wneuper/isa: src/Pure/simplifier.ML@7173bf123335 (annotated)

wenzelm@16014	1	(* Title: Pure/simplifier.ML
wenzelm@16014	2	Author: Tobias Nipkow and Markus Wenzel, TU Muenchen
wenzelm@16014	3
wenzelm@16014	4	Generic simplifier, suitable for most logics (see also
wenzelm@16014	5	meta_simplifier.ML for the actual meta-level rewriting engine).
wenzelm@16014	6	*)
wenzelm@16014	7
wenzelm@16014	8	signature BASIC_SIMPLIFIER =
wenzelm@16014	9	sig
wenzelm@16014	10	include BASIC_META_SIMPLIFIER
wenzelm@17883	11	val change_simpset: (simpset -> simpset) -> unit
wenzelm@16014	12	val simpset_of: theory -> simpset
wenzelm@17883	13	val simpset: unit -> simpset
wenzelm@16014	14	val SIMPSET: (simpset -> tactic) -> tactic
wenzelm@16014	15	val SIMPSET': (simpset -> 'a -> tactic) -> 'a -> tactic
wenzelm@16014	16	val Addsimps: thm list -> unit
wenzelm@16014	17	val Delsimps: thm list -> unit
wenzelm@16014	18	val Addsimprocs: simproc list -> unit
wenzelm@16014	19	val Delsimprocs: simproc list -> unit
wenzelm@16014	20	val Addcongs: thm list -> unit
wenzelm@16014	21	val Delcongs: thm list -> unit
wenzelm@16014	22	val local_simpset_of: Proof.context -> simpset
wenzelm@17967	23	val generic_simp_tac: bool -> bool * bool * bool -> simpset -> int -> tactic
wenzelm@16014	24	val safe_asm_full_simp_tac: simpset -> int -> tactic
wenzelm@16014	25	val simp_tac: simpset -> int -> tactic
wenzelm@16014	26	val asm_simp_tac: simpset -> int -> tactic
wenzelm@16014	27	val full_simp_tac: simpset -> int -> tactic
wenzelm@16014	28	val asm_lr_simp_tac: simpset -> int -> tactic
wenzelm@16014	29	val asm_full_simp_tac: simpset -> int -> tactic
wenzelm@16014	30	val Simp_tac: int -> tactic
wenzelm@16014	31	val Asm_simp_tac: int -> tactic
wenzelm@16014	32	val Full_simp_tac: int -> tactic
wenzelm@16014	33	val Asm_lr_simp_tac: int -> tactic
wenzelm@16014	34	val Asm_full_simp_tac: int -> tactic
wenzelm@16014	35	val simplify: simpset -> thm -> thm
wenzelm@16014	36	val asm_simplify: simpset -> thm -> thm
wenzelm@16014	37	val full_simplify: simpset -> thm -> thm
wenzelm@16014	38	val asm_lr_simplify: simpset -> thm -> thm
wenzelm@16014	39	val asm_full_simplify: simpset -> thm -> thm
wenzelm@16014	40	end;
wenzelm@16014	41
wenzelm@16014	42	signature SIMPLIFIER =
wenzelm@16014	43	sig
wenzelm@16014	44	include BASIC_SIMPLIFIER
wenzelm@30356	45	val pretty_ss: Proof.context -> simpset -> Pretty.T
wenzelm@17004	46	val clear_ss: simpset -> simpset
wenzelm@17723	47	val debug_bounds: bool ref
wenzelm@17883	48	val inherit_context: simpset -> simpset -> simpset
wenzelm@17898	49	val the_context: simpset -> Proof.context
wenzelm@17898	50	val context: Proof.context -> simpset -> simpset
wenzelm@17898	51	val theory_context: theory -> simpset -> simpset
wenzelm@16458	52	val simproc_i: theory -> string -> term list
wenzelm@16458	53	-> (theory -> simpset -> term -> thm option) -> simproc
wenzelm@16458	54	val simproc: theory -> string -> string list
wenzelm@16458	55	-> (theory -> simpset -> term -> thm option) -> simproc
wenzelm@23598	56	val rewrite: simpset -> conv
wenzelm@23598	57	val asm_rewrite: simpset -> conv
wenzelm@23598	58	val full_rewrite: simpset -> conv
wenzelm@23598	59	val asm_lr_rewrite: simpset -> conv
wenzelm@23598	60	val asm_full_rewrite: simpset -> conv
wenzelm@22379	61	val get_ss: Context.generic -> simpset
wenzelm@22379	62	val map_ss: (simpset -> simpset) -> Context.generic -> Context.generic
wenzelm@18728	63	val attrib: (simpset * thm list -> simpset) -> attribute
wenzelm@18728	64	val simp_add: attribute
wenzelm@18728	65	val simp_del: attribute
wenzelm@18728	66	val cong_add: attribute
wenzelm@18728	67	val cong_del: attribute
wenzelm@26497	68	val map_simpset: (simpset -> simpset) -> theory -> theory
wenzelm@24024	69	val get_simproc: Context.generic -> xstring -> simproc
wenzelm@22236	70	val def_simproc: {name: string, lhss: string list,
wenzelm@22236	71	proc: morphism -> simpset -> cterm -> thm option, identifier: thm list} ->
wenzelm@22201	72	local_theory -> local_theory
wenzelm@22236	73	val def_simproc_i: {name: string, lhss: term list,
wenzelm@22236	74	proc: morphism -> simpset -> cterm -> thm option, identifier: thm list} ->
wenzelm@22201	75	local_theory -> local_theory
wenzelm@30518	76	val cong_modifiers: Method.modifier parser list
wenzelm@30518	77	val simp_modifiers': Method.modifier parser list
wenzelm@30518	78	val simp_modifiers: Method.modifier parser list
wenzelm@30518	79	val method_setup: Method.modifier parser list -> theory -> theory
wenzelm@18708	80	val easy_setup: thm -> thm list -> theory -> theory
wenzelm@16014	81	end;
wenzelm@16014	82
wenzelm@16014	83	structure Simplifier: SIMPLIFIER =
wenzelm@16014	84	struct
wenzelm@16014	85
wenzelm@21708	86	open MetaSimplifier;
wenzelm@21708	87
wenzelm@21708	88
wenzelm@30356	89	( pretty printing )
wenzelm@30356	90
wenzelm@30356	91	fun pretty_ss ctxt ss =
wenzelm@30356	92	let
wenzelm@30356	93	val pretty_cterm = Syntax.pretty_term ctxt o Thm.term_of;
wenzelm@30356	94	val pretty_thm = ProofContext.pretty_thm ctxt;
wenzelm@30356	95	fun pretty_proc (name, lhss) = Pretty.big_list (name ^ ":") (map pretty_cterm lhss);
wenzelm@30356	96	fun pretty_cong (name, thm) =
wenzelm@30356	97	Pretty.block [Pretty.str (name ^ ":"), Pretty.brk 1, pretty_thm thm];
wenzelm@30356	98
wenzelm@30356	99	val {simps, procs, congs, loopers, unsafe_solvers, safe_solvers, ...} = dest_ss ss;
wenzelm@30356	100	in
wenzelm@30356	101	[Pretty.big_list "simplification rules:" (map (pretty_thm o #2) simps),
wenzelm@30356	102	Pretty.big_list "simplification procedures:" (map pretty_proc (sort_wrt #1 procs)),
wenzelm@30356	103	Pretty.big_list "congruences:" (map pretty_cong congs),
wenzelm@30356	104	Pretty.strs ("loopers:" :: map quote loopers),
wenzelm@30356	105	Pretty.strs ("unsafe solvers:" :: map quote unsafe_solvers),
wenzelm@30356	106	Pretty.strs ("safe solvers:" :: map quote safe_solvers)]
wenzelm@30356	107	\|> Pretty.chunks
wenzelm@30356	108	end;
wenzelm@30356	109
wenzelm@30356	110
wenzelm@30356	111
wenzelm@17883	112	( simpset data )
wenzelm@16014	113
wenzelm@26497	114	structure SimpsetData = GenericDataFun
wenzelm@22846	115	(
wenzelm@26497	116	type T = simpset;
wenzelm@26497	117	val empty = empty_ss;
wenzelm@26497	118	fun extend ss = MetaSimplifier.inherit_context empty_ss ss;
wenzelm@26497	119	fun merge _ = merge_ss;
wenzelm@22846	120	);
wenzelm@16014	121
wenzelm@26497	122	val get_ss = SimpsetData.get;
wenzelm@26497	123	val map_ss = SimpsetData.map;
wenzelm@16014	124
wenzelm@16014	125
wenzelm@26497	126	(* attributes *)
wenzelm@26497	127
wenzelm@26497	128	fun attrib f = Thm.declaration_attribute (fn th => map_ss (fn ss => f (ss, [th])));
wenzelm@26497	129
wenzelm@26497	130	val simp_add = attrib (op addsimps);
wenzelm@26497	131	val simp_del = attrib (op delsimps);
wenzelm@26497	132	val cong_add = attrib (op addcongs);
wenzelm@26497	133	val cong_del = attrib (op delcongs);
wenzelm@26497	134
wenzelm@26497	135
wenzelm@26497	136	(* global simpset *)
wenzelm@26497	137
wenzelm@26497	138	fun map_simpset f = Context.theory_map (map_ss f);
wenzelm@26497	139	fun change_simpset f = Context.>> (Context.map_theory (map_simpset f));
wenzelm@26497	140	fun simpset_of thy = MetaSimplifier.context (ProofContext.init thy) (get_ss (Context.Theory thy));
wenzelm@26425	141	val simpset = simpset_of o ML_Context.the_global_context;
wenzelm@16014	142
wenzelm@17883	143	fun SIMPSET tacf st = tacf (simpset_of (Thm.theory_of_thm st)) st;
wenzelm@17883	144	fun SIMPSET' tacf i st = tacf (simpset_of (Thm.theory_of_thm st)) i st;
wenzelm@16014	145
wenzelm@17883	146	fun Addsimps args = change_simpset (fn ss => ss addsimps args);
wenzelm@17883	147	fun Delsimps args = change_simpset (fn ss => ss delsimps args);
wenzelm@17883	148	fun Addsimprocs args = change_simpset (fn ss => ss addsimprocs args);
wenzelm@17883	149	fun Delsimprocs args = change_simpset (fn ss => ss delsimprocs args);
wenzelm@17883	150	fun Addcongs args = change_simpset (fn ss => ss addcongs args);
wenzelm@17883	151	fun Delcongs args = change_simpset (fn ss => ss delcongs args);
wenzelm@16014	152
wenzelm@16014	153
wenzelm@26497	154	(* local simpset *)
wenzelm@16014	155
wenzelm@26497	156	fun local_simpset_of ctxt = MetaSimplifier.context ctxt (get_ss (Context.Proof ctxt));
wenzelm@16014	157
wenzelm@27338	158	val _ = ML_Antiquote.value "simpset"
wenzelm@27338	159	(Scan.succeed "Simplifier.local_simpset_of (ML_Context.the_local_context ())");
wenzelm@22132	160
wenzelm@16014	161
wenzelm@17967	162
wenzelm@22201	163	( named simprocs )
wenzelm@22201	164
wenzelm@23655	165	fun err_dup_simproc name = error ("Duplicate simproc: " ^ quote name);
wenzelm@22201	166
wenzelm@22236	167
wenzelm@22204	168	(* data *)
wenzelm@22204	169
wenzelm@22201	170	structure Simprocs = GenericDataFun
wenzelm@22201	171	(
wenzelm@22236	172	type T = simproc NameSpace.table;
wenzelm@22201	173	val empty = NameSpace.empty_table;
wenzelm@22201	174	val extend = I;
wenzelm@22236	175	fun merge _ simprocs = NameSpace.merge_tables eq_simproc simprocs
wenzelm@23655	176	handle Symtab.DUP dup => err_dup_simproc dup;
wenzelm@22201	177	);
wenzelm@22201	178
wenzelm@22204	179
wenzelm@22204	180	(* get simprocs *)
wenzelm@22204	181
wenzelm@24024	182	fun get_simproc context xname =
wenzelm@22204	183	let
wenzelm@24024	184	val (space, tab) = Simprocs.get context;
wenzelm@22204	185	val name = NameSpace.intern space xname;
wenzelm@22204	186	in
wenzelm@22204	187	(case Symtab.lookup tab name of
wenzelm@22236	188	SOME proc => proc
wenzelm@22204	189	\| NONE => error ("Undefined simplification procedure: " ^ quote name))
wenzelm@22204	190	end;
wenzelm@22204	191
wenzelm@27338	192	val _ = ML_Antiquote.value "simproc" (Scan.lift Args.name >> (fn name =>
wenzelm@27338	193	"Simplifier.get_simproc (ML_Context.the_generic_context ()) " ^ ML_Syntax.print_string name));
wenzelm@22204	194
wenzelm@22204	195
wenzelm@22204	196	(* define simprocs *)
wenzelm@22201	197
wenzelm@22201	198	local
wenzelm@22201	199
wenzelm@22236	200	fun gen_simproc prep {name, lhss, proc, identifier} lthy =
wenzelm@22201	201	let
haftmann@28991	202	val b = Binding.name name;
wenzelm@22236	203	val naming = LocalTheory.full_naming lthy;
wenzelm@22236	204	val simproc = make_simproc
haftmann@28991	205	{name = LocalTheory.full_name lthy b,
wenzelm@22236	206	lhss =
wenzelm@22236	207	let
wenzelm@22236	208	val lhss' = prep lthy lhss;
wenzelm@22236	209	val ctxt' = lthy
wenzelm@22236	210	\|> fold Variable.declare_term lhss'
wenzelm@22236	211	\|> fold Variable.auto_fixes lhss';
wenzelm@22236	212	in Variable.export_terms ctxt' lthy lhss' end
wenzelm@22236	213	\|> map (Thm.cterm_of (ProofContext.theory_of lthy)),
wenzelm@22236	214	proc = proc,
wenzelm@22236	215	identifier = identifier}
wenzelm@22236	216	\|> morph_simproc (LocalTheory.target_morphism lthy);
wenzelm@22201	217	in
wenzelm@24024	218	lthy \|> LocalTheory.declaration (fn phi =>
wenzelm@22201	219	let
haftmann@28991	220	val b' = Morphism.binding phi b;
wenzelm@22236	221	val simproc' = morph_simproc phi simproc;
wenzelm@22201	222	in
wenzelm@24024	223	Simprocs.map (fn simprocs =>
wenzelm@30466	224	NameSpace.define naming (b', simproc') simprocs \|> snd
haftmann@28863	225	handle Symtab.DUP dup => err_dup_simproc dup)
wenzelm@24024	226	#> map_ss (fn ss => ss addsimprocs [simproc'])
wenzelm@22201	227	end)
wenzelm@22201	228	end;
wenzelm@22201	229
wenzelm@22201	230	in
wenzelm@22201	231
wenzelm@24509	232	val def_simproc = gen_simproc Syntax.read_terms;
wenzelm@24509	233	val def_simproc_i = gen_simproc Syntax.check_terms;
wenzelm@22201	234
wenzelm@22201	235	end;
wenzelm@22201	236
wenzelm@22201	237
wenzelm@22201	238
wenzelm@17967	239	( simplification tactics and rules )
wenzelm@17967	240
wenzelm@17967	241	fun solve_all_tac solvers ss =
wenzelm@17967	242	let
wenzelm@30342	243	val (_, {subgoal_tac, ...}) = MetaSimplifier.internal_ss ss;
wenzelm@17967	244	val solve_tac = subgoal_tac (MetaSimplifier.set_solvers solvers ss) THEN_ALL_NEW (K no_tac);
wenzelm@17967	245	in DEPTH_SOLVE (solve_tac 1) end;
wenzelm@17967	246
wenzelm@17967	247	(NOTE: may instantiate unknowns that appear also in other subgoals)
wenzelm@17967	248	fun generic_simp_tac safe mode ss =
wenzelm@17967	249	let
wenzelm@30342	250	val (_, {loop_tacs, solvers = (unsafe_solvers, solvers), ...}) = MetaSimplifier.internal_ss ss;
haftmann@21286	251	val loop_tac = FIRST' (map (fn (_, tac) => tac ss) (rev loop_tacs));
wenzelm@17967	252	val solve_tac = FIRST' (map (MetaSimplifier.solver ss)
haftmann@22717	253	(rev (if safe then solvers else unsafe_solvers)));
wenzelm@17967	254
wenzelm@17967	255	fun simp_loop_tac i =
wenzelm@23536	256	asm_rewrite_goal_tac mode (solve_all_tac unsafe_solvers) ss i THEN
wenzelm@17967	257	(solve_tac i ORELSE TRY ((loop_tac THEN_ALL_NEW simp_loop_tac) i));
wenzelm@17967	258	in simp_loop_tac end;
wenzelm@17967	259
wenzelm@17967	260	local
wenzelm@17967	261
wenzelm@17967	262	fun simp rew mode ss thm =
wenzelm@17967	263	let
wenzelm@30342	264	val (_, {solvers = (unsafe_solvers, _), ...}) = MetaSimplifier.internal_ss ss;
haftmann@22717	265	val tacf = solve_all_tac (rev unsafe_solvers);
wenzelm@17967	266	fun prover s th = Option.map #1 (Seq.pull (tacf s th));
wenzelm@17967	267	in rew mode prover ss thm end;
wenzelm@17967	268
wenzelm@17967	269	in
wenzelm@17967	270
wenzelm@17967	271	val simp_thm = simp MetaSimplifier.rewrite_thm;
wenzelm@17967	272	val simp_cterm = simp MetaSimplifier.rewrite_cterm;
wenzelm@17967	273
wenzelm@17967	274	end;
wenzelm@17967	275
wenzelm@17967	276
wenzelm@16806	277	(* tactics *)
wenzelm@16806	278
wenzelm@16014	279	val simp_tac = generic_simp_tac false (false, false, false);
wenzelm@16014	280	val asm_simp_tac = generic_simp_tac false (false, true, false);
wenzelm@16014	281	val full_simp_tac = generic_simp_tac false (true, false, false);
wenzelm@16014	282	val asm_lr_simp_tac = generic_simp_tac false (true, true, false);
wenzelm@16014	283	val asm_full_simp_tac = generic_simp_tac false (true, true, true);
wenzelm@16014	284	val safe_asm_full_simp_tac = generic_simp_tac true (true, true, true);
wenzelm@16014	285
wenzelm@16014	286	(the abstraction over the proof state delays the dereferencing)
wenzelm@16014	287	fun Simp_tac i st = simp_tac (simpset ()) i st;
wenzelm@16014	288	fun Asm_simp_tac i st = asm_simp_tac (simpset ()) i st;
wenzelm@16014	289	fun Full_simp_tac i st = full_simp_tac (simpset ()) i st;
wenzelm@16014	290	fun Asm_lr_simp_tac i st = asm_lr_simp_tac (simpset ()) i st;
wenzelm@16014	291	fun Asm_full_simp_tac i st = asm_full_simp_tac (simpset ()) i st;
wenzelm@16014	292
wenzelm@16806	293
wenzelm@16806	294	(* conversions *)
wenzelm@16806	295
wenzelm@17967	296	val simplify = simp_thm (false, false, false);
wenzelm@17967	297	val asm_simplify = simp_thm (false, true, false);
wenzelm@17967	298	val full_simplify = simp_thm (true, false, false);
wenzelm@17967	299	val asm_lr_simplify = simp_thm (true, true, false);
wenzelm@17967	300	val asm_full_simplify = simp_thm (true, true, true);
wenzelm@16014	301
wenzelm@17967	302	val rewrite = simp_cterm (false, false, false);
wenzelm@17967	303	val asm_rewrite = simp_cterm (false, true, false);
wenzelm@17967	304	val full_rewrite = simp_cterm (true, false, false);
wenzelm@17967	305	val asm_lr_rewrite = simp_cterm (true, true, false);
wenzelm@17967	306	val asm_full_rewrite = simp_cterm (true, true, true);
wenzelm@16014	307
wenzelm@16014	308
wenzelm@16014	309
wenzelm@16014	310	( concrete syntax of attributes )
wenzelm@16014	311
wenzelm@16014	312	(* add / del *)
wenzelm@16014	313
wenzelm@16014	314	val simpN = "simp";
wenzelm@16014	315	val congN = "cong";
wenzelm@16014	316	val addN = "add";
wenzelm@16014	317	val delN = "del";
wenzelm@16014	318	val onlyN = "only";
wenzelm@16014	319	val no_asmN = "no_asm";
wenzelm@16014	320	val no_asm_useN = "no_asm_use";
wenzelm@16014	321	val no_asm_simpN = "no_asm_simp";
wenzelm@16014	322	val asm_lrN = "asm_lr";
wenzelm@16014	323
wenzelm@16014	324
wenzelm@24024	325	(* simprocs *)
wenzelm@24024	326
wenzelm@24024	327	local
wenzelm@24024	328
wenzelm@24024	329	val add_del =
wenzelm@24024	330	(Args.del -- Args.colon >> K (op delsimprocs) \|\|
wenzelm@24024	331	Scan.option (Args.add -- Args.colon) >> K (op addsimprocs))
wenzelm@24024	332	>> (fn f => fn simproc => fn phi => Thm.declaration_attribute
wenzelm@24024	333	(K (map_ss (fn ss => f (ss, [morph_simproc phi simproc])))));
wenzelm@24024	334
wenzelm@24024	335	in
wenzelm@24024	336
wenzelm@30530	337	val simproc_att =
wenzelm@30530	338	Scan.peek (fn context =>
wenzelm@24024	339	add_del :\|-- (fn decl =>
wenzelm@24024	340	Scan.repeat1 (Args.named_attribute (decl o get_simproc context))
wenzelm@30530	341	>> (Library.apply o map Morphism.form)));
wenzelm@24024	342
wenzelm@24024	343	end;
wenzelm@24124	344
wenzelm@24024	345
wenzelm@16014	346	(* conversions *)
wenzelm@16014	347
wenzelm@16014	348	local
wenzelm@16014	349
wenzelm@16014	350	fun conv_mode x =
wenzelm@16014	351	((Args.parens (Args.$$$ no_asmN) >> K simplify \|\|
wenzelm@16014	352	Args.parens (Args.$$$ no_asm_simpN) >> K asm_simplify \|\|
wenzelm@16014	353	Args.parens (Args.$$$ no_asm_useN) >> K full_simplify \|\|
wenzelm@16014	354	Scan.succeed asm_full_simplify) \|> Scan.lift) x;
wenzelm@16014	355
wenzelm@16014	356	in
wenzelm@16014	357
wenzelm@30530	358	val simplified = conv_mode -- Attrib.thms >>
wenzelm@30530	359	(fn (f, ths) => Thm.rule_attribute (fn context =>
wenzelm@27021	360	f ((if null ths then I else MetaSimplifier.clear_ss)
wenzelm@30530	361	(local_simpset_of (Context.proof_of context)) addsimps ths)));
wenzelm@16014	362
wenzelm@16014	363	end;
wenzelm@16014	364
wenzelm@16014	365
wenzelm@16014	366	(* setup attributes *)
wenzelm@16014	367
wenzelm@26463	368	val _ = Context.>> (Context.map_theory
wenzelm@30530	369	(Attrib.setup (Binding.name simpN) (Attrib.add_del simp_add simp_del)
wenzelm@30530	370	"declaration of Simplifier rewrite rule" #>
wenzelm@30530	371	Attrib.setup (Binding.name congN) (Attrib.add_del cong_add cong_del)
wenzelm@30530	372	"declaration of Simplifier congruence rule" #>
wenzelm@30530	373	Attrib.setup (Binding.name "simproc") simproc_att "declaration of simplification procedures" #>
wenzelm@30530	374	Attrib.setup (Binding.name "simplified") simplified "simplified rule"));
wenzelm@16014	375
wenzelm@16014	376
wenzelm@16014	377
wenzelm@16014	378	( proof methods )
wenzelm@16014	379
wenzelm@16014	380	(* simplification *)
wenzelm@16014	381
wenzelm@16014	382	val simp_options =
wenzelm@16014	383	(Args.parens (Args.$$$ no_asmN) >> K simp_tac \|\|
wenzelm@16014	384	Args.parens (Args.$$$ no_asm_simpN) >> K asm_simp_tac \|\|
wenzelm@16014	385	Args.parens (Args.$$$ no_asm_useN) >> K full_simp_tac \|\|
wenzelm@16014	386	Args.parens (Args.$$$ asm_lrN) >> K asm_lr_simp_tac \|\|
wenzelm@16014	387	Scan.succeed asm_full_simp_tac);
wenzelm@16014	388
wenzelm@16014	389	val cong_modifiers =
wenzelm@18728	390	[Args.$$$ congN -- Args.colon >> K ((I, cong_add): Method.modifier),
wenzelm@18728	391	Args.$$$ congN -- Args.add -- Args.colon >> K (I, cong_add),
wenzelm@18728	392	Args.$$$ congN -- Args.del -- Args.colon >> K (I, cong_del)];
wenzelm@16014	393
wenzelm@16014	394	val simp_modifiers =
wenzelm@18728	395	[Args.$$$ simpN -- Args.colon >> K (I, simp_add),
wenzelm@18728	396	Args.$$$ simpN -- Args.add -- Args.colon >> K (I, simp_add),
wenzelm@18728	397	Args.$$$ simpN -- Args.del -- Args.colon >> K (I, simp_del),
wenzelm@17883	398	Args.$$$ simpN -- Args.$$$ onlyN -- Args.colon
wenzelm@26497	399	>> K (Context.proof_map (map_ss MetaSimplifier.clear_ss), simp_add)]
wenzelm@16014	400	@ cong_modifiers;
wenzelm@16014	401
wenzelm@16014	402	val simp_modifiers' =
wenzelm@18728	403	[Args.add -- Args.colon >> K (I, simp_add),
wenzelm@18728	404	Args.del -- Args.colon >> K (I, simp_del),
wenzelm@18688	405	Args.$$$ onlyN -- Args.colon
wenzelm@26497	406	>> K (Context.proof_map (map_ss MetaSimplifier.clear_ss), simp_add)]
wenzelm@16014	407	@ cong_modifiers;
wenzelm@16014	408
wenzelm@16014	409	fun simp_args more_mods =
wenzelm@24124	410	Method.sectioned_args (Args.bang_facts -- Scan.lift simp_options)
wenzelm@16684	411	(more_mods @ simp_modifiers');
wenzelm@16014	412
wenzelm@30515	413	fun simp_method (prems, tac) ctxt = METHOD (fn facts =>
wenzelm@16684	414	ALLGOALS (Method.insert_tac (prems @ facts)) THEN
wenzelm@24124	415	(CHANGED_PROP o ALLGOALS o tac) (local_simpset_of ctxt));
wenzelm@16014	416
wenzelm@30515	417	fun simp_method' (prems, tac) ctxt = METHOD (fn facts =>
wenzelm@16014	418	HEADGOAL (Method.insert_tac (prems @ facts) THEN'
wenzelm@24124	419	((CHANGED_PROP) oo tac) (local_simpset_of ctxt)));
wenzelm@16014	420
wenzelm@16014	421
wenzelm@16014	422
wenzelm@18708	423	( setup )
wenzelm@18708	424
wenzelm@18708	425	fun method_setup more_mods = Method.add_methods
wenzelm@16014	426	[(simpN, simp_args more_mods simp_method', "simplification"),
wenzelm@16014	427	("simp_all", simp_args more_mods simp_method, "simplification (all goals)")];
wenzelm@16014	428
wenzelm@26497	429	fun easy_setup reflect trivs = method_setup [] #> Context.theory_map (map_ss (fn _ =>
wenzelm@16014	430	let
wenzelm@16014	431	val trivialities = Drule.reflexive_thm :: trivs;
wenzelm@16014	432
wenzelm@16014	433	fun unsafe_solver_tac prems = FIRST' [resolve_tac (trivialities @ prems), assume_tac];
wenzelm@16014	434	val unsafe_solver = mk_solver "easy unsafe" unsafe_solver_tac;
wenzelm@16014	435
wenzelm@16014	436	(no premature instantiation of variables during simplification)
wenzelm@16014	437	fun safe_solver_tac prems = FIRST' [match_tac (trivialities @ prems), eq_assume_tac];
wenzelm@16014	438	val safe_solver = mk_solver "easy safe" safe_solver_tac;
wenzelm@16014	439
wenzelm@16014	440	fun mk_eq thm =
wenzelm@20872	441	if can Logic.dest_equals (Thm.concl_of thm) then [thm]
wenzelm@16014	442	else [thm RS reflect] handle THM _ => [];
wenzelm@16014	443
wenzelm@26653	444	fun mksimps thm = mk_eq (Thm.forall_elim_vars (#maxidx (Thm.rep_thm thm) + 1) thm);
wenzelm@26497	445	in
wenzelm@26497	446	empty_ss setsubgoaler asm_simp_tac
wenzelm@26497	447	setSSolver safe_solver
wenzelm@26497	448	setSolver unsafe_solver
wenzelm@26497	449	setmksimps mksimps
wenzelm@26497	450	end));
wenzelm@16014	451
wenzelm@16014	452	end;
wenzelm@16014	453
wenzelm@16014	454	structure BasicSimplifier: BASIC_SIMPLIFIER = Simplifier;
wenzelm@16014	455	open BasicSimplifier;

author	wenzelm
	Sun, 15 Mar 2009 15:59:44 +0100
changeset 30530	7173bf123335
parent 30518	1796b8ea88aa
child 30609	983e8b6e4e69
permissions	-rw-r--r--