask o sub i o client) s). elt <= NbT}";
by (rtac ([rename_Client_Bounded,
Client_component_System] MRS component_guaranteesD) 1);
by Auto_tac;
qed "System_Bounded_ask";
Goal "{x. ALL y. P y --> Q x y} = (INT y: {y. P y}. {x. Q x y})";
by (Blast_tac 1);
qed "Collect_all_imp_eq";
(*progress (2), step 4*)
Goal "System : Always {s. ALL i<Nclients. \
\ ALL elt : set ((sub i o allocAsk) s). elt <= NbT}";
by (auto_tac (claset(), simpset() addsimps [Collect_all_imp_eq]));
by (rtac (Always_Int_rule [Always_allocAsk_le_ask, System_Bounded_ask]
RS Always_weaken) 1);
by (auto_tac (claset() addDs [set_mono], simpset()));
qed "System_Bounded_allocAsk";
(*progress (2), step 5 is System_Increasing_allocGiv*)
(*progress (2), step 6*)
(* i < Nclients ==> System : Increasing (giv o sub i o client) *)
bind_thm ("System_Increasing_giv",
System_Follows_allocGiv RS Follows_Increasing1);
Goal "i: I \
\ ==> rename sysOfClient (plam x: I. rename client_map Client) \
\ : Increasing (giv o sub i o client) \
\ guarantees \
\ (INT h. {s. h <= (giv o sub i o client) s & \
\ h pfixGe (ask o sub i o client) s} \
\ LeadsTo {s. tokens h <= (tokens o rel o sub i o client) s})";
by rename_client_map_tac;
by (asm_simp_tac (simpset() addsimps [o_simp Client_Progress]) 1);
qed "rename_Client_Progress";
(*progress (2), step 7*)
Goal
"System : (INT i : (lessThan Nclients). \
\ INT h. {s. h <= (giv o sub i o client) s & \
\ h pfixGe (ask o sub i o client) s} \
\ LeadsTo {s. tokens h <= (tokens o rel o sub i o client) s})";
by (rtac INT_I 1);
(*Couldn't have just used Auto_tac since the "INT h" must be kept*)
by (rtac ([rename_Client_Progress,
Client_component_System] MRS component_guaranteesD) 1);
by (auto_tac (claset(), simpset() addsimps [System_Increasing_giv]));
qed "System_Client_Progress";
(*Concludes
System : {s. k <= (sub i o allocGiv) s}
LeadsTo
{s. (sub i o allocAsk) s <= (ask o sub i o client) s} Int
{s. k <= (giv o sub i o client) s} *)
val lemma =
[System_Follows_ask RS Follows_Bounded,
System_Follows_allocGiv RS Follows_LeadsTo] MRS Always_LeadsToD;
(*A more complicated variant of the previous one*)
val lemma2 = [lemma,
System_Follows_ask RS Follows_Increasing1 RS IncreasingD]
MRS PSP_Stable;
Goal "i < Nclients \
\ ==> System : {s. h <= (sub i o allocGiv) s & \
\ h pfixGe (sub i o allocAsk) s} \
\ LeadsTo \
\ {s. h <= (giv o sub i o client) s & \
\ h pfixGe (ask o sub i o client) s}";
by (rtac single_LeadsTo_I 1);
by (res_inst_tac [("k6", "h"), ("x2", "(sub i o allocAsk) s")]
(lemma2 RS LeadsTo_weaken) 1);
by Auto_tac;
by (blast_tac (claset() addIs [trans_Ge RS trans_genPrefix RS transD,
prefix_imp_pfixGe]) 1);
val lemma3 = result();
(*progress (2), step 8: Client i's "release" action is visible system-wide*)
Goal "i < Nclients \
\ ==> System : {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}";
by (rtac LeadsTo_Trans 1);
by (dtac (System_Follows_rel RS impOfSubs (mono_tokens RS mono_Follows_o) RS
Follows_LeadsTo) 2);
by (asm_full_simp_tac (simpset() addsimps [o_assoc]) 2);
by (rtac LeadsTo_Trans 1);
by (cut_facts_tac [System_Client_Progress] 2);
by (blast_tac (claset() addIs [LeadsTo_Basis]) 2);
by (etac lemma3 1);
qed "System_Alloc_Client_Progress";
(*Lifting Alloc_Progress up to the level of systemState*)
val rename_Alloc_Progress =
Alloc_Progress RS rename_guarantees_sysOfAlloc_I
|> simplify (simpset() addsimps [o_def]);
(*progress (2), step 9*)
Goal
"System : (INT i : (lessThan Nclients). \
\ INT h. {s. h <= (sub i o allocAsk) s} \
\ LeadsTo {s. h pfixLe (sub i o allocGiv) s})";
(*Can't use simpset(): the "INT h" must be kept*)
by (simp_tac (HOL_ss addsimps [o_apply, sub_def]) 1);
by (rtac (rename_Alloc_Progress RS component_guaranteesD) 1);
by (auto_tac (claset(),
simpset() addsimps [o_simp System_Increasing_allocRel,
o_simp System_Increasing_allocAsk,
o_simp System_Bounded_allocAsk,
o_simp System_Alloc_Client_Progress]));
qed "System_Alloc_Progress";
(*progress (2), step 10 (final result!) *)
Goalw [system_progress_def] "System : system_progress";
by (cut_facts_tac [System_Alloc_Progress] 1);
by (blast_tac (claset() addIs [LeadsTo_Trans,
System_Follows_allocGiv RS Follows_LeadsTo_pfixLe,
System_Follows_ask RS Follows_LeadsTo]) 1);
qed "System_Progress";
(*Ultimate goal*)
Goalw [system_spec_def] "System : system_spec";
by (blast_tac (claset() addIs [System_safety, System_Progress]) 1);
qed "System_correct";
(** Some lemmas no longer used **)
Goal "non_dummy = (% (g,a,r). (| giv = g, ask = a, rel = r |)) o \
\ (funPair giv (funPair ask rel))";
by (rtac ext 1);
by (auto_tac (claset(), simpset() addsimps [o_def, non_dummy_def]));
qed "non_dummy_eq_o_funPair";
Goal "(preserves non_dummy) = \
\ (preserves rel Int preserves ask Int preserves giv)";
by (simp_tac (simpset() addsimps [non_dummy_eq_o_funPair]) 1);
by Auto_tac;
by (dres_inst_tac [("w1", "rel")] (impOfSubs subset_preserves_o) 1);
by (dres_inst_tac [("w1", "ask")] (impOfSubs subset_preserves_o) 2);
by (dres_inst_tac [("w1", "giv")] (impOfSubs subset_preserves_o) 3);
by (auto_tac (claset(), simpset() addsimps [o_def]));
qed "preserves_non_dummy_eq";
(*Could go to Extend.ML*)
Goal "bij f ==> fst (inv (%(x, u). inv f x) z) = f z";
by (rtac fst_inv_equalityI 1);
by (res_inst_tac [("f","%z. (f z, ?h z)")] surjI 1);
by (asm_full_simp_tac (simpset() addsimps [bij_is_inj, inv_f_f]) 1);
by (asm_full_simp_tac (simpset() addsimps [bij_is_surj, surj_f_inv_f]) 1);
qed "bij_fst_inv_inv_eq";