wneuper/isa: src/Pure/Isar/method.ML@ae7564661e76 (annotated)

wenzelm@5824	1	(* Title: Pure/Isar/method.ML
wenzelm@5824	2	ID: $Id$
wenzelm@5824	3	Author: Markus Wenzel, TU Muenchen
wenzelm@5824	4
wenzelm@17110	5	Isar proof methods.
wenzelm@5824	6	*)
wenzelm@5824	7
wenzelm@5824	8	signature BASIC_METHOD =
wenzelm@5824	9	sig
wenzelm@17110	10	val FINDGOAL: (int -> thm -> 'a Seq.seq) -> thm -> 'a Seq.seq
wenzelm@17110	11	val HEADGOAL: (int -> thm -> 'a Seq.seq) -> thm -> 'a Seq.seq
wenzelm@17110	12	type method
wenzelm@11731	13	val trace_rules: bool ref
wenzelm@5824	14	val print_methods: theory -> unit
wenzelm@5824	15	end;
wenzelm@5824	16
wenzelm@5824	17	signature METHOD =
wenzelm@5824	18	sig
wenzelm@5824	19	include BASIC_METHOD
wenzelm@25957	20	val apply: Position.T -> (Proof.context -> method) -> Proof.context -> thm list -> cases_tactic
wenzelm@18227	21	val RAW_METHOD_CASES: (thm list -> cases_tactic) -> method
wenzelm@17110	22	val RAW_METHOD: (thm list -> tactic) -> method
wenzelm@18227	23	val METHOD_CASES: (thm list -> cases_tactic) -> method
wenzelm@17110	24	val METHOD: (thm list -> tactic) -> method
wenzelm@17110	25	val fail: method
wenzelm@17110	26	val succeed: method
wenzelm@17110	27	val insert_tac: thm list -> int -> tactic
wenzelm@17110	28	val insert: thm list -> method
wenzelm@17110	29	val insert_facts: method
wenzelm@17110	30	val SIMPLE_METHOD: tactic -> method
wenzelm@21592	31	val SIMPLE_METHOD': (int -> tactic) -> method
wenzelm@21592	32	val SIMPLE_METHOD'': ((int -> tactic) -> tactic) -> (int -> tactic) -> method
wenzelm@17110	33	val defer: int option -> method
wenzelm@17110	34	val prefer: int -> method
wenzelm@20289	35	val cheating: bool -> Proof.context -> method
wenzelm@17110	36	val intro: thm list -> method
wenzelm@17110	37	val elim: thm list -> method
wenzelm@20289	38	val unfold: thm list -> Proof.context -> method
wenzelm@20289	39	val fold: thm list -> Proof.context -> method
wenzelm@17110	40	val atomize: bool -> method
wenzelm@17110	41	val this: method
wenzelm@20289	42	val fact: thm list -> Proof.context -> method
wenzelm@20289	43	val assumption: Proof.context -> method
wenzelm@20289	44	val close: bool -> Proof.context -> method
wenzelm@20289	45	val trace: Proof.context -> thm list -> unit
wenzelm@6091	46	val rule_tac: thm list -> thm list -> int -> tactic
wenzelm@20289	47	val some_rule_tac: thm list -> Proof.context -> thm list -> int -> tactic
haftmann@25270	48	val intros_tac: thm list -> thm list -> tactic
wenzelm@17110	49	val rule: thm list -> method
wenzelm@17110	50	val erule: int -> thm list -> method
wenzelm@17110	51	val drule: int -> thm list -> method
wenzelm@17110	52	val frule: int -> thm list -> method
wenzelm@20289	53	val iprover_tac: Proof.context -> int option -> int -> tactic
wenzelm@20289	54	val set_tactic: (Proof.context -> thm list -> tactic) -> unit
wenzelm@26385	55	val tactic: string * Position.T -> Proof.context -> method
wenzelm@17110	56	type src
wenzelm@5824	57	datatype text =
wenzelm@23349	58	Basic of (Proof.context -> method) * Position.T \|
wenzelm@15703	59	Source of src \|
wenzelm@20030	60	Source_i of src \|
wenzelm@5824	61	Then of text list \|
wenzelm@5824	62	Orelse of text list \|
wenzelm@5824	63	Try of text \|
wenzelm@19186	64	Repeat1 of text \|
wenzelm@19186	65	SelectGoals of int * text
wenzelm@17857	66	val primitive_text: (thm -> thm) -> text
wenzelm@17857	67	val succeed_text: text
wenzelm@17110	68	val default_text: text
wenzelm@17110	69	val this_text: text
wenzelm@17110	70	val done_text: text
wenzelm@17356	71	val sorry_text: bool -> text
wenzelm@23349	72	val finish_text: text option * bool -> Position.T -> text
wenzelm@20289	73	val method: theory -> src -> Proof.context -> method
wenzelm@20289	74	val method_i: theory -> src -> Proof.context -> method
wenzelm@20289	75	val add_methods: (bstring * (src -> Proof.context -> method) * string) list
wenzelm@17110	76	-> theory -> theory
wenzelm@20289	77	val add_method: bstring * (src -> Proof.context -> method) * string
wenzelm@17110	78	-> theory -> theory
wenzelm@26385	79	val method_setup: bstring -> string * Position.T -> string -> theory -> theory
wenzelm@18999	80	val syntax: (Context.generic * Args.T list -> 'a * (Context.generic * Args.T list))
haftmann@21879	81	-> src -> Proof.context -> 'a * Proof.context
wenzelm@17110	82	val simple_args: (Args.T list -> 'a * Args.T list)
wenzelm@20289	83	-> ('a -> Proof.context -> method) -> src -> Proof.context -> method
wenzelm@20289	84	val ctxt_args: (Proof.context -> method) -> src -> Proof.context -> method
wenzelm@20289	85	val no_args: method -> src -> Proof.context -> method
wenzelm@17110	86	type modifier
wenzelm@18999	87	val sectioned_args: (Context.generic * Args.T list -> 'a * (Context.generic * Args.T list)) ->
wenzelm@17110	88	(Args.T list -> modifier * Args.T list) list ->
wenzelm@20289	89	('a -> Proof.context -> 'b) -> src -> Proof.context -> 'b
wenzelm@17110	90	val bang_sectioned_args:
wenzelm@17110	91	(Args.T list -> modifier * Args.T list) list ->
wenzelm@20289	92	(thm list -> Proof.context -> 'a) -> src -> Proof.context -> 'a
wenzelm@17110	93	val bang_sectioned_args':
wenzelm@17110	94	(Args.T list -> modifier * Args.T list) list ->
wenzelm@18999	95	(Context.generic * Args.T list -> 'a * (Context.generic * Args.T list)) ->
wenzelm@20289	96	('a -> thm list -> Proof.context -> 'b) -> src -> Proof.context -> 'b
wenzelm@17110	97	val only_sectioned_args:
wenzelm@17110	98	(Args.T list -> modifier * Args.T list) list ->
wenzelm@20289	99	(Proof.context -> 'a) -> src -> Proof.context -> 'a
wenzelm@20289	100	val thms_ctxt_args: (thm list -> Proof.context -> 'a) -> src ->
wenzelm@20289	101	Proof.context -> 'a
wenzelm@20289	102	val thms_args: (thm list -> 'a) -> src -> Proof.context -> 'a
wenzelm@20289	103	val thm_args: (thm -> 'a) -> src -> Proof.context -> 'a
wenzelm@9539	104	val goal_args: (Args.T list -> 'a * Args.T list) -> ('a -> int -> tactic)
wenzelm@20289	105	-> src -> Proof.context -> method
wenzelm@18999	106	val goal_args': (Context.generic * Args.T list -> 'a * (Context.generic * Args.T list))
wenzelm@20289	107	-> ('a -> int -> tactic) -> src -> Proof.context -> method
wenzelm@17110	108	val goal_args_ctxt: (Args.T list -> 'a * Args.T list) ->
wenzelm@20289	109	(Proof.context -> 'a -> int -> tactic) -> src -> Proof.context -> method
wenzelm@18999	110	val goal_args_ctxt': (Context.generic * Args.T list -> 'a * (Context.generic * Args.T list)) ->
wenzelm@20289	111	(Proof.context -> 'a -> int -> tactic) -> src -> Proof.context -> method
wenzelm@22118	112	val parse: OuterLex.token list -> text * OuterLex.token list
wenzelm@5824	113	end;
wenzelm@5824	114
wenzelm@5824	115	structure Method: METHOD =
wenzelm@5824	116	struct
wenzelm@5824	117
wenzelm@17110	118	( generic tools )
wenzelm@17110	119
wenzelm@17110	120	(* goal addressing *)
wenzelm@17110	121
wenzelm@17110	122	fun FINDGOAL tac st =
wenzelm@17110	123	let fun find i n = if i > n then Seq.fail else Seq.APPEND (tac i, find (i + 1) n)
wenzelm@17110	124	in find 1 (Thm.nprems_of st) st end;
wenzelm@17110	125
wenzelm@17110	126	fun HEADGOAL tac = tac 1;
wenzelm@17110	127
wenzelm@17110	128
wenzelm@5824	129
wenzelm@12324	130	( proof methods )
wenzelm@12324	131
wenzelm@17110	132	(* datatype method *)
wenzelm@11731	133
wenzelm@18227	134	datatype method = Meth of thm list -> cases_tactic;
wenzelm@11731	135
wenzelm@25957	136	fun apply pos meth_fun ctxt facts goal = Position.setmp_thread_data_seq pos
wenzelm@25957	137	(fn () => let val Meth meth = meth_fun ctxt in meth facts goal end) ();
wenzelm@11731	138
wenzelm@17756	139	val RAW_METHOD_CASES = Meth;
wenzelm@11731	140
wenzelm@17110	141	fun RAW_METHOD tac = RAW_METHOD_CASES (NO_CASES o tac);
wenzelm@5824	142
wenzelm@17110	143	fun METHOD_CASES tac = RAW_METHOD_CASES (fn facts =>
wenzelm@21687	144	Seq.THEN (ALLGOALS Goal.conjunction_tac, tac facts));
wenzelm@12144	145
wenzelm@21687	146	fun METHOD tac = RAW_METHOD (fn facts => ALLGOALS Goal.conjunction_tac THEN tac facts);
wenzelm@5824	147
wenzelm@5824	148	val fail = METHOD (K no_tac);
wenzelm@5824	149	val succeed = METHOD (K all_tac);
wenzelm@5824	150
wenzelm@5824	151
wenzelm@17110	152	(* insert facts *)
wenzelm@7419	153
wenzelm@7419	154	local
wenzelm@5824	155
wenzelm@21579	156	fun cut_rule_tac rule =
wenzelm@21579	157	Tactic.rtac (Drule.forall_intr_vars rule COMP_INCR revcut_rl);
wenzelm@6981	158
wenzelm@7419	159	in
wenzelm@5824	160
wenzelm@7419	161	fun insert_tac [] i = all_tac
wenzelm@7419	162	\| insert_tac facts i = EVERY (map (fn th => cut_rule_tac th i) facts);
wenzelm@5824	163
wenzelm@7555	164	val insert_facts = METHOD (ALLGOALS o insert_tac);
wenzelm@7664	165	fun insert thms = METHOD (fn _ => ALLGOALS (insert_tac thms));
wenzelm@6981	166
wenzelm@9706	167	fun SIMPLE_METHOD tac = METHOD (fn facts => ALLGOALS (insert_tac facts) THEN tac);
wenzelm@21592	168	fun SIMPLE_METHOD'' quant tac = METHOD (fn facts => quant (insert_tac facts THEN' tac));
wenzelm@21592	169	val SIMPLE_METHOD' = SIMPLE_METHOD'' HEADGOAL;
wenzelm@9706	170
wenzelm@12324	171	end;
wenzelm@12324	172
wenzelm@9706	173
wenzelm@17110	174	(* shuffle subgoals *)
wenzelm@17110	175
wenzelm@17110	176	fun prefer i = METHOD (K (Tactic.defer_tac i THEN PRIMITIVE (Thm.permute_prems 0 ~1)));
wenzelm@18939	177	fun defer opt_i = METHOD (K (Tactic.defer_tac (the_default 1 opt_i)));
wenzelm@17110	178
wenzelm@17110	179
wenzelm@17356	180	(* cheating *)
wenzelm@17356	181
wenzelm@17356	182	fun cheating int ctxt = METHOD (K (setmp quick_and_dirty (int orelse ! quick_and_dirty)
wenzelm@17356	183	(SkipProof.cheat_tac (ProofContext.theory_of ctxt))));
wenzelm@17356	184
wenzelm@17356	185
wenzelm@17110	186	(* unfold intro/elim rules *)
wenzelm@17110	187
wenzelm@21592	188	fun intro ths = SIMPLE_METHOD' (CHANGED_PROP o REPEAT_ALL_NEW (Tactic.match_tac ths));
wenzelm@21592	189	fun elim ths = SIMPLE_METHOD' (CHANGED_PROP o REPEAT_ALL_NEW (Tactic.ematch_tac ths));
wenzelm@17110	190
wenzelm@17110	191
wenzelm@12384	192	(* unfold/fold definitions *)
wenzelm@6532	193
wenzelm@18877	194	fun unfold_meth ths ctxt = SIMPLE_METHOD (CHANGED_PROP (LocalDefs.unfold_tac ctxt ths));
wenzelm@18877	195	fun fold_meth ths ctxt = SIMPLE_METHOD (CHANGED_PROP (LocalDefs.fold_tac ctxt ths));
wenzelm@12384	196
wenzelm@12384	197
wenzelm@12829	198	(* atomize rule statements *)
wenzelm@12829	199
wenzelm@23590	200	fun atomize false = SIMPLE_METHOD' (CHANGED_PROP o ObjectLogic.atomize_prems_tac)
wenzelm@12829	201	\| atomize true = RAW_METHOD (K (HEADGOAL (CHANGED_PROP o ObjectLogic.full_atomize_tac)));
wenzelm@12829	202
wenzelm@12829	203
wenzelm@18039	204	(* this -- resolve facts directly *)
wenzelm@12384	205
wenzelm@17110	206	val this = METHOD (EVERY o map (HEADGOAL o Tactic.rtac));
wenzelm@9484	207
wenzelm@9484	208
wenzelm@18039	209	(* fact -- composition by facts from context *)
wenzelm@18039	210
wenzelm@21592	211	fun fact [] ctxt = SIMPLE_METHOD' (ProofContext.some_fact_tac ctxt)
wenzelm@21592	212	\| fact rules _ = SIMPLE_METHOD' (ProofContext.fact_tac rules);
wenzelm@18039	213
wenzelm@18039	214
wenzelm@17110	215	(* assumption *)
wenzelm@7419	216
wenzelm@7419	217	local
wenzelm@7419	218
wenzelm@19778	219	fun cond_rtac cond rule = SUBGOAL (fn (prop, i) =>
wenzelm@19778	220	if cond (Logic.strip_assums_concl prop)
wenzelm@19778	221	then Tactic.rtac rule i else no_tac);
wenzelm@17110	222
wenzelm@25957	223	fun legacy_tac st =
wenzelm@25957	224	(legacy_feature
wenzelm@26291	225	("Implicit use of prems in assumption proof" ^ Position.str_of (Position.thread_data ()));
wenzelm@23395	226	all_tac st);
wenzelm@23395	227
wenzelm@23395	228	fun assm_tac ctxt =
wenzelm@17110	229	assume_tac APPEND'
wenzelm@23349	230	Goal.assume_rule_tac ctxt APPEND'
wenzelm@25957	231	(CHANGED o solve_tac (Assumption.prems_of ctxt) THEN' K legacy_tac) APPEND'
wenzelm@19778	232	cond_rtac (can Logic.dest_equals) Drule.reflexive_thm APPEND'
wenzelm@19778	233	cond_rtac (can Logic.dest_term) Drule.termI;
wenzelm@17110	234
wenzelm@7419	235	in
wenzelm@7419	236
wenzelm@23349	237	fun assumption ctxt = METHOD (HEADGOAL o
wenzelm@23395	238	(fn [] => assm_tac ctxt
wenzelm@23349	239	\| [fact] => solve_tac [fact]
wenzelm@23349	240	\| _ => K no_tac));
wenzelm@23349	241
wenzelm@17356	242	fun close immed ctxt = METHOD (K
wenzelm@23349	243	(FILTER Thm.no_prems
wenzelm@23395	244	((if immed then ALLGOALS (assm_tac ctxt) else all_tac) THEN flexflex_tac)));
wenzelm@7419	245
wenzelm@7419	246	end;
wenzelm@7419	247
wenzelm@7419	248
wenzelm@17110	249	(* rule etc. -- single-step refinements *)
wenzelm@8335	250
wenzelm@17110	251	val trace_rules = ref false;
wenzelm@5824	252
wenzelm@17110	253	fun trace ctxt rules =
wenzelm@21962	254	if ! trace_rules andalso not (null rules) then
wenzelm@17110	255	Pretty.big_list "rules:" (map (ProofContext.pretty_thm ctxt) rules)
wenzelm@21962	256	\|> Pretty.string_of \|> tracing
wenzelm@21962	257	else ();
wenzelm@12347	258
wenzelm@12347	259	local
wenzelm@12347	260
wenzelm@18841	261	fun gen_rule_tac tac rules facts =
wenzelm@18841	262	(fn i => fn st =>
wenzelm@18841	263	if null facts then tac rules i st
wenzelm@18841	264	else Seq.maps (fn rule => (tac o single) rule i st) (Drule.multi_resolves facts rules))
wenzelm@21687	265	THEN_ALL_NEW Goal.norm_hhf_tac;
wenzelm@7130	266
wenzelm@10744	267	fun gen_arule_tac tac j rules facts =
wenzelm@10744	268	EVERY' (gen_rule_tac tac rules facts :: replicate j Tactic.assume_tac);
wenzelm@10744	269
wenzelm@11785	270	fun gen_some_rule_tac tac arg_rules ctxt facts = SUBGOAL (fn (goal, i) =>
wenzelm@11785	271	let
wenzelm@11785	272	val rules =
wenzelm@11785	273	if not (null arg_rules) then arg_rules
wenzelm@19482	274	else flat (ContextRules.find_rules false facts goal ctxt)
wenzelm@12055	275	in trace ctxt rules; tac rules facts i end);
wenzelm@10309	276
wenzelm@10744	277	fun meth tac x = METHOD (HEADGOAL o tac x);
wenzelm@10744	278	fun meth' tac x y = METHOD (HEADGOAL o tac x y);
wenzelm@8220	279
wenzelm@7419	280	in
wenzelm@7419	281
wenzelm@10744	282	val rule_tac = gen_rule_tac Tactic.resolve_tac;
wenzelm@10744	283	val rule = meth rule_tac;
wenzelm@10744	284	val some_rule_tac = gen_some_rule_tac rule_tac;
wenzelm@10744	285	val some_rule = meth' some_rule_tac;
wenzelm@10744	286
wenzelm@10744	287	val erule = meth' (gen_arule_tac Tactic.eresolve_tac);
wenzelm@10744	288	val drule = meth' (gen_arule_tac Tactic.dresolve_tac);
wenzelm@10744	289	val frule = meth' (gen_arule_tac Tactic.forward_tac);
wenzelm@5824	290
wenzelm@7419	291	end;
wenzelm@7419	292
wenzelm@7419	293
haftmann@25270	294	(* intros_tac -- pervasive search spanned by intro rules *)
haftmann@25270	295
haftmann@25270	296	fun intros_tac intros facts =
haftmann@25270	297	ALLGOALS (insert_tac facts THEN'
haftmann@25270	298	REPEAT_ALL_NEW (resolve_tac intros))
haftmann@25270	299	THEN Tactic.distinct_subgoals_tac;
haftmann@25270	300
haftmann@25270	301
nipkow@17587	302	(* iprover -- intuitionistic proof search *)
wenzelm@8195	303
wenzelm@17110	304	local
wenzelm@8195	305
wenzelm@17110	306	val remdups_tac = SUBGOAL (fn (g, i) =>
wenzelm@17110	307	let val prems = Logic.strip_assums_hyp g in
wenzelm@19046	308	REPEAT_DETERM_N (length prems - length (distinct op aconv prems))
wenzelm@17110	309	(Tactic.ematch_tac [Drule.remdups_rl] i THEN Tactic.eq_assume_tac i)
wenzelm@17110	310	end);
wenzelm@8195	311
wenzelm@17110	312	fun REMDUPS tac = tac THEN_ALL_NEW remdups_tac;
wenzelm@7419	313
wenzelm@17110	314	val bires_tac = Tactic.biresolution_from_nets_tac ContextRules.orderlist;
wenzelm@16500	315
wenzelm@17110	316	fun safe_step_tac ctxt =
wenzelm@17110	317	ContextRules.Swrap ctxt
wenzelm@17110	318	(eq_assume_tac ORELSE'
wenzelm@17110	319	bires_tac true (ContextRules.netpair_bang ctxt));
wenzelm@7419	320
wenzelm@17110	321	fun unsafe_step_tac ctxt =
wenzelm@17110	322	ContextRules.wrap ctxt
wenzelm@17110	323	(assume_tac APPEND'
wenzelm@17110	324	bires_tac false (ContextRules.netpair_bang ctxt) APPEND'
wenzelm@17110	325	bires_tac false (ContextRules.netpair ctxt));
wenzelm@7555	326
wenzelm@17110	327	fun step_tac ctxt i =
wenzelm@17110	328	REPEAT_DETERM1 (REMDUPS (safe_step_tac ctxt) i) ORELSE
wenzelm@17110	329	REMDUPS (unsafe_step_tac ctxt) i;
wenzelm@7419	330
wenzelm@17110	331	fun intprover_tac ctxt gs d lim = SUBGOAL (fn (g, i) => if d > lim then no_tac else
wenzelm@17110	332	let
wenzelm@17110	333	val ps = Logic.strip_assums_hyp g;
wenzelm@17110	334	val c = Logic.strip_assums_concl g;
wenzelm@17110	335	in
wenzelm@18921	336	if member (fn ((ps1, c1), (ps2, c2)) =>
wenzelm@19307	337	c1 aconv c2 andalso
wenzelm@19307	338	length ps1 = length ps2 andalso
wenzelm@19307	339	gen_eq_set (op aconv) (ps1, ps2)) gs (ps, c) then no_tac
wenzelm@17110	340	else (step_tac ctxt THEN_ALL_NEW intprover_tac ctxt ((ps, c) :: gs) (d + 1) lim) i
wenzelm@17110	341	end);
wenzelm@7419	342
wenzelm@17110	343	in
wenzelm@8238	344
nipkow@17587	345	fun iprover_tac ctxt opt_lim =
wenzelm@18939	346	SELECT_GOAL (DEEPEN (2, the_default 20 opt_lim) (intprover_tac ctxt [] 0) 4 1);
wenzelm@17110	347
wenzelm@17110	348	end;
wenzelm@17110	349
wenzelm@17110	350
wenzelm@8351	351	(* ML tactics *)
wenzelm@8351	352
wenzelm@20289	353	val tactic_ref = ref ((fn _ => raise Match): Proof.context -> thm list -> tactic);
wenzelm@8351	354	fun set_tactic f = tactic_ref := f;
wenzelm@8351	355
wenzelm@26385	356	fun ml_tactic (txt, pos) ctxt = NAMED_CRITICAL "ML" (fn () =>
wenzelm@26385	357	(ML_Context.use_mltext false pos
wenzelm@23425	358	("let fun tactic (ctxt: Proof.context) (facts: thm list) : tactic =\n"
wenzelm@26385	359	^ txt ^ "\nin Method.set_tactic tactic end") (SOME (Context.Proof ctxt));
wenzelm@23922	360	ML_Context.setmp (SOME (Context.Proof ctxt)) (! tactic_ref ctxt)));
wenzelm@23425	361
wenzelm@23425	362	fun tactic txt ctxt = METHOD (ml_tactic txt ctxt);
wenzelm@23425	363	fun raw_tactic txt ctxt = RAW_METHOD (ml_tactic txt ctxt);
wenzelm@8351	364
wenzelm@8351	365
wenzelm@5824	366
wenzelm@17110	367	( method syntax )
wenzelm@5824	368
wenzelm@17110	369	(* method text *)
wenzelm@17110	370
wenzelm@17110	371	type src = Args.src;
wenzelm@17110	372
wenzelm@17110	373	datatype text =
wenzelm@23349	374	Basic of (Proof.context -> method) * Position.T \|
wenzelm@17110	375	Source of src \|
wenzelm@20030	376	Source_i of src \|
wenzelm@17110	377	Then of text list \|
wenzelm@17110	378	Orelse of text list \|
wenzelm@17110	379	Try of text \|
wenzelm@19186	380	Repeat1 of text \|
wenzelm@19186	381	SelectGoals of int * text;
wenzelm@17110	382
wenzelm@23349	383	fun primitive_text r = Basic (K (SIMPLE_METHOD (PRIMITIVE r)), Position.none);
wenzelm@23349	384	val succeed_text = Basic (K succeed, Position.none);
wenzelm@17110	385	val default_text = Source (Args.src (("default", []), Position.none));
wenzelm@23349	386	val this_text = Basic (K this, Position.none);
wenzelm@23349	387	val done_text = Basic (K (SIMPLE_METHOD all_tac), Position.none);
wenzelm@23349	388	fun sorry_text int = Basic (cheating int, Position.none);
wenzelm@17110	389
wenzelm@23349	390	fun finish_text (NONE, immed) pos = Basic (close immed, pos)
wenzelm@23349	391	\| finish_text (SOME txt, immed) pos = Then [txt, Basic (close immed, pos)];
wenzelm@17110	392
wenzelm@17110	393
wenzelm@17110	394	(* method definitions *)
wenzelm@5824	395
wenzelm@24116	396	structure Methods = TheoryDataFun
wenzelm@22846	397	(
wenzelm@20289	398	type T = (((src -> Proof.context -> method) * string) * stamp) NameSpace.table;
wenzelm@16347	399	val empty = NameSpace.empty_table;
wenzelm@6546	400	val copy = I;
wenzelm@16448	401	val extend = I;
wenzelm@23655	402	fun merge _ tables : T = NameSpace.merge_tables (eq_snd (op =)) tables handle Symtab.DUP dup =>
wenzelm@23655	403	error ("Attempt to merge different versions of method " ^ quote dup);
wenzelm@22846	404	);
wenzelm@5824	405
wenzelm@22846	406	fun print_methods thy =
wenzelm@22846	407	let
wenzelm@24116	408	val meths = Methods.get thy;
wenzelm@22846	409	fun prt_meth (name, ((_, comment), _)) = Pretty.block
wenzelm@22846	410	[Pretty.str (name ^ ":"), Pretty.brk 2, Pretty.str comment];
wenzelm@22846	411	in
wenzelm@22846	412	[Pretty.big_list "methods:" (map prt_meth (NameSpace.extern_table meths))]
wenzelm@22846	413	\|> Pretty.chunks \|> Pretty.writeln
wenzelm@22846	414	end;
wenzelm@7611	415
wenzelm@5824	416
wenzelm@5824	417	(* get methods *)
wenzelm@5824	418
wenzelm@20030	419	fun method_i thy =
wenzelm@5824	420	let
wenzelm@24116	421	val meths = #2 (Methods.get thy);
wenzelm@5884	422	fun meth src =
wenzelm@20030	423	let val ((name, _), pos) = Args.dest_src src in
wenzelm@17412	424	(case Symtab.lookup meths name of
skalberg@15531	425	NONE => error ("Unknown proof method: " ^ quote name ^ Position.str_of pos)
wenzelm@23937	426	\| SOME ((mth, _), _) => mth src)
wenzelm@5824	427	end;
wenzelm@5824	428	in meth end;
wenzelm@5824	429
wenzelm@24116	430	fun method thy = method_i thy o Args.map_name (NameSpace.intern (#1 (Methods.get thy)));
wenzelm@20030	431
wenzelm@5824	432
wenzelm@17110	433	(* add method *)
wenzelm@5824	434
wenzelm@5824	435	fun add_methods raw_meths thy =
wenzelm@5824	436	let
wenzelm@16145	437	val new_meths = raw_meths \|> map (fn (name, f, comment) =>
wenzelm@16347	438	(name, ((f, comment), stamp ())));
wenzelm@5824	439
haftmann@23086	440	fun add meths = NameSpace.extend_table (Sign.naming_of thy) new_meths meths
wenzelm@23655	441	handle Symtab.DUP dup => error ("Duplicate declaration of method " ^ quote dup);
wenzelm@24116	442	in Methods.map add thy end;
wenzelm@5824	443
wenzelm@9194	444	val add_method = add_methods o Library.single;
wenzelm@9194	445
wenzelm@5824	446
wenzelm@17356	447	(* method_setup *)
wenzelm@17356	448
wenzelm@26385	449	fun method_setup name (txt, pos) cmt =
wenzelm@26385	450	ML_Context.use_let pos
wenzelm@22118	451	"val method: bstring * (Method.src -> Proof.context -> Proof.method) * string"
wenzelm@22086	452	"Context.map_theory (Method.add_method method)"
wenzelm@22086	453	("(" ^ quote name ^ ", " ^ txt ^ ", " ^ quote cmt ^ ")")
wenzelm@22086	454	\|> Context.theory_map;
wenzelm@17356	455
wenzelm@17356	456
wenzelm@5824	457
wenzelm@17110	458	( concrete syntax )
wenzelm@5824	459
wenzelm@5884	460	(* basic *)
wenzelm@5824	461
wenzelm@18999	462	fun syntax scan = Args.context_syntax "method" scan;
wenzelm@5824	463
wenzelm@17110	464	fun simple_args scan f src ctxt : method =
haftmann@21879	465	fst (syntax (Scan.lift (scan >> (fn x => f x ctxt))) src ctxt);
wenzelm@8351	466
wenzelm@20289	467	fun ctxt_args (f: Proof.context -> method) src ctxt =
haftmann@21879	468	fst (syntax (Scan.succeed (f ctxt)) src ctxt);
wenzelm@7555	469
wenzelm@7555	470	fun no_args m = ctxt_args (K m);
wenzelm@5824	471
wenzelm@5884	472
wenzelm@5884	473	(* sections *)
wenzelm@5884	474
wenzelm@20289	475	type modifier = (Proof.context -> Proof.context) * attribute;
wenzelm@7268	476
wenzelm@7268	477	local
wenzelm@7268	478
wenzelm@24010	479	fun thms ss = Scan.repeat (Scan.unless (Scan.lift (Scan.first ss)) Attrib.multi_thm) >> flat;
wenzelm@19186	480	fun app (f, att) (context, ths) = foldl_map att (Context.map_proof f context, ths);
wenzelm@5884	481
wenzelm@24022	482	fun section ss = Scan.depend (fn context => (Scan.first ss -- Scan.pass context (thms ss)) :\|--
wenzelm@24022	483	(fn (m, ths) => Scan.succeed (app m (context, ths))));
wenzelm@5884	484
wenzelm@7601	485	fun sectioned args ss = args -- Scan.repeat (section ss);
wenzelm@5884	486
wenzelm@7268	487	in
wenzelm@5884	488
wenzelm@5884	489	fun sectioned_args args ss f src ctxt =
haftmann@21879	490	let val ((x, _), ctxt') = syntax (sectioned args ss) src ctxt
wenzelm@5921	491	in f x ctxt' end;
wenzelm@5884	492
wenzelm@7601	493	fun bang_sectioned_args ss f = sectioned_args Args.bang_facts ss f;
wenzelm@9777	494	fun bang_sectioned_args' ss scan f =
wenzelm@9777	495	sectioned_args (Args.bang_facts -- scan >> swap) ss (uncurry f);
wenzelm@7601	496	fun only_sectioned_args ss f = sectioned_args (Scan.succeed ()) ss (fn () => f);
wenzelm@7268	497
wenzelm@18999	498	fun thms_ctxt_args f = sectioned_args (thms []) [] f;
wenzelm@8093	499	fun thms_args f = thms_ctxt_args (K o f);
wenzelm@9706	500	fun thm_args f = thms_args (fn [thm] => f thm \| _ => error "Single theorem expected");
wenzelm@5824	501
wenzelm@7268	502	end;
wenzelm@7268	503
wenzelm@5824	504
nipkow@17587	505	(* iprover syntax *)
wenzelm@12347	506
wenzelm@12347	507	local
wenzelm@12347	508
wenzelm@12347	509	val introN = "intro";
wenzelm@12347	510	val elimN = "elim";
wenzelm@12347	511	val destN = "dest";
wenzelm@12347	512	val ruleN = "rule";
wenzelm@12347	513
wenzelm@12347	514	fun modifier name kind kind' att =
skalberg@15531	515	Args.$$$ name \|-- (kind >> K NONE \|\| kind' \|-- Args.nat --\| Args.colon >> SOME)
wenzelm@20289	516	>> (pair (I: Proof.context -> Proof.context) o att);
wenzelm@12347	517
nipkow@17587	518	val iprover_modifiers =
wenzelm@18728	519	[modifier destN Args.bang_colon Args.bang ContextRules.dest_bang,
wenzelm@18728	520	modifier destN Args.colon (Scan.succeed ()) ContextRules.dest,
wenzelm@18728	521	modifier elimN Args.bang_colon Args.bang ContextRules.elim_bang,
wenzelm@18728	522	modifier elimN Args.colon (Scan.succeed ()) ContextRules.elim,
wenzelm@18728	523	modifier introN Args.bang_colon Args.bang ContextRules.intro_bang,
wenzelm@18728	524	modifier introN Args.colon (Scan.succeed ()) ContextRules.intro,
wenzelm@18728	525	Args.del -- Args.colon >> K (I, ContextRules.rule_del)];
wenzelm@12347	526
wenzelm@12347	527	in
wenzelm@12347	528
wenzelm@18640	529	val iprover_meth =
wenzelm@18640	530	bang_sectioned_args' iprover_modifiers (Scan.lift (Scan.option Args.nat))
wenzelm@18640	531	(fn n => fn prems => fn ctxt => METHOD (fn facts =>
wenzelm@18640	532	HEADGOAL (insert_tac (prems @ facts) THEN'
wenzelm@23590	533	ObjectLogic.atomize_prems_tac THEN' iprover_tac ctxt n)));
wenzelm@12347	534
wenzelm@12347	535	end;
wenzelm@12347	536
wenzelm@12347	537
wenzelm@9539	538	(* tactic syntax *)
wenzelm@8238	539
wenzelm@10744	540	fun nat_thms_args f = uncurry f oo
haftmann@21879	541	(fst oo syntax (Scan.lift (Scan.optional (Args.parens Args.nat) 0) -- Attrib.thms));
wenzelm@10744	542
haftmann@21879	543	fun goal_args' args tac src ctxt = fst (syntax (Args.goal_spec HEADGOAL -- args >>
wenzelm@21592	544	(fn (quant, s) => SIMPLE_METHOD'' quant (tac s))) src ctxt);
wenzelm@8537	545
wenzelm@9539	546	fun goal_args args tac = goal_args' (Scan.lift args) tac;
wenzelm@8238	547
ballarin@14174	548	fun goal_args_ctxt' args tac src ctxt =
haftmann@21879	549	fst (syntax (Args.goal_spec HEADGOAL -- args >>
wenzelm@21592	550	(fn (quant, s) => SIMPLE_METHOD'' quant (tac ctxt s))) src ctxt);
wenzelm@8238	551
ballarin@14174	552	fun goal_args_ctxt args tac = goal_args_ctxt' (Scan.lift args) tac;
wenzelm@5824	553
wenzelm@14718	554
wenzelm@18708	555	(* theory setup *)
wenzelm@5824	556
wenzelm@18708	557	val _ = Context.add_setup (add_methods
wenzelm@5824	558	[("fail", no_args fail, "force failure"),
wenzelm@5824	559	("succeed", no_args succeed, "succeed"),
wenzelm@9587	560	("-", no_args insert_facts, "do nothing (insert current facts only)"),
wenzelm@9539	561	("insert", thms_args insert, "insert theorems, ignoring facts (improper)"),
wenzelm@12384	562	("intro", thms_args intro, "repeatedly apply introduction rules"),
wenzelm@12384	563	("elim", thms_args elim, "repeatedly apply elimination rules"),
wenzelm@18877	564	("unfold", thms_ctxt_args unfold_meth, "unfold definitions"),
wenzelm@18877	565	("fold", thms_ctxt_args fold_meth, "fold definitions"),
haftmann@21879	566	("atomize", (atomize o fst) oo syntax (Args.mode "full"),
wenzelm@11962	567	"present local premises as object-level statements"),
wenzelm@18640	568	("iprover", iprover_meth, "intuitionistic proof search"),
wenzelm@12384	569	("rule", thms_ctxt_args some_rule, "apply some intro/elim rule"),
wenzelm@10744	570	("erule", nat_thms_args erule, "apply rule in elimination manner (improper)"),
wenzelm@10744	571	("drule", nat_thms_args drule, "apply rule in destruct manner (improper)"),
wenzelm@10744	572	("frule", nat_thms_args frule, "apply rule in forward manner (improper)"),
wenzelm@8195	573	("this", no_args this, "apply current facts as rules"),
wenzelm@18039	574	("fact", thms_ctxt_args fact, "composition by facts from context"),
wenzelm@8238	575	("assumption", ctxt_args assumption, "proof by assumption, preferring facts"),
wenzelm@20335	576	("rename_tac", goal_args (Scan.repeat1 Args.name) Tactic.rename_params_tac,
wenzelm@22586	577	"rename parameters of goal"),
wenzelm@20335	578	("rotate_tac", goal_args (Scan.optional Args.int 1) Tactic.rotate_tac,
wenzelm@20335	579	"rotate assumptions of goal"),
wenzelm@26385	580	("tactic", simple_args (Args.position Args.name) tactic, "ML tactic as proof method"),
wenzelm@26385	581	("raw_tactic", simple_args (Args.position Args.name) raw_tactic, "ML tactic as raw proof method")]);
wenzelm@5824	582
wenzelm@5824	583
wenzelm@22118	584	(* outer parser *)
wenzelm@22118	585
wenzelm@22118	586	local
wenzelm@22118	587
wenzelm@22118	588	structure T = OuterLex;
wenzelm@22118	589	structure P = OuterParse;
wenzelm@22118	590
wenzelm@22118	591	fun is_symid_meth s =
wenzelm@22118	592	s <> "\|" andalso s <> "?" andalso s <> "+" andalso T.is_sid s;
wenzelm@22118	593
wenzelm@22118	594	fun meth4 x =
wenzelm@22118	595	(P.position (P.xname >> rpair []) >> (Source o Args.src) \|\|
wenzelm@22118	596	P.$$$ "(" \|-- P.!!! (meth0 --\| P.$$$ ")")) x
wenzelm@22118	597	and meth3 x =
wenzelm@22118	598	(meth4 --\| P.$$$ "?" >> Try \|\|
wenzelm@22118	599	meth4 --\| P.$$$ "+" >> Repeat1 \|\|
wenzelm@22118	600	meth4 -- (P.$$$ "[" \|-- Scan.optional P.nat 1 --\| P.$$$ "]") >> (SelectGoals o swap) \|\|
wenzelm@22118	601	meth4) x
wenzelm@22118	602	and meth2 x =
wenzelm@22118	603	(P.position (P.xname -- P.args1 is_symid_meth false) >> (Source o Args.src) \|\|
wenzelm@22118	604	meth3) x
wenzelm@22118	605	and meth1 x = (P.enum1 "," meth2 >> (fn [m] => m \| ms => Then ms)) x
wenzelm@22118	606	and meth0 x = (P.enum1 "\|" meth1 >> (fn [m] => m \| ms => Orelse ms)) x;
wenzelm@22118	607
wenzelm@22118	608	in val parse = meth3 end;
wenzelm@22118	609
wenzelm@22118	610
wenzelm@16145	611	(final declarations of this structure!)
wenzelm@16145	612	val unfold = unfold_meth;
wenzelm@16145	613	val fold = fold_meth;
wenzelm@16145	614
wenzelm@5824	615	end;
wenzelm@5824	616
wenzelm@5824	617	structure BasicMethod: BASIC_METHOD = Method;
wenzelm@5824	618	open BasicMethod;

author	wenzelm
	Mon, 24 Mar 2008 23:34:24 +0100
changeset 26385	ae7564661e76
parent 26291	d01bf7b10c75
child 26415	1b624d6e9163
permissions	-rw-r--r--