isabelle: src/Pure/drule.ML@c9b1838a2cc0 (annotated)

252 7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	1	(* Title: Pure/drule.ML
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	2	ID: $Id$
252 7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	3	Author: Lawrence C Paulson, Cambridge University Computer Laboratory
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	4	Copyright 1993 University of Cambridge
a5a9c433f639 Initial revision clasohm parents: diff changeset	5
3766 8e1794c4e81b moved theory stuff (add_defs etc.) to theory.ML; wenzelm parents: 3653 diff changeset	6	Derived rules and other operations on theorems.
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	7	*)
a5a9c433f639 Initial revision clasohm parents: diff changeset	8
9288 06a55195741b infix 'OF' is a version of 'MRS' with more appropriate argument order; wenzelm parents: 8605 diff changeset	9	infix 0 RS RSN RL RLN MRS MRL OF COMP;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	10
5903 5d9beee36fbe export vars_of and friends; wenzelm parents: 5688 diff changeset	11	signature BASIC_DRULE =
3766 8e1794c4e81b moved theory stuff (add_defs etc.) to theory.ML; wenzelm parents: 3653 diff changeset	12	sig
9547 8dad21f06b24 more cterm operations: mk_implies, list_implies paulson parents: 9460 diff changeset	13	val mk_implies : cterm * cterm -> cterm
8dad21f06b24 more cterm operations: mk_implies, list_implies paulson parents: 9460 diff changeset	14	val list_implies : cterm list * cterm -> cterm
4285 05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	15	val dest_implies : cterm -> cterm * cterm
10414 f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	16	val dest_equals : cterm -> cterm * cterm
8328 efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	17	val skip_flexpairs : cterm -> cterm
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	18	val strip_imp_prems : cterm -> cterm list
10414 f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	19	val strip_imp_concl : cterm -> cterm
8328 efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	20	val cprems_of : thm -> cterm list
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	21	val read_insts :
4285 05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	22	Sign.sg -> (indexname -> typ option) * (indexname -> sort option)
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	23	-> (indexname -> typ option) * (indexname -> sort option)
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	24	-> string list -> (string*string)list
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	25	-> (indexnamectyp)list (cterm*cterm)list
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	26	val types_sorts: thm -> (indexname-> typ option) * (indexname-> sort option)
7636 102a4b6b83a6 strip_shyps_warning; wenzelm parents: 7467 diff changeset	27	val strip_shyps_warning : thm -> thm
8328 efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	28	val forall_intr_list : cterm list -> thm -> thm
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	29	val forall_intr_frees : thm -> thm
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	30	val forall_intr_vars : thm -> thm
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	31	val forall_elim_list : cterm list -> thm -> thm
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	32	val forall_elim_var : int -> thm -> thm
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	33	val forall_elim_vars : int -> thm -> thm
12725 7ede865e1fe5 renamed forall_elim_vars_safe to gen_all; wenzelm parents: 12719 diff changeset	34	val gen_all : thm -> thm
8328 efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	35	val freeze_thaw : thm -> thm * (thm -> thm)
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	36	val implies_elim_list : thm -> thm list -> thm
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	37	val implies_intr_list : cterm list -> thm -> thm
8129 29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	38	val instantiate :
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	39	(indexname * ctyp) list * (cterm * cterm) list -> thm -> thm
8328 efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	40	val zero_var_indexes : thm -> thm
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	41	val standard : thm -> thm
11512 da3a96ab5630 Some basic rules are now stored with "open" derivations, to facilitate berghofe parents: 11163 diff changeset	42	val standard' : thm -> thm
4610 b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	43	val rotate_prems : int -> thm -> thm
11163 14732e3eaa6e added rearrange_prems oheimb parents: 11120 diff changeset	44	val rearrange_prems : int list -> thm -> thm
8328 efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	45	val assume_ax : theory -> string -> thm
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	46	val RSN : thm * (int * thm) -> thm
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	47	val RS : thm * thm -> thm
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	48	val RLN : thm list * (int * thm list) -> thm list
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	49	val RL : thm list * thm list -> thm list
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	50	val MRS : thm list * thm -> thm
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	51	val MRL : thm list list * thm list -> thm list
9288 06a55195741b infix 'OF' is a version of 'MRS' with more appropriate argument order; wenzelm parents: 8605 diff changeset	52	val OF : thm * thm list -> thm
8328 efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	53	val compose : thm * int * thm -> thm list
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	54	val COMP : thm * thm -> thm
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	55	val read_instantiate_sg: Sign.sg -> (string*string)list -> thm -> thm
8328 efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	56	val read_instantiate : (string*string)list -> thm -> thm
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	57	val cterm_instantiate : (cterm*cterm)list -> thm -> thm
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	58	val weak_eq_thm : thm * thm -> bool
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	59	val eq_thm_sg : thm * thm -> bool
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	60	val size_of_thm : thm -> int
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	61	val reflexive_thm : thm
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	62	val symmetric_thm : thm
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	63	val transitive_thm : thm
2004 3411fe560611 New operations on cterms. Now same names as in Logic paulson parents: 1906 diff changeset	64	val refl_implies : thm
4679 24917efb31b5 Reorganized simplifier. May now reorient rules. nipkow parents: 4610 diff changeset	65	val symmetric_fun : thm -> thm
11512 da3a96ab5630 Some basic rules are now stored with "open" derivations, to facilitate berghofe parents: 11163 diff changeset	66	val extensional : thm -> thm
10414 f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	67	val imp_cong : thm
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	68	val swap_prems_eq : thm
8328 efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	69	val equal_abs_elim : cterm -> thm -> thm
4285 05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	70	val equal_abs_elim_list: cterm list -> thm -> thm
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	71	val flexpair_abs_elim_list: cterm list -> thm -> thm
8328 efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	72	val asm_rl : thm
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	73	val cut_rl : thm
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	74	val revcut_rl : thm
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	75	val thin_rl : thm
4285 05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	76	val triv_forall_equality: thm
1756 978ee7ededdd Added swap_prems_rl nipkow parents: 1703 diff changeset	77	val swap_prems_rl : thm
4285 05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	78	val equal_intr_rule : thm
8550 b44c185f8018 new meta-rule "inst", a shorthand for read_instantiate_sg paulson parents: 8496 diff changeset	79	val inst : string -> string -> thm -> thm
8328 efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	80	val instantiate' : ctyp option list -> cterm option list -> thm -> thm
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	81	val incr_indexes_wrt : int list -> ctyp list -> cterm list -> thm list -> thm -> thm
5903 5d9beee36fbe export vars_of and friends; wenzelm parents: 5688 diff changeset	82	end;
5d9beee36fbe export vars_of and friends; wenzelm parents: 5688 diff changeset	83
5d9beee36fbe export vars_of and friends; wenzelm parents: 5688 diff changeset	84	signature DRULE =
5d9beee36fbe export vars_of and friends; wenzelm parents: 5688 diff changeset	85	sig
5d9beee36fbe export vars_of and friends; wenzelm parents: 5688 diff changeset	86	include BASIC_DRULE
12908 53bfe07a7916 New function strip_comb (cterm version of Term.strip_comb). berghofe parents: 12800 diff changeset	87	val strip_comb: cterm -> cterm * cterm list
11975 129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	88	val rule_attribute: ('a -> thm -> thm) -> 'a attribute
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	89	val tag_rule: tag -> thm -> thm
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	90	val untag_rule: string -> thm -> thm
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	91	val tag: tag -> 'a attribute
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	92	val untag: string -> 'a attribute
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	93	val get_kind: thm -> string
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	94	val kind: string -> 'a attribute
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	95	val theoremK: string
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	96	val lemmaK: string
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	97	val corollaryK: string
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	98	val internalK: string
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	99	val kind_internal: 'a attribute
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	100	val has_internal: tag list -> bool
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	101	val impose_hyps: cterm list -> thm -> thm
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	102	val close_derivation: thm -> thm
12005 291593391010 added local_standard; wenzelm parents: 11997 diff changeset	103	val local_standard: thm -> thm
11975 129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	104	val compose_single: thm * int * thm -> thm
12373 704e50ab65af added add_rule, del_rule; wenzelm parents: 12297 diff changeset	105	val add_rule: thm -> thm list -> thm list
704e50ab65af added add_rule, del_rule; wenzelm parents: 12297 diff changeset	106	val del_rule: thm -> thm list -> thm list
11975 129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	107	val add_rules: thm list -> thm list -> thm list
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	108	val del_rules: thm list -> thm list -> thm list
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	109	val merge_rules: thm list * thm list -> thm list
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	110	val norm_hhf_eq: thm
12800 abcf9fd6ee65 added is_norm_hhf (from logic.ML); wenzelm parents: 12756 diff changeset	111	val is_norm_hhf: term -> bool
abcf9fd6ee65 added is_norm_hhf (from logic.ML); wenzelm parents: 12756 diff changeset	112	val norm_hhf: Sign.sg -> term -> term
11975 129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	113	val triv_goal: thm
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	114	val rev_triv_goal: thm
11815 ef7619398680 added implies_intr_goals; wenzelm parents: 11741 diff changeset	115	val implies_intr_goals: cterm list -> thm -> thm
11975 129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	116	val freeze_all: thm -> thm
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	117	val mk_triv_goal: cterm -> thm
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	118	val tvars_of_terms: term list -> (indexname * sort) list
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	119	val vars_of_terms: term list -> (indexname * typ) list
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	120	val tvars_of: thm -> (indexname * sort) list
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	121	val vars_of: thm -> (indexname * typ) list
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	122	val unvarifyT: thm -> thm
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	123	val unvarify: thm -> thm
12495 89f97fa683f5 export add_tvarsT etc.; wenzelm parents: 12373 diff changeset	124	val tvars_intr_list: string list -> thm -> thm * (string * indexname) list
12297 2ce7b42b0a64 added remdups_rl; wenzelm parents: 12283 diff changeset	125	val remdups_rl: thm
11975 129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	126	val conj_intr: thm -> thm -> thm
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	127	val conj_intr_list: thm list -> thm
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	128	val conj_elim: thm -> thm * thm
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	129	val conj_elim_list: thm -> thm list
12135 e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	130	val conj_elim_precise: int -> thm -> thm list
e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	131	val conj_intr_thm: thm
3766 8e1794c4e81b moved theory stuff (add_defs etc.) to theory.ML; wenzelm parents: 3653 diff changeset	132	end;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	133
5903 5d9beee36fbe export vars_of and friends; wenzelm parents: 5688 diff changeset	134	structure Drule: DRULE =
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	135	struct
a5a9c433f639 Initial revision clasohm parents: diff changeset	136
3991 4cb2f2422695 ProtoPure.thy; wenzelm parents: 3766 diff changeset	137
708 8422e50adce0 Pure/drule/cprems_of, cskip_flexpairs, cstrip_imp_prems: new cterm operations lcp parents: 668 diff changeset	138	( some cterm->cterm operations: much faster than calling cterm_of! )
8422e50adce0 Pure/drule/cprems_of, cskip_flexpairs, cstrip_imp_prems: new cterm operations lcp parents: 668 diff changeset	139
2004 3411fe560611 New operations on cterms. Now same names as in Logic paulson parents: 1906 diff changeset	140	( SAME NAMES as in structure Logic: use compound identifiers! )
3411fe560611 New operations on cterms. Now same names as in Logic paulson parents: 1906 diff changeset	141
1703 e22ad43bab5f moved dest_cimplies to drule.ML; added adjust_maxidx clasohm parents: 1596 diff changeset	142	(dest_implies for cterms. Note T=prop below)
2004 3411fe560611 New operations on cterms. Now same names as in Logic paulson parents: 1906 diff changeset	143	fun dest_implies ct =
8328 efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	144	case term_of ct of
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	145	(Const("==>", _) $ _ $ _) =>
10767 8fa4aafa7314 Thm: dest_comb, dest_abs, capply, cabs no longer global; wenzelm parents: 10667 diff changeset	146	let val (ct1,ct2) = Thm.dest_comb ct
8fa4aafa7314 Thm: dest_comb, dest_abs, capply, cabs no longer global; wenzelm parents: 10667 diff changeset	147	in (#2 (Thm.dest_comb ct1), ct2) end
2004 3411fe560611 New operations on cterms. Now same names as in Logic paulson parents: 1906 diff changeset	148	\| _ => raise TERM ("dest_implies", [term_of ct]) ;
1703 e22ad43bab5f moved dest_cimplies to drule.ML; added adjust_maxidx clasohm parents: 1596 diff changeset	149
10414 f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	150	fun dest_equals ct =
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	151	case term_of ct of
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	152	(Const("==", _) $ _ $ _) =>
10767 8fa4aafa7314 Thm: dest_comb, dest_abs, capply, cabs no longer global; wenzelm parents: 10667 diff changeset	153	let val (ct1,ct2) = Thm.dest_comb ct
8fa4aafa7314 Thm: dest_comb, dest_abs, capply, cabs no longer global; wenzelm parents: 10667 diff changeset	154	in (#2 (Thm.dest_comb ct1), ct2) end
10414 f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	155	\| _ => raise TERM ("dest_equals", [term_of ct]) ;
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	156
1703 e22ad43bab5f moved dest_cimplies to drule.ML; added adjust_maxidx clasohm parents: 1596 diff changeset	157
708 8422e50adce0 Pure/drule/cprems_of, cskip_flexpairs, cstrip_imp_prems: new cterm operations lcp parents: 668 diff changeset	158	(Discard flexflex pairs; return a cterm)
2004 3411fe560611 New operations on cterms. Now same names as in Logic paulson parents: 1906 diff changeset	159	fun skip_flexpairs ct =
708 8422e50adce0 Pure/drule/cprems_of, cskip_flexpairs, cstrip_imp_prems: new cterm operations lcp parents: 668 diff changeset	160	case term_of ct of
8328 efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	161	(Const("==>", _) $ (Const("=?=",_)$_$_) $ _) =>
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	162	skip_flexpairs (#2 (dest_implies ct))
708 8422e50adce0 Pure/drule/cprems_of, cskip_flexpairs, cstrip_imp_prems: new cterm operations lcp parents: 668 diff changeset	163	\| _ => ct;
8422e50adce0 Pure/drule/cprems_of, cskip_flexpairs, cstrip_imp_prems: new cterm operations lcp parents: 668 diff changeset	164
8422e50adce0 Pure/drule/cprems_of, cskip_flexpairs, cstrip_imp_prems: new cterm operations lcp parents: 668 diff changeset	165	(* A1==>...An==>B goes to [A1,...,An], where B is not an implication *)
2004 3411fe560611 New operations on cterms. Now same names as in Logic paulson parents: 1906 diff changeset	166	fun strip_imp_prems ct =
3411fe560611 New operations on cterms. Now same names as in Logic paulson parents: 1906 diff changeset	167	let val (cA,cB) = dest_implies ct
3411fe560611 New operations on cterms. Now same names as in Logic paulson parents: 1906 diff changeset	168	in cA :: strip_imp_prems cB end
708 8422e50adce0 Pure/drule/cprems_of, cskip_flexpairs, cstrip_imp_prems: new cterm operations lcp parents: 668 diff changeset	169	handle TERM _ => [];
8422e50adce0 Pure/drule/cprems_of, cskip_flexpairs, cstrip_imp_prems: new cterm operations lcp parents: 668 diff changeset	170
2004 3411fe560611 New operations on cterms. Now same names as in Logic paulson parents: 1906 diff changeset	171	(* A1==>...An==>B goes to B, where B is not an implication *)
3411fe560611 New operations on cterms. Now same names as in Logic paulson parents: 1906 diff changeset	172	fun strip_imp_concl ct =
8328 efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	173	case term_of ct of (Const("==>", _) $ _ $ _) =>
10767 8fa4aafa7314 Thm: dest_comb, dest_abs, capply, cabs no longer global; wenzelm parents: 10667 diff changeset	174	strip_imp_concl (#2 (Thm.dest_comb ct))
2004 3411fe560611 New operations on cterms. Now same names as in Logic paulson parents: 1906 diff changeset	175	\| _ => ct;
3411fe560611 New operations on cterms. Now same names as in Logic paulson parents: 1906 diff changeset	176
708 8422e50adce0 Pure/drule/cprems_of, cskip_flexpairs, cstrip_imp_prems: new cterm operations lcp parents: 668 diff changeset	177	(The premises of a theorem, as a cterm list)
2004 3411fe560611 New operations on cterms. Now same names as in Logic paulson parents: 1906 diff changeset	178	val cprems_of = strip_imp_prems o skip_flexpairs o cprop_of;
708 8422e50adce0 Pure/drule/cprems_of, cskip_flexpairs, cstrip_imp_prems: new cterm operations lcp parents: 668 diff changeset	179
9547 8dad21f06b24 more cterm operations: mk_implies, list_implies paulson parents: 9460 diff changeset	180	val proto_sign = Theory.sign_of ProtoPure.thy;
8dad21f06b24 more cterm operations: mk_implies, list_implies paulson parents: 9460 diff changeset	181
8dad21f06b24 more cterm operations: mk_implies, list_implies paulson parents: 9460 diff changeset	182	val implies = cterm_of proto_sign Term.implies;
8dad21f06b24 more cterm operations: mk_implies, list_implies paulson parents: 9460 diff changeset	183
8dad21f06b24 more cterm operations: mk_implies, list_implies paulson parents: 9460 diff changeset	184	(cterm version of mk_implies)
10767 8fa4aafa7314 Thm: dest_comb, dest_abs, capply, cabs no longer global; wenzelm parents: 10667 diff changeset	185	fun mk_implies(A,B) = Thm.capply (Thm.capply implies A) B;
9547 8dad21f06b24 more cterm operations: mk_implies, list_implies paulson parents: 9460 diff changeset	186
8dad21f06b24 more cterm operations: mk_implies, list_implies paulson parents: 9460 diff changeset	187	(cterm version of list_implies: [A1,...,An], B goes to [\|A1;==>;An\|]==>B )
8dad21f06b24 more cterm operations: mk_implies, list_implies paulson parents: 9460 diff changeset	188	fun list_implies([], B) = B
8dad21f06b24 more cterm operations: mk_implies, list_implies paulson parents: 9460 diff changeset	189	\| list_implies(A::AS, B) = mk_implies (A, list_implies(AS,B));
8dad21f06b24 more cterm operations: mk_implies, list_implies paulson parents: 9460 diff changeset	190
12908 53bfe07a7916 New function strip_comb (cterm version of Term.strip_comb). berghofe parents: 12800 diff changeset	191	(cterm version of strip_comb: maps f(t1,...,tn) to (f, [t1,...,tn]) )
53bfe07a7916 New function strip_comb (cterm version of Term.strip_comb). berghofe parents: 12800 diff changeset	192	fun strip_comb ct =
53bfe07a7916 New function strip_comb (cterm version of Term.strip_comb). berghofe parents: 12800 diff changeset	193	let
53bfe07a7916 New function strip_comb (cterm version of Term.strip_comb). berghofe parents: 12800 diff changeset	194	fun stripc (p as (ct, cts)) =
53bfe07a7916 New function strip_comb (cterm version of Term.strip_comb). berghofe parents: 12800 diff changeset	195	let val (ct1, ct2) = Thm.dest_comb ct
53bfe07a7916 New function strip_comb (cterm version of Term.strip_comb). berghofe parents: 12800 diff changeset	196	in stripc (ct1, ct2 :: cts) end handle CTERM _ => p
53bfe07a7916 New function strip_comb (cterm version of Term.strip_comb). berghofe parents: 12800 diff changeset	197	in stripc (ct, []) end;
53bfe07a7916 New function strip_comb (cterm version of Term.strip_comb). berghofe parents: 12800 diff changeset	198
708 8422e50adce0 Pure/drule/cprems_of, cskip_flexpairs, cstrip_imp_prems: new cterm operations lcp parents: 668 diff changeset	199
229 4002c4cd450c Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated lcp parents: 214 diff changeset	200	( reading of instantiations )
4002c4cd450c Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated lcp parents: 214 diff changeset	201
4002c4cd450c Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated lcp parents: 214 diff changeset	202	fun absent ixn =
4002c4cd450c Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated lcp parents: 214 diff changeset	203	error("No such variable in term: " ^ Syntax.string_of_vname ixn);
4002c4cd450c Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated lcp parents: 214 diff changeset	204
4002c4cd450c Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated lcp parents: 214 diff changeset	205	fun inst_failure ixn =
4002c4cd450c Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated lcp parents: 214 diff changeset	206	error("Instantiation of " ^ Syntax.string_of_vname ixn ^ " fails");
4002c4cd450c Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated lcp parents: 214 diff changeset	207
4281 6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	208	fun read_insts sign (rtypes,rsorts) (types,sorts) used insts =
10403 2955ee2424ce Sign.typ_instance; wenzelm parents: 9862 diff changeset	209	let
4281 6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	210	fun split([],tvs,vs) = (tvs,vs)
4691 b159f5d98ceb Syntax.indexname; wenzelm parents: 4679 diff changeset	211	\| split((sv,st)::l,tvs,vs) = (case Symbol.explode sv of
b159f5d98ceb Syntax.indexname; wenzelm parents: 4679 diff changeset	212	"'"::cs => split(l,(Syntax.indexname cs,st)::tvs,vs)
b159f5d98ceb Syntax.indexname; wenzelm parents: 4679 diff changeset	213	\| cs => split(l,tvs,(Syntax.indexname cs,st)::vs));
4281 6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	214	val (tvs,vs) = split(insts,[],[]);
6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	215	fun readT((a,i),st) =
6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	216	let val ixn = ("'" ^ a,i);
6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	217	val S = case rsorts ixn of Some S => S \| None => absent ixn;
6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	218	val T = Sign.read_typ (sign,sorts) st;
10403 2955ee2424ce Sign.typ_instance; wenzelm parents: 9862 diff changeset	219	in if Sign.typ_instance sign (T, TVar(ixn,S)) then (ixn,T)
4281 6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	220	else inst_failure ixn
6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	221	end
6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	222	val tye = map readT tvs;
6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	223	fun mkty(ixn,st) = (case rtypes ixn of
6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	224	Some T => (ixn,(st,typ_subst_TVars tye T))
6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	225	\| None => absent ixn);
6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	226	val ixnsTs = map mkty vs;
6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	227	val ixns = map fst ixnsTs
6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	228	and sTs = map snd ixnsTs
6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	229	val (cts,tye2) = read_def_cterms(sign,types,sorts) used false sTs;
6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	230	fun mkcVar(ixn,T) =
6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	231	let val U = typ_subst_TVars tye2 T
6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	232	in cterm_of sign (Var(ixn,U)) end
6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	233	val ixnTs = ListPair.zip(ixns, map snd sTs)
6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	234	in (map (fn (ixn,T) => (ixn,ctyp_of sign T)) (tye2 @ tye),
6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	235	ListPair.zip(map mkcVar ixnTs,cts))
6c6073b13600 Added read_def_cterms for simultaneous reading/typing of terms under nipkow parents: 4270 diff changeset	236	end;
229 4002c4cd450c Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated lcp parents: 214 diff changeset	237
4002c4cd450c Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated lcp parents: 214 diff changeset	238
252 7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	239	(*** Find the type (sort) associated with a (T)Var or (T)Free in a term
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	240	Used for establishing default types (of variables) and sorts (of
a5a9c433f639 Initial revision clasohm parents: diff changeset	241	type variables) when reading another term.
a5a9c433f639 Initial revision clasohm parents: diff changeset	242	Index -1 indicates that a (T)Free rather than a (T)Var is wanted.
a5a9c433f639 Initial revision clasohm parents: diff changeset	243	***)
a5a9c433f639 Initial revision clasohm parents: diff changeset	244
a5a9c433f639 Initial revision clasohm parents: diff changeset	245	fun types_sorts thm =
a5a9c433f639 Initial revision clasohm parents: diff changeset	246	let val {prop,hyps,...} = rep_thm thm;
252 7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	247	val big = list_comb(prop,hyps); (* bogus term! *)
7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	248	val vars = map dest_Var (term_vars big);
7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	249	val frees = map dest_Free (term_frees big);
7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	250	val tvars = term_tvars big;
7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	251	val tfrees = term_tfrees big;
7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	252	fun typ(a,i) = if i<0 then assoc(frees,a) else assoc(vars,(a,i));
7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	253	fun sort(a,i) = if i<0 then assoc(tfrees,a) else assoc(tvars,(a,i));
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	254	in (typ,sort) end;
a5a9c433f639 Initial revision clasohm parents: diff changeset	255
7636 102a4b6b83a6 strip_shyps_warning; wenzelm parents: 7467 diff changeset	256
9455 f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	257
f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	258	( basic attributes )
f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	259
f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	260	(* dependent rules *)
f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	261
f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	262	fun rule_attribute f (x, thm) = (x, (f x thm));
f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	263
f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	264
f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	265	(* add / delete tags *)
f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	266
f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	267	fun map_tags f thm =
f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	268	Thm.put_name_tags (Thm.name_of_thm thm, f (#2 (Thm.get_name_tags thm))) thm;
f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	269
f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	270	fun tag_rule tg = map_tags (fn tgs => if tg mem tgs then tgs else tgs @ [tg]);
f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	271	fun untag_rule s = map_tags (filter_out (equal s o #1));
f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	272
f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	273	fun tag tg x = rule_attribute (K (tag_rule tg)) x;
f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	274	fun untag s x = rule_attribute (K (untag_rule s)) x;
f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	275
f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	276	fun simple_tag name x = tag (name, []) x;
f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	277
11741 470e608d7a74 generic theorem kinds ("theorem", "lemma" etc.); wenzelm parents: 11512 diff changeset	278
470e608d7a74 generic theorem kinds ("theorem", "lemma" etc.); wenzelm parents: 11512 diff changeset	279	(* theorem kinds *)
470e608d7a74 generic theorem kinds ("theorem", "lemma" etc.); wenzelm parents: 11512 diff changeset	280
470e608d7a74 generic theorem kinds ("theorem", "lemma" etc.); wenzelm parents: 11512 diff changeset	281	val theoremK = "theorem";
470e608d7a74 generic theorem kinds ("theorem", "lemma" etc.); wenzelm parents: 11512 diff changeset	282	val lemmaK = "lemma";
470e608d7a74 generic theorem kinds ("theorem", "lemma" etc.); wenzelm parents: 11512 diff changeset	283	val corollaryK = "corollary";
470e608d7a74 generic theorem kinds ("theorem", "lemma" etc.); wenzelm parents: 11512 diff changeset	284	val internalK = "internal";
9455 f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	285
11741 470e608d7a74 generic theorem kinds ("theorem", "lemma" etc.); wenzelm parents: 11512 diff changeset	286	fun get_kind thm =
470e608d7a74 generic theorem kinds ("theorem", "lemma" etc.); wenzelm parents: 11512 diff changeset	287	(case Library.assoc (#2 (Thm.get_name_tags thm), "kind") of
470e608d7a74 generic theorem kinds ("theorem", "lemma" etc.); wenzelm parents: 11512 diff changeset	288	Some (k :: _) => k
470e608d7a74 generic theorem kinds ("theorem", "lemma" etc.); wenzelm parents: 11512 diff changeset	289	\| _ => "unknown");
470e608d7a74 generic theorem kinds ("theorem", "lemma" etc.); wenzelm parents: 11512 diff changeset	290
470e608d7a74 generic theorem kinds ("theorem", "lemma" etc.); wenzelm parents: 11512 diff changeset	291	fun kind_rule k = tag_rule ("kind", [k]) o untag_rule "kind";
12710 d9e0674653b3 kind: ignore ""; wenzelm parents: 12527 diff changeset	292	fun kind k x = if k = "" then x else rule_attribute (K (kind_rule k)) x;
11741 470e608d7a74 generic theorem kinds ("theorem", "lemma" etc.); wenzelm parents: 11512 diff changeset	293	fun kind_internal x = kind internalK x;
470e608d7a74 generic theorem kinds ("theorem", "lemma" etc.); wenzelm parents: 11512 diff changeset	294	fun has_internal tags = exists (equal internalK o fst) tags;
9455 f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	295
f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	296
f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	297
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	298	( Standardization of rules )
a5a9c433f639 Initial revision clasohm parents: diff changeset	299
7636 102a4b6b83a6 strip_shyps_warning; wenzelm parents: 7467 diff changeset	300	(Strip extraneous shyps as far as possible)
102a4b6b83a6 strip_shyps_warning; wenzelm parents: 7467 diff changeset	301	fun strip_shyps_warning thm =
102a4b6b83a6 strip_shyps_warning; wenzelm parents: 7467 diff changeset	302	let
102a4b6b83a6 strip_shyps_warning; wenzelm parents: 7467 diff changeset	303	val str_of_sort = Sign.str_of_sort (Thm.sign_of_thm thm);
102a4b6b83a6 strip_shyps_warning; wenzelm parents: 7467 diff changeset	304	val thm' = Thm.strip_shyps thm;
102a4b6b83a6 strip_shyps_warning; wenzelm parents: 7467 diff changeset	305	val xshyps = Thm.extra_shyps thm';
102a4b6b83a6 strip_shyps_warning; wenzelm parents: 7467 diff changeset	306	in
102a4b6b83a6 strip_shyps_warning; wenzelm parents: 7467 diff changeset	307	if null xshyps then ()
102a4b6b83a6 strip_shyps_warning; wenzelm parents: 7467 diff changeset	308	else warning ("Pending sort hypotheses: " ^ commas (map str_of_sort xshyps));
102a4b6b83a6 strip_shyps_warning; wenzelm parents: 7467 diff changeset	309	thm'
102a4b6b83a6 strip_shyps_warning; wenzelm parents: 7467 diff changeset	310	end;
102a4b6b83a6 strip_shyps_warning; wenzelm parents: 7467 diff changeset	311
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	312	(Generalization over a list of variables, IGNORING bad ones)
a5a9c433f639 Initial revision clasohm parents: diff changeset	313	fun forall_intr_list [] th = th
a5a9c433f639 Initial revision clasohm parents: diff changeset	314	\| forall_intr_list (y::ys) th =
252 7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	315	let val gth = forall_intr_list ys th
7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	316	in forall_intr y gth handle THM _ => gth end;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	317
a5a9c433f639 Initial revision clasohm parents: diff changeset	318	(Generalization over all suitable Free variables)
a5a9c433f639 Initial revision clasohm parents: diff changeset	319	fun forall_intr_frees th =
a5a9c433f639 Initial revision clasohm parents: diff changeset	320	let val {prop,sign,...} = rep_thm th
a5a9c433f639 Initial revision clasohm parents: diff changeset	321	in forall_intr_list
4440 9ed4098074bc adapted to new sort function; wenzelm parents: 4313 diff changeset	322	(map (cterm_of sign) (sort (make_ord atless) (term_frees prop)))
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	323	th
a5a9c433f639 Initial revision clasohm parents: diff changeset	324	end;
a5a9c433f639 Initial revision clasohm parents: diff changeset	325
7898 d7e65a52acf9 forall_elim_var(s) moved to pure_thy.ML; wenzelm parents: 7636 diff changeset	326	val forall_elim_var = PureThy.forall_elim_var;
d7e65a52acf9 forall_elim_var(s) moved to pure_thy.ML; wenzelm parents: 7636 diff changeset	327	val forall_elim_vars = PureThy.forall_elim_vars;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	328
12725 7ede865e1fe5 renamed forall_elim_vars_safe to gen_all; wenzelm parents: 12719 diff changeset	329	fun gen_all thm =
12719 41e0d086f8b6 improved forall_elim_vars_safe (no longer invents new indexes); wenzelm parents: 12710 diff changeset	330	let
41e0d086f8b6 improved forall_elim_vars_safe (no longer invents new indexes); wenzelm parents: 12710 diff changeset	331	val {sign, prop, maxidx, ...} = Thm.rep_thm thm;
41e0d086f8b6 improved forall_elim_vars_safe (no longer invents new indexes); wenzelm parents: 12710 diff changeset	332	fun elim (th, (x, T)) = Thm.forall_elim (Thm.cterm_of sign (Var ((x, maxidx + 1), T))) th;
41e0d086f8b6 improved forall_elim_vars_safe (no longer invents new indexes); wenzelm parents: 12710 diff changeset	333	val vs = Term.strip_all_vars prop;
41e0d086f8b6 improved forall_elim_vars_safe (no longer invents new indexes); wenzelm parents: 12710 diff changeset	334	in foldl elim (thm, Term.variantlist (map #1 vs, []) ~~ map #2 vs) end;
9554 1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	335
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	336	(Specialization over a list of cterms)
a5a9c433f639 Initial revision clasohm parents: diff changeset	337	fun forall_elim_list cts th = foldr (uncurry forall_elim) (rev cts, th);
a5a9c433f639 Initial revision clasohm parents: diff changeset	338
11815 ef7619398680 added implies_intr_goals; wenzelm parents: 11741 diff changeset	339	(* maps A1,...,An \|- B to [\| A1;...;An \|] ==> B *)
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	340	fun implies_intr_list cAs th = foldr (uncurry implies_intr) (cAs,th);
a5a9c433f639 Initial revision clasohm parents: diff changeset	341
a5a9c433f639 Initial revision clasohm parents: diff changeset	342	(* maps [\| A1;...;An \|] ==> B and [A1,...,An] to B *)
a5a9c433f639 Initial revision clasohm parents: diff changeset	343	fun implies_elim_list impth ths = foldl (uncurry implies_elim) (impth,ths);
a5a9c433f639 Initial revision clasohm parents: diff changeset	344
11960 58ffa8bec4da added impose_hyps; wenzelm parents: 11815 diff changeset	345	(* maps \|- B to A1,...,An \|- B *)
58ffa8bec4da added impose_hyps; wenzelm parents: 11815 diff changeset	346	fun impose_hyps chyps th =
12092 d1896409ff13 tuned impose_hyps; wenzelm parents: 12054 diff changeset	347	let val chyps' = gen_rems (op aconv o apfst Thm.term_of) (chyps, #hyps (Thm.rep_thm th))
d1896409ff13 tuned impose_hyps; wenzelm parents: 12054 diff changeset	348	in implies_elim_list (implies_intr_list chyps' th) (map Thm.assume chyps') end;
11960 58ffa8bec4da added impose_hyps; wenzelm parents: 11815 diff changeset	349
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	350	(Reset Var indexes to zero, renaming to preserve distinctness)
252 7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	351	fun zero_var_indexes th =
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	352	let val {prop,sign,...} = rep_thm th;
a5a9c433f639 Initial revision clasohm parents: diff changeset	353	val vars = term_vars prop
a5a9c433f639 Initial revision clasohm parents: diff changeset	354	val bs = foldl add_new_id ([], map (fn Var((a,_),_)=>a) vars)
252 7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	355	val inrs = add_term_tvars(prop,[]);
7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	356	val nms' = rev(foldl add_new_id ([], map (#1 o #1) inrs));
2266 82aef6857c5b Replaced map...~~ by ListPair.map paulson parents: 2180 diff changeset	357	val tye = ListPair.map (fn ((v,rs),a) => (v, TVar((a,0),rs)))
8328 efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	358	(inrs, nms')
252 7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	359	val ctye = map (fn (v,T) => (v,ctyp_of sign T)) tye;
7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	360	fun varpairs([],[]) = []
7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	361	\| varpairs((var as Var(v,T)) :: vars, b::bs) =
7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	362	let val T' = typ_subst_TVars tye T
7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	363	in (cterm_of sign (Var(v,T')),
7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	364	cterm_of sign (Var((b,0),T'))) :: varpairs(vars,bs)
7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	365	end
7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	366	\| varpairs _ = raise TERM("varpairs", []);
8129 29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	367	in Thm.instantiate (ctye, varpairs(vars,rev bs)) th end;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	368
a5a9c433f639 Initial revision clasohm parents: diff changeset	369
a5a9c433f639 Initial revision clasohm parents: diff changeset	370	(*Standard form of object-rule: no hypotheses, Frees, or outer quantifiers;
a5a9c433f639 Initial revision clasohm parents: diff changeset	371	all generality expressed by Vars having index 0.*)
10515 8430c8fa8a9f standard: close_derivation; wenzelm parents: 10441 diff changeset	372
8430c8fa8a9f standard: close_derivation; wenzelm parents: 10441 diff changeset	373	fun close_derivation thm =
8430c8fa8a9f standard: close_derivation; wenzelm parents: 10441 diff changeset	374	if Thm.get_name_tags thm = ("", []) then Thm.name_thm ("", thm)
8430c8fa8a9f standard: close_derivation; wenzelm parents: 10441 diff changeset	375	else thm;
8430c8fa8a9f standard: close_derivation; wenzelm parents: 10441 diff changeset	376
11512 da3a96ab5630 Some basic rules are now stored with "open" derivations, to facilitate berghofe parents: 11163 diff changeset	377	fun standard' th =
10515 8430c8fa8a9f standard: close_derivation; wenzelm parents: 10441 diff changeset	378	let val {maxidx,...} = rep_thm th in
8430c8fa8a9f standard: close_derivation; wenzelm parents: 10441 diff changeset	379	th
8430c8fa8a9f standard: close_derivation; wenzelm parents: 10441 diff changeset	380	\|> implies_intr_hyps
8430c8fa8a9f standard: close_derivation; wenzelm parents: 10441 diff changeset	381	\|> forall_intr_frees \|> forall_elim_vars (maxidx + 1)
8430c8fa8a9f standard: close_derivation; wenzelm parents: 10441 diff changeset	382	\|> strip_shyps_warning
11512 da3a96ab5630 Some basic rules are now stored with "open" derivations, to facilitate berghofe parents: 11163 diff changeset	383	\|> zero_var_indexes \|> Thm.varifyT \|> Thm.compress
1218 59ed8ef1a3a1 modified pretty_thm, standard, eq_thm to handle shyps; wenzelm parents: 1194 diff changeset	384	end;
59ed8ef1a3a1 modified pretty_thm, standard, eq_thm to handle shyps; wenzelm parents: 1194 diff changeset	385
11512 da3a96ab5630 Some basic rules are now stored with "open" derivations, to facilitate berghofe parents: 11163 diff changeset	386	val standard = close_derivation o standard';
da3a96ab5630 Some basic rules are now stored with "open" derivations, to facilitate berghofe parents: 11163 diff changeset	387
12005 291593391010 added local_standard; wenzelm parents: 11997 diff changeset	388	fun local_standard th =
12221 cc31140bba16 local_standard: plain strip_shyps instead of strip_shyps_warning; wenzelm parents: 12135 diff changeset	389	th \|> strip_shyps \|> zero_var_indexes
12005 291593391010 added local_standard; wenzelm parents: 11997 diff changeset	390	\|> Thm.compress \|> close_derivation;
291593391010 added local_standard; wenzelm parents: 11997 diff changeset	391
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	392
8328 efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	393	(*Convert all Vars in a theorem to Frees. Also return a function for
4610 b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	394	reversing that operation. DOES NOT WORK FOR TYPE VARIABLES.
b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	395	Similar code in type/freeze_thaw*)
b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	396	fun freeze_thaw th =
7248 322151fe6f02 new primitive rule permute_prems to underlie defer_tac and rotate_prems paulson parents: 6995 diff changeset	397	let val fth = freezeT th
322151fe6f02 new primitive rule permute_prems to underlie defer_tac and rotate_prems paulson parents: 6995 diff changeset	398	val {prop,sign,...} = rep_thm fth
322151fe6f02 new primitive rule permute_prems to underlie defer_tac and rotate_prems paulson parents: 6995 diff changeset	399	in
322151fe6f02 new primitive rule permute_prems to underlie defer_tac and rotate_prems paulson parents: 6995 diff changeset	400	case term_vars prop of
322151fe6f02 new primitive rule permute_prems to underlie defer_tac and rotate_prems paulson parents: 6995 diff changeset	401	[] => (fth, fn x => x)
322151fe6f02 new primitive rule permute_prems to underlie defer_tac and rotate_prems paulson parents: 6995 diff changeset	402	\| vars =>
8328 efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	403	let fun newName (Var(ix,_), (pairs,used)) =
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	404	let val v = variant used (string_of_indexname ix)
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	405	in ((ix,v)::pairs, v::used) end;
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	406	val (alist, _) = foldr newName
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	407	(vars, ([], add_term_names (prop, [])))
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	408	fun mk_inst (Var(v,T)) =
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	409	(cterm_of sign (Var(v,T)),
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	410	cterm_of sign (Free(the (assoc(alist,v)), T)))
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	411	val insts = map mk_inst vars
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	412	fun thaw th' =
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	413	th' \|> forall_intr_list (map #2 insts)
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	414	\|> forall_elim_list (map #1 insts)
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	415	in (Thm.instantiate ([],insts) fth, thaw) end
7248 322151fe6f02 new primitive rule permute_prems to underlie defer_tac and rotate_prems paulson parents: 6995 diff changeset	416	end;
4610 b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	417
b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	418
7248 322151fe6f02 new primitive rule permute_prems to underlie defer_tac and rotate_prems paulson parents: 6995 diff changeset	419	(Rotates a rule's premises to the left by k)
322151fe6f02 new primitive rule permute_prems to underlie defer_tac and rotate_prems paulson parents: 6995 diff changeset	420	val rotate_prems = permute_prems 0;
4610 b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	421
11163 14732e3eaa6e added rearrange_prems oheimb parents: 11120 diff changeset	422	(* permute prems, where the i-th position in the argument list (counting from 0)
14732e3eaa6e added rearrange_prems oheimb parents: 11120 diff changeset	423	gives the position within the original thm to be transferred to position i.
14732e3eaa6e added rearrange_prems oheimb parents: 11120 diff changeset	424	Any remaining trailing positions are left unchanged. *)
14732e3eaa6e added rearrange_prems oheimb parents: 11120 diff changeset	425	val rearrange_prems = let
14732e3eaa6e added rearrange_prems oheimb parents: 11120 diff changeset	426	fun rearr new [] thm = thm
11815 ef7619398680 added implies_intr_goals; wenzelm parents: 11741 diff changeset	427	\| rearr new (p::ps) thm = rearr (new+1)
11163 14732e3eaa6e added rearrange_prems oheimb parents: 11120 diff changeset	428	(map (fn q => if new<=q andalso q<p then q+1 else q) ps)
14732e3eaa6e added rearrange_prems oheimb parents: 11120 diff changeset	429	(permute_prems (new+1) (new-p) (permute_prems new (p-new) thm))
14732e3eaa6e added rearrange_prems oheimb parents: 11120 diff changeset	430	in rearr 0 end;
4610 b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	431
252 7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	432	(*Assume a new formula, read following the same conventions as axioms.
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	433	Generalizes over Free variables,
a5a9c433f639 Initial revision clasohm parents: diff changeset	434	creates the assumption, and then strips quantifiers.
a5a9c433f639 Initial revision clasohm parents: diff changeset	435	Example is [\| ALL x:?A. ?P(x) \|] ==> [\| ?P(?a) \|]
252 7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	436	[ !(A,P,a)[\| ALL x:A. P(x) \|] ==> [\| P(a) \|] ] *)
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	437	fun assume_ax thy sP =
6390 5d58c100ca3f qualify Theory.sign_of etc.; wenzelm parents: 6086 diff changeset	438	let val sign = Theory.sign_of thy
4610 b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	439	val prop = Logic.close_form (term_of (read_cterm sign (sP, propT)))
229 4002c4cd450c Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated lcp parents: 214 diff changeset	440	in forall_elim_vars 0 (assume (cterm_of sign prop)) end;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	441
252 7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	442	(Resolution: exactly one resolvent must be produced.)
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	443	fun tha RSN (i,thb) =
4270 957c887b89b5 changed Sequence interface (now Seq, in seq.ML); wenzelm parents: 4057 diff changeset	444	case Seq.chop (2, biresolution false [(false,tha)] i thb) of
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	445	([th],_) => th
a5a9c433f639 Initial revision clasohm parents: diff changeset	446	\| ([],_) => raise THM("RSN: no unifiers", i, [tha,thb])
a5a9c433f639 Initial revision clasohm parents: diff changeset	447	\| _ => raise THM("RSN: multiple unifiers", i, [tha,thb]);
a5a9c433f639 Initial revision clasohm parents: diff changeset	448
a5a9c433f639 Initial revision clasohm parents: diff changeset	449	(resolution: P==>Q, Q==>R gives P==>R. )
a5a9c433f639 Initial revision clasohm parents: diff changeset	450	fun tha RS thb = tha RSN (1,thb);
a5a9c433f639 Initial revision clasohm parents: diff changeset	451
a5a9c433f639 Initial revision clasohm parents: diff changeset	452	(For joining lists of rules)
252 7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	453	fun thas RLN (i,thbs) =
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	454	let val resolve = biresolution false (map (pair false) thas) i
4270 957c887b89b5 changed Sequence interface (now Seq, in seq.ML); wenzelm parents: 4057 diff changeset	455	fun resb thb = Seq.list_of (resolve thb) handle THM _ => []
2672 85d7e800d754 Replaced "flat" by the Basis Library function List.concat paulson parents: 2266 diff changeset	456	in List.concat (map resb thbs) end;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	457
a5a9c433f639 Initial revision clasohm parents: diff changeset	458	fun thas RL thbs = thas RLN (1,thbs);
a5a9c433f639 Initial revision clasohm parents: diff changeset	459
11 d0e17c42dbb4 Added MRS, MRL from ZF/ROOT.ML. These support forward proof, resolving a lcp parents: 0 diff changeset	460	(*Resolve a list of rules against bottom_rl from right to left;
d0e17c42dbb4 Added MRS, MRL from ZF/ROOT.ML. These support forward proof, resolving a lcp parents: 0 diff changeset	461	makes proof trees*)
252 7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	462	fun rls MRS bottom_rl =
11 d0e17c42dbb4 Added MRS, MRL from ZF/ROOT.ML. These support forward proof, resolving a lcp parents: 0 diff changeset	463	let fun rs_aux i [] = bottom_rl
252 7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	464	\| rs_aux i (rl::rls) = rl RSN (i, rs_aux (i+1) rls)
11 d0e17c42dbb4 Added MRS, MRL from ZF/ROOT.ML. These support forward proof, resolving a lcp parents: 0 diff changeset	465	in rs_aux 1 rls end;
d0e17c42dbb4 Added MRS, MRL from ZF/ROOT.ML. These support forward proof, resolving a lcp parents: 0 diff changeset	466
d0e17c42dbb4 Added MRS, MRL from ZF/ROOT.ML. These support forward proof, resolving a lcp parents: 0 diff changeset	467	(As above, but for rule lists)
252 7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	468	fun rlss MRL bottom_rls =
11 d0e17c42dbb4 Added MRS, MRL from ZF/ROOT.ML. These support forward proof, resolving a lcp parents: 0 diff changeset	469	let fun rs_aux i [] = bottom_rls
252 7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	470	\| rs_aux i (rls::rlss) = rls RLN (i, rs_aux (i+1) rlss)
11 d0e17c42dbb4 Added MRS, MRL from ZF/ROOT.ML. These support forward proof, resolving a lcp parents: 0 diff changeset	471	in rs_aux 1 rlss end;
d0e17c42dbb4 Added MRS, MRL from ZF/ROOT.ML. These support forward proof, resolving a lcp parents: 0 diff changeset	472
9288 06a55195741b infix 'OF' is a version of 'MRS' with more appropriate argument order; wenzelm parents: 8605 diff changeset	473	(A version of MRS with more appropriate argument order)
06a55195741b infix 'OF' is a version of 'MRS' with more appropriate argument order; wenzelm parents: 8605 diff changeset	474	fun bottom_rl OF rls = rls MRS bottom_rl;
06a55195741b infix 'OF' is a version of 'MRS' with more appropriate argument order; wenzelm parents: 8605 diff changeset	475
252 7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	476	(*compose Q and [...,Qi,Q(i+1),...]==>R to [...,Q(i+1),...]==>R
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	477	with no lifting or renaming! Q may contain ==> or meta-quants
a5a9c433f639 Initial revision clasohm parents: diff changeset	478	ALWAYS deletes premise i *)
252 7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	479	fun compose(tha,i,thb) =
4270 957c887b89b5 changed Sequence interface (now Seq, in seq.ML); wenzelm parents: 4057 diff changeset	480	Seq.list_of (bicompose false (false,tha,0) i thb);
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	481
6946 309276732ee1 added compose_single; wenzelm parents: 6930 diff changeset	482	fun compose_single (tha,i,thb) =
309276732ee1 added compose_single; wenzelm parents: 6930 diff changeset	483	(case compose (tha,i,thb) of
309276732ee1 added compose_single; wenzelm parents: 6930 diff changeset	484	[th] => th
309276732ee1 added compose_single; wenzelm parents: 6930 diff changeset	485	\| _ => raise THM ("compose: unique result expected", i, [tha,thb]));
309276732ee1 added compose_single; wenzelm parents: 6930 diff changeset	486
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	487	(compose Q and [Q1,Q2,...,Qk]==>R to [Q2,...,Qk]==>R getting unique result)
a5a9c433f639 Initial revision clasohm parents: diff changeset	488	fun tha COMP thb =
a5a9c433f639 Initial revision clasohm parents: diff changeset	489	case compose(tha,1,thb) of
252 7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	490	[th] => th
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	491	\| _ => raise THM("COMP", 1, [tha,thb]);
a5a9c433f639 Initial revision clasohm parents: diff changeset	492
4016 90aebb69c04e eq_thm moved to thm.ML; wenzelm parents: 3991 diff changeset	493	( theorem equality )
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	494
a5a9c433f639 Initial revision clasohm parents: diff changeset	495	(Do the two theorems have the same signature?)
252 7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	496	fun eq_thm_sg (th1,th2) = Sign.eq_sg(#sign(rep_thm th1), #sign(rep_thm th2));
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	497
a5a9c433f639 Initial revision clasohm parents: diff changeset	498	(Useful "distance" function for BEST_FIRST)
12800 abcf9fd6ee65 added is_norm_hhf (from logic.ML); wenzelm parents: 12756 diff changeset	499	val size_of_thm = size_of_term o prop_of;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	500
9829 bf49c3796599 added add_rules, del_rules; wenzelm parents: 9554 diff changeset	501	(maintain lists of theorems --- preserving canonical order)
bf49c3796599 added add_rules, del_rules; wenzelm parents: 9554 diff changeset	502	fun del_rules rs rules = Library.gen_rems Thm.eq_thm (rules, rs);
9862 96138f29545e improved add_rules; wenzelm parents: 9829 diff changeset	503	fun add_rules rs rules = rs @ del_rules rs rules;
12373 704e50ab65af added add_rule, del_rule; wenzelm parents: 12297 diff changeset	504	val del_rule = del_rules o single;
704e50ab65af added add_rule, del_rule; wenzelm parents: 12297 diff changeset	505	val add_rule = add_rules o single;
12283 d42aa776889e gen_merge_lists'; wenzelm parents: 12221 diff changeset	506	fun merge_rules (rules1, rules2) = gen_merge_lists' Thm.eq_thm rules1 rules2;
9829 bf49c3796599 added add_rules, del_rules; wenzelm parents: 9554 diff changeset	507
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	508
1194 563ecd14c1d8 Added weak_eq_thm and forall_intr_vars (thanks to Mark Staples) lcp parents: 952 diff changeset	509	(** Mark Staples's weaker version of eq_thm: ignores variable renaming and
563ecd14c1d8 Added weak_eq_thm and forall_intr_vars (thanks to Mark Staples) lcp parents: 952 diff changeset	510	(some) type variable renaming **)
563ecd14c1d8 Added weak_eq_thm and forall_intr_vars (thanks to Mark Staples) lcp parents: 952 diff changeset	511
563ecd14c1d8 Added weak_eq_thm and forall_intr_vars (thanks to Mark Staples) lcp parents: 952 diff changeset	512	(* Can't use term_vars, because it sorts the resulting list of variable names.
563ecd14c1d8 Added weak_eq_thm and forall_intr_vars (thanks to Mark Staples) lcp parents: 952 diff changeset	513	We instead need the unique list noramlised by the order of appearance
563ecd14c1d8 Added weak_eq_thm and forall_intr_vars (thanks to Mark Staples) lcp parents: 952 diff changeset	514	in the term. *)
563ecd14c1d8 Added weak_eq_thm and forall_intr_vars (thanks to Mark Staples) lcp parents: 952 diff changeset	515	fun term_vars' (t as Var(v,T)) = [t]
563ecd14c1d8 Added weak_eq_thm and forall_intr_vars (thanks to Mark Staples) lcp parents: 952 diff changeset	516	\| term_vars' (Abs(_,_,b)) = term_vars' b
563ecd14c1d8 Added weak_eq_thm and forall_intr_vars (thanks to Mark Staples) lcp parents: 952 diff changeset	517	\| term_vars' (f$a) = (term_vars' f) @ (term_vars' a)
563ecd14c1d8 Added weak_eq_thm and forall_intr_vars (thanks to Mark Staples) lcp parents: 952 diff changeset	518	\| term_vars' _ = [];
563ecd14c1d8 Added weak_eq_thm and forall_intr_vars (thanks to Mark Staples) lcp parents: 952 diff changeset	519
563ecd14c1d8 Added weak_eq_thm and forall_intr_vars (thanks to Mark Staples) lcp parents: 952 diff changeset	520	fun forall_intr_vars th =
563ecd14c1d8 Added weak_eq_thm and forall_intr_vars (thanks to Mark Staples) lcp parents: 952 diff changeset	521	let val {prop,sign,...} = rep_thm th;
563ecd14c1d8 Added weak_eq_thm and forall_intr_vars (thanks to Mark Staples) lcp parents: 952 diff changeset	522	val vars = distinct (term_vars' prop);
563ecd14c1d8 Added weak_eq_thm and forall_intr_vars (thanks to Mark Staples) lcp parents: 952 diff changeset	523	in forall_intr_list (map (cterm_of sign) vars) th end;
563ecd14c1d8 Added weak_eq_thm and forall_intr_vars (thanks to Mark Staples) lcp parents: 952 diff changeset	524
1237 45ac644b0052 adapted to new version of shyps-stuff; wenzelm parents: 1218 diff changeset	525	fun weak_eq_thm (tha,thb) =
1194 563ecd14c1d8 Added weak_eq_thm and forall_intr_vars (thanks to Mark Staples) lcp parents: 952 diff changeset	526	eq_thm(forall_intr_vars (freezeT tha), forall_intr_vars (freezeT thb));
563ecd14c1d8 Added weak_eq_thm and forall_intr_vars (thanks to Mark Staples) lcp parents: 952 diff changeset	527
563ecd14c1d8 Added weak_eq_thm and forall_intr_vars (thanks to Mark Staples) lcp parents: 952 diff changeset	528
563ecd14c1d8 Added weak_eq_thm and forall_intr_vars (thanks to Mark Staples) lcp parents: 952 diff changeset	529
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	530	(* Meta-Rewriting Rules *)
a5a9c433f639 Initial revision clasohm parents: diff changeset	531
4610 b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	532	fun read_prop s = read_cterm proto_sign (s, propT);
b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	533
9455 f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	534	fun store_thm name thm = hd (PureThy.smart_store_thms (name, [thm]));
f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	535	fun store_standard_thm name thm = store_thm name (standard thm);
12135 e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	536	fun store_thm_open name thm = hd (PureThy.smart_store_thms_open (name, [thm]));
e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	537	fun store_standard_thm_open name thm = store_thm_open name (standard' thm);
4016 90aebb69c04e eq_thm moved to thm.ML; wenzelm parents: 3991 diff changeset	538
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	539	val reflexive_thm =
4610 b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	540	let val cx = cterm_of proto_sign (Var(("x",0),TVar(("'a",0),logicS)))
12135 e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	541	in store_standard_thm_open "reflexive" (Thm.reflexive cx) end;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	542
a5a9c433f639 Initial revision clasohm parents: diff changeset	543	val symmetric_thm =
4610 b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	544	let val xy = read_prop "x::'a::logic == y"
12135 e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	545	in store_standard_thm_open "symmetric" (Thm.implies_intr_hyps (Thm.symmetric (Thm.assume xy))) end;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	546
a5a9c433f639 Initial revision clasohm parents: diff changeset	547	val transitive_thm =
4610 b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	548	let val xy = read_prop "x::'a::logic == y"
b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	549	val yz = read_prop "y::'a::logic == z"
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	550	val xythm = Thm.assume xy and yzthm = Thm.assume yz
12135 e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	551	in store_standard_thm_open "transitive" (Thm.implies_intr yz (Thm.transitive xythm yzthm)) end;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	552
4679 24917efb31b5 Reorganized simplifier. May now reorient rules. nipkow parents: 4610 diff changeset	553	fun symmetric_fun thm = thm RS symmetric_thm;
24917efb31b5 Reorganized simplifier. May now reorient rules. nipkow parents: 4610 diff changeset	554
11512 da3a96ab5630 Some basic rules are now stored with "open" derivations, to facilitate berghofe parents: 11163 diff changeset	555	fun extensional eq =
da3a96ab5630 Some basic rules are now stored with "open" derivations, to facilitate berghofe parents: 11163 diff changeset	556	let val eq' =
da3a96ab5630 Some basic rules are now stored with "open" derivations, to facilitate berghofe parents: 11163 diff changeset	557	abstract_rule "x" (snd (Thm.dest_comb (fst (dest_equals (cprop_of eq))))) eq
da3a96ab5630 Some basic rules are now stored with "open" derivations, to facilitate berghofe parents: 11163 diff changeset	558	in equal_elim (eta_conversion (cprop_of eq')) eq' end;
da3a96ab5630 Some basic rules are now stored with "open" derivations, to facilitate berghofe parents: 11163 diff changeset	559
10414 f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	560	val imp_cong =
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	561	let
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	562	val ABC = read_prop "PROP A ==> PROP B == PROP C"
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	563	val AB = read_prop "PROP A ==> PROP B"
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	564	val AC = read_prop "PROP A ==> PROP C"
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	565	val A = read_prop "PROP A"
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	566	in
12135 e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	567	store_standard_thm_open "imp_cong" (implies_intr ABC (equal_intr
10414 f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	568	(implies_intr AB (implies_intr A
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	569	(equal_elim (implies_elim (assume ABC) (assume A))
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	570	(implies_elim (assume AB) (assume A)))))
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	571	(implies_intr AC (implies_intr A
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	572	(equal_elim (symmetric (implies_elim (assume ABC) (assume A)))
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	573	(implies_elim (assume AC) (assume A)))))))
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	574	end;
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	575
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	576	val swap_prems_eq =
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	577	let
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	578	val ABC = read_prop "PROP A ==> PROP B ==> PROP C"
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	579	val BAC = read_prop "PROP B ==> PROP A ==> PROP C"
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	580	val A = read_prop "PROP A"
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	581	val B = read_prop "PROP B"
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	582	in
12135 e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	583	store_standard_thm_open "swap_prems_eq" (equal_intr
10414 f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	584	(implies_intr ABC (implies_intr B (implies_intr A
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	585	(implies_elim (implies_elim (assume ABC) (assume A)) (assume B)))))
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	586	(implies_intr BAC (implies_intr A (implies_intr B
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	587	(implies_elim (implies_elim (assume BAC) (assume B)) (assume A))))))
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	588	end;
229 4002c4cd450c Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated lcp parents: 214 diff changeset	589
9547 8dad21f06b24 more cterm operations: mk_implies, list_implies paulson parents: 9460 diff changeset	590	val refl_implies = reflexive implies;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	591
a5a9c433f639 Initial revision clasohm parents: diff changeset	592
a5a9c433f639 Initial revision clasohm parents: diff changeset	593	(* Some useful meta-theorems *)
a5a9c433f639 Initial revision clasohm parents: diff changeset	594
a5a9c433f639 Initial revision clasohm parents: diff changeset	595	(The rule V/V, obtains assumption solving for eresolve_tac)
12135 e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	596	val asm_rl = store_standard_thm_open "asm_rl" (Thm.trivial (read_prop "PROP ?psi"));
7380 2bcee6a460d8 thm "_" = asm_rl; wenzelm parents: 7248 diff changeset	597	val _ = store_thm "_" asm_rl;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	598
a5a9c433f639 Initial revision clasohm parents: diff changeset	599	(Meta-level cut rule: [\| V==>W; V \|] ==> W )
4016 90aebb69c04e eq_thm moved to thm.ML; wenzelm parents: 3991 diff changeset	600	val cut_rl =
12135 e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	601	store_standard_thm_open "cut_rl"
9455 f23722b4fbe7 export has_internal; wenzelm parents: 9418 diff changeset	602	(Thm.trivial (read_prop "PROP ?psi ==> PROP ?theta"));
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	603
252 7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	604	(*Generalized elim rule for one conclusion; cut_rl with reversed premises:
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	605	[\| PROP V; PROP V ==> PROP W \|] ==> PROP W *)
a5a9c433f639 Initial revision clasohm parents: diff changeset	606	val revcut_rl =
4610 b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	607	let val V = read_prop "PROP V"
b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	608	and VW = read_prop "PROP V ==> PROP W";
4016 90aebb69c04e eq_thm moved to thm.ML; wenzelm parents: 3991 diff changeset	609	in
12135 e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	610	store_standard_thm_open "revcut_rl"
4016 90aebb69c04e eq_thm moved to thm.ML; wenzelm parents: 3991 diff changeset	611	(implies_intr V (implies_intr VW (implies_elim (assume VW) (assume V))))
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	612	end;
a5a9c433f639 Initial revision clasohm parents: diff changeset	613
668 0d0923eb0f0d Pure/drule/thin_rl: new lcp parents: 655 diff changeset	614	(for deleting an unwanted assumption)
0d0923eb0f0d Pure/drule/thin_rl: new lcp parents: 655 diff changeset	615	val thin_rl =
4610 b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	616	let val V = read_prop "PROP V"
b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	617	and W = read_prop "PROP W";
12135 e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	618	in store_standard_thm_open "thin_rl" (implies_intr V (implies_intr W (assume W))) end;
668 0d0923eb0f0d Pure/drule/thin_rl: new lcp parents: 655 diff changeset	619
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	620	(* (!!x. PROP ?V) == PROP ?V Allows removal of redundant parameters*)
a5a9c433f639 Initial revision clasohm parents: diff changeset	621	val triv_forall_equality =
4610 b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	622	let val V = read_prop "PROP V"
b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	623	and QV = read_prop "!!x::'a. PROP V"
8086 78e254305ae6 TypeInfer.logicT; wenzelm parents: 7898 diff changeset	624	and x = read_cterm proto_sign ("x", TypeInfer.logicT);
4016 90aebb69c04e eq_thm moved to thm.ML; wenzelm parents: 3991 diff changeset	625	in
12135 e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	626	store_standard_thm_open "triv_forall_equality"
11512 da3a96ab5630 Some basic rules are now stored with "open" derivations, to facilitate berghofe parents: 11163 diff changeset	627	(equal_intr (implies_intr QV (forall_elim x (assume QV)))
da3a96ab5630 Some basic rules are now stored with "open" derivations, to facilitate berghofe parents: 11163 diff changeset	628	(implies_intr V (forall_intr x (assume V))))
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	629	end;
a5a9c433f639 Initial revision clasohm parents: diff changeset	630
1756 978ee7ededdd Added swap_prems_rl nipkow parents: 1703 diff changeset	631	(* (PROP ?PhiA ==> PROP ?PhiB ==> PROP ?Psi) ==>
978ee7ededdd Added swap_prems_rl nipkow parents: 1703 diff changeset	632	(PROP ?PhiB ==> PROP ?PhiA ==> PROP ?Psi)
978ee7ededdd Added swap_prems_rl nipkow parents: 1703 diff changeset	633	`thm COMP swap_prems_rl' swaps the first two premises of `thm'
978ee7ededdd Added swap_prems_rl nipkow parents: 1703 diff changeset	634	*)
978ee7ededdd Added swap_prems_rl nipkow parents: 1703 diff changeset	635	val swap_prems_rl =
4610 b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	636	let val cmajor = read_prop "PROP PhiA ==> PROP PhiB ==> PROP Psi";
1756 978ee7ededdd Added swap_prems_rl nipkow parents: 1703 diff changeset	637	val major = assume cmajor;
4610 b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	638	val cminor1 = read_prop "PROP PhiA";
1756 978ee7ededdd Added swap_prems_rl nipkow parents: 1703 diff changeset	639	val minor1 = assume cminor1;
4610 b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	640	val cminor2 = read_prop "PROP PhiB";
1756 978ee7ededdd Added swap_prems_rl nipkow parents: 1703 diff changeset	641	val minor2 = assume cminor2;
12135 e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	642	in store_standard_thm_open "swap_prems_rl"
1756 978ee7ededdd Added swap_prems_rl nipkow parents: 1703 diff changeset	643	(implies_intr cmajor (implies_intr cminor2 (implies_intr cminor1
978ee7ededdd Added swap_prems_rl nipkow parents: 1703 diff changeset	644	(implies_elim (implies_elim major minor1) minor2))))
978ee7ededdd Added swap_prems_rl nipkow parents: 1703 diff changeset	645	end;
978ee7ededdd Added swap_prems_rl nipkow parents: 1703 diff changeset	646
3653 6d5b3d5ff132 Added Larry's equal_intr_rule nipkow parents: 3575 diff changeset	647	(* [\| PROP ?phi ==> PROP ?psi; PROP ?psi ==> PROP ?phi \|]
6d5b3d5ff132 Added Larry's equal_intr_rule nipkow parents: 3575 diff changeset	648	==> PROP ?phi == PROP ?psi
8328 efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	649	Introduction rule for == as a meta-theorem.
3653 6d5b3d5ff132 Added Larry's equal_intr_rule nipkow parents: 3575 diff changeset	650	*)
6d5b3d5ff132 Added Larry's equal_intr_rule nipkow parents: 3575 diff changeset	651	val equal_intr_rule =
4610 b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	652	let val PQ = read_prop "PROP phi ==> PROP psi"
b1322be47244 Tidying; rotate_prems; moved freeze_thaw from tactic.ML paulson parents: 4588 diff changeset	653	and QP = read_prop "PROP psi ==> PROP phi"
4016 90aebb69c04e eq_thm moved to thm.ML; wenzelm parents: 3991 diff changeset	654	in
12135 e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	655	store_standard_thm_open "equal_intr_rule"
4016 90aebb69c04e eq_thm moved to thm.ML; wenzelm parents: 3991 diff changeset	656	(implies_intr PQ (implies_intr QP (equal_intr (assume PQ) (assume QP))))
3653 6d5b3d5ff132 Added Larry's equal_intr_rule nipkow parents: 3575 diff changeset	657	end;
6d5b3d5ff132 Added Larry's equal_intr_rule nipkow parents: 3575 diff changeset	658
4285 05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	659
12297 2ce7b42b0a64 added remdups_rl; wenzelm parents: 12283 diff changeset	660	(* "[\| PROP ?phi; PROP ?phi; PROP ?psi \|] ==> PROP ?psi" *)
2ce7b42b0a64 added remdups_rl; wenzelm parents: 12283 diff changeset	661
2ce7b42b0a64 added remdups_rl; wenzelm parents: 12283 diff changeset	662	val remdups_rl =
2ce7b42b0a64 added remdups_rl; wenzelm parents: 12283 diff changeset	663	let val P = read_prop "PROP phi" and Q = read_prop "PROP psi";
2ce7b42b0a64 added remdups_rl; wenzelm parents: 12283 diff changeset	664	in store_standard_thm_open "remdups_rl" (implies_intr_list [P, P, Q] (Thm.assume Q)) end;
2ce7b42b0a64 added remdups_rl; wenzelm parents: 12283 diff changeset	665
2ce7b42b0a64 added remdups_rl; wenzelm parents: 12283 diff changeset	666
9554 1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	667	(*(PROP ?phi ==> (!!x. PROP ?psi(x))) == (!!x. PROP ?phi ==> PROP ?psi(x))
12297 2ce7b42b0a64 added remdups_rl; wenzelm parents: 12283 diff changeset	668	Rewrite rule for HHF normalization.*)
9554 1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	669
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	670	val norm_hhf_eq =
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	671	let
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	672	val cert = Thm.cterm_of proto_sign;
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	673	val aT = TFree ("'a", Term.logicS);
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	674	val all = Term.all aT;
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	675	val x = Free ("x", aT);
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	676	val phi = Free ("phi", propT);
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	677	val psi = Free ("psi", aT --> propT);
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	678
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	679	val cx = cert x;
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	680	val cphi = cert phi;
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	681	val lhs = cert (Logic.mk_implies (phi, all $ Abs ("x", aT, psi $ Bound 0)));
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	682	val rhs = cert (all $ Abs ("x", aT, Logic.mk_implies (phi, psi $ Bound 0)));
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	683	in
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	684	Thm.equal_intr
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	685	(Thm.implies_elim (Thm.assume lhs) (Thm.assume cphi)
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	686	\|> Thm.forall_elim cx
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	687	\|> Thm.implies_intr cphi
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	688	\|> Thm.forall_intr cx
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	689	\|> Thm.implies_intr lhs)
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	690	(Thm.implies_elim
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	691	(Thm.assume rhs \|> Thm.forall_elim cx) (Thm.assume cphi)
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	692	\|> Thm.forall_intr cx
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	693	\|> Thm.implies_intr cphi
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	694	\|> Thm.implies_intr rhs)
12135 e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	695	\|> store_standard_thm_open "norm_hhf_eq"
9554 1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	696	end;
1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	697
12800 abcf9fd6ee65 added is_norm_hhf (from logic.ML); wenzelm parents: 12756 diff changeset	698	fun is_norm_hhf tm =
abcf9fd6ee65 added is_norm_hhf (from logic.ML); wenzelm parents: 12756 diff changeset	699	let
abcf9fd6ee65 added is_norm_hhf (from logic.ML); wenzelm parents: 12756 diff changeset	700	fun is_norm (Const ("==>", _) $ _ $ (Const ("all", _) $ _)) = false
abcf9fd6ee65 added is_norm_hhf (from logic.ML); wenzelm parents: 12756 diff changeset	701	\| is_norm (t $ u) = is_norm t andalso is_norm u
abcf9fd6ee65 added is_norm_hhf (from logic.ML); wenzelm parents: 12756 diff changeset	702	\| is_norm (Abs (_, _, t)) = is_norm t
abcf9fd6ee65 added is_norm_hhf (from logic.ML); wenzelm parents: 12756 diff changeset	703	\| is_norm _ = true;
abcf9fd6ee65 added is_norm_hhf (from logic.ML); wenzelm parents: 12756 diff changeset	704	in is_norm (Pattern.beta_eta_contract tm) end;
abcf9fd6ee65 added is_norm_hhf (from logic.ML); wenzelm parents: 12756 diff changeset	705
abcf9fd6ee65 added is_norm_hhf (from logic.ML); wenzelm parents: 12756 diff changeset	706	fun norm_hhf sg t =
abcf9fd6ee65 added is_norm_hhf (from logic.ML); wenzelm parents: 12756 diff changeset	707	if is_norm_hhf t then t
abcf9fd6ee65 added is_norm_hhf (from logic.ML); wenzelm parents: 12756 diff changeset	708	else Pattern.rewrite_term (Sign.tsig_of sg) [Logic.dest_equals (prop_of norm_hhf_eq)] t;
abcf9fd6ee65 added is_norm_hhf (from logic.ML); wenzelm parents: 12756 diff changeset	709
9554 1b0f02abbde8 added forall_elim_vars_safe, norm_hhf_eq; wenzelm parents: 9547 diff changeset	710
8129 29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	711	(* Instantiate theorem th, reading instantiations under signature sg **)
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	712
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	713	(Version that normalizes the result: Thm.instantiate no longer does that)
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	714	fun instantiate instpair th = Thm.instantiate instpair th COMP asm_rl;
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	715
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	716	fun read_instantiate_sg sg sinsts th =
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	717	let val ts = types_sorts th;
12800 abcf9fd6ee65 added is_norm_hhf (from logic.ML); wenzelm parents: 12756 diff changeset	718	val used = add_term_tvarnames (prop_of th, []);
8129 29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	719	in instantiate (read_insts sg ts ts used sinsts) th end;
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	720
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	721	(Instantiate theorem th, reading instantiations under theory of th)
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	722	fun read_instantiate sinsts th =
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	723	read_instantiate_sg (#sign (rep_thm th)) sinsts th;
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	724
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	725
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	726	(*Left-to-right replacements: tpairs = [...,(vi,ti),...].
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	727	Instantiates distinct Vars by terms, inferring type instantiations. *)
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	728	local
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	729	fun add_types ((ct,cu), (sign,tye,maxidx)) =
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	730	let val {sign=signt, t=t, T= T, maxidx=maxt,...} = rep_cterm ct
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	731	and {sign=signu, t=u, T= U, maxidx=maxu,...} = rep_cterm cu;
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	732	val maxi = Int.max(maxidx, Int.max(maxt, maxu));
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	733	val sign' = Sign.merge(sign, Sign.merge(signt, signu))
12527 d6c91bc3e49c tuned Type.unify; wenzelm parents: 12495 diff changeset	734	val (tye',maxi') = Type.unify (#tsig(Sign.rep_sg sign')) (tye, maxi) (T, U)
10403 2955ee2424ce Sign.typ_instance; wenzelm parents: 9862 diff changeset	735	handle Type.TUNIFY => raise TYPE("Ill-typed instantiation", [T,U], [t,u])
8129 29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	736	in (sign', tye', maxi') end;
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	737	in
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	738	fun cterm_instantiate ctpairs0 th =
8406 a217b0cd304d Type.unify and Type.typ_match now use Vartab instead of association lists. berghofe parents: 8365 diff changeset	739	let val (sign,tye,_) = foldr add_types (ctpairs0, (#sign(rep_thm th), Vartab.empty, 0))
a217b0cd304d Type.unify and Type.typ_match now use Vartab instead of association lists. berghofe parents: 8365 diff changeset	740	fun instT(ct,cu) = let val inst = subst_TVars_Vartab tye
8129 29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	741	in (cterm_fun inst ct, cterm_fun inst cu) end
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	742	fun ctyp2 (ix,T) = (ix, ctyp_of sign T)
8406 a217b0cd304d Type.unify and Type.typ_match now use Vartab instead of association lists. berghofe parents: 8365 diff changeset	743	in instantiate (map ctyp2 (Vartab.dest tye), map instT ctpairs0) th end
8129 29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	744	handle TERM _ =>
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	745	raise THM("cterm_instantiate: incompatible signatures",0,[th])
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	746	\| TYPE (msg, _, _) => raise THM(msg, 0, [th])
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	747	end;
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	748
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	749
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	750	( Derived rules mainly for METAHYPS )
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	751
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	752	(Given the term "a", takes (%x.t)==(%x.u) to t[a/x]==u[a/x])
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	753	fun equal_abs_elim ca eqth =
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	754	let val {sign=signa, t=a, ...} = rep_cterm ca
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	755	and combth = combination eqth (reflexive ca)
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	756	val {sign,prop,...} = rep_thm eqth
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	757	val (abst,absu) = Logic.dest_equals prop
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	758	val cterm = cterm_of (Sign.merge (sign,signa))
10414 f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	759	in transitive (symmetric (beta_conversion false (cterm (abst$a))))
f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	760	(transitive combth (beta_conversion false (cterm (absu$a))))
8129 29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	761	end
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	762	handle THM _ => raise THM("equal_abs_elim", 0, [eqth]);
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	763
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	764	(Calling equal_abs_elim with multiple terms)
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	765	fun equal_abs_elim_list cts th = foldr (uncurry equal_abs_elim) (rev cts, th);
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	766
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	767	local
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	768	val alpha = TVar(("'a",0), []) (* type ?'a::{} *)
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	769	fun err th = raise THM("flexpair_inst: ", 0, [th])
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	770	fun flexpair_inst def th =
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	771	let val {prop = Const _ $ t $ u, sign,...} = rep_thm th
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	772	val cterm = cterm_of sign
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	773	fun cvar a = cterm(Var((a,0),alpha))
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	774	val def' = cterm_instantiate [(cvar"t", cterm t), (cvar"u", cterm u)]
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	775	def
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	776	in equal_elim def' th
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	777	end
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	778	handle THM _ => err th \| Bind => err th
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	779	in
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	780	val flexpair_intr = flexpair_inst (symmetric ProtoPure.flexpair_def)
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	781	and flexpair_elim = flexpair_inst ProtoPure.flexpair_def
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	782	end;
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	783
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	784	(Version for flexflex pairs -- this supports lifting.)
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	785	fun flexpair_abs_elim_list cts =
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	786	flexpair_intr o equal_abs_elim_list cts o flexpair_elim;
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	787
29e239c7b8c2 Thm.instantiate no longer normalizes, but Drule.instantiate does paulson parents: 8086 diff changeset	788
10667 75a1c9575edb eliminated GOAL syntax; wenzelm parents: 10515 diff changeset	789	(* Goal (PROP A) <==> PROP A *)
4789 9cf0073bbe2b added triv_goal, rev_triv_goal (for Isar); wenzelm parents: 4713 diff changeset	790
9cf0073bbe2b added triv_goal, rev_triv_goal (for Isar); wenzelm parents: 4713 diff changeset	791	local
10667 75a1c9575edb eliminated GOAL syntax; wenzelm parents: 10515 diff changeset	792	val cert = Thm.cterm_of proto_sign;
75a1c9575edb eliminated GOAL syntax; wenzelm parents: 10515 diff changeset	793	val A = Free ("A", propT);
75a1c9575edb eliminated GOAL syntax; wenzelm parents: 10515 diff changeset	794	val G = Logic.mk_goal A;
4789 9cf0073bbe2b added triv_goal, rev_triv_goal (for Isar); wenzelm parents: 4713 diff changeset	795	val (G_def, _) = freeze_thaw ProtoPure.Goal_def;
9cf0073bbe2b added triv_goal, rev_triv_goal (for Isar); wenzelm parents: 4713 diff changeset	796	in
11741 470e608d7a74 generic theorem kinds ("theorem", "lemma" etc.); wenzelm parents: 11512 diff changeset	797	val triv_goal = store_thm "triv_goal" (kind_rule internalK (standard
10667 75a1c9575edb eliminated GOAL syntax; wenzelm parents: 10515 diff changeset	798	(Thm.equal_elim (Thm.symmetric G_def) (Thm.assume (cert A)))));
11741 470e608d7a74 generic theorem kinds ("theorem", "lemma" etc.); wenzelm parents: 11512 diff changeset	799	val rev_triv_goal = store_thm "rev_triv_goal" (kind_rule internalK (standard
10667 75a1c9575edb eliminated GOAL syntax; wenzelm parents: 10515 diff changeset	800	(Thm.equal_elim G_def (Thm.assume (cert G)))));
4789 9cf0073bbe2b added triv_goal, rev_triv_goal (for Isar); wenzelm parents: 4713 diff changeset	801	end;
9cf0073bbe2b added triv_goal, rev_triv_goal (for Isar); wenzelm parents: 4713 diff changeset	802
9460 53d7ad5bec39 Logic.goal_const; wenzelm parents: 9455 diff changeset	803	val mk_cgoal = Thm.capply (Thm.cterm_of proto_sign Logic.goal_const);
6995 d824a86266a9 added mk_cgoal, assume_goal; wenzelm parents: 6946 diff changeset	804	fun assume_goal ct = Thm.assume (mk_cgoal ct) RS rev_triv_goal;
d824a86266a9 added mk_cgoal, assume_goal; wenzelm parents: 6946 diff changeset	805
11815 ef7619398680 added implies_intr_goals; wenzelm parents: 11741 diff changeset	806	fun implies_intr_goals cprops thm =
ef7619398680 added implies_intr_goals; wenzelm parents: 11741 diff changeset	807	implies_elim_list (implies_intr_list cprops thm) (map assume_goal cprops)
ef7619398680 added implies_intr_goals; wenzelm parents: 11741 diff changeset	808	\|> implies_intr_list (map mk_cgoal cprops);
ef7619398680 added implies_intr_goals; wenzelm parents: 11741 diff changeset	809
4789 9cf0073bbe2b added triv_goal, rev_triv_goal (for Isar); wenzelm parents: 4713 diff changeset	810
4285 05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	811
5688 7f582495967c added unvarify(T); wenzelm parents: 5311 diff changeset	812	( variations on instantiate )
4285 05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	813
8550 b44c185f8018 new meta-rule "inst", a shorthand for read_instantiate_sg paulson parents: 8496 diff changeset	814	(shorthand for instantiating just one variable in the current theory)
b44c185f8018 new meta-rule "inst", a shorthand for read_instantiate_sg paulson parents: 8496 diff changeset	815	fun inst x t = read_instantiate_sg (sign_of (the_context())) [(x,t)];
b44c185f8018 new meta-rule "inst", a shorthand for read_instantiate_sg paulson parents: 8496 diff changeset	816
b44c185f8018 new meta-rule "inst", a shorthand for read_instantiate_sg paulson parents: 8496 diff changeset	817
12495 89f97fa683f5 export add_tvarsT etc.; wenzelm parents: 12373 diff changeset	818	(* collect vars in left-to-right order *)
4285 05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	819
12495 89f97fa683f5 export add_tvarsT etc.; wenzelm parents: 12373 diff changeset	820	fun tvars_of_terms ts = rev (foldl Term.add_tvars ([], ts));
89f97fa683f5 export add_tvarsT etc.; wenzelm parents: 12373 diff changeset	821	fun vars_of_terms ts = rev (foldl Term.add_vars ([], ts));
5903 5d9beee36fbe export vars_of and friends; wenzelm parents: 5688 diff changeset	822
12800 abcf9fd6ee65 added is_norm_hhf (from logic.ML); wenzelm parents: 12756 diff changeset	823	fun tvars_of thm = tvars_of_terms [prop_of thm];
abcf9fd6ee65 added is_norm_hhf (from logic.ML); wenzelm parents: 12756 diff changeset	824	fun vars_of thm = vars_of_terms [prop_of thm];
4285 05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	825
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	826
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	827	(* instantiate by left-to-right occurrence of variables *)
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	828
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	829	fun instantiate' cTs cts thm =
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	830	let
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	831	fun err msg =
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	832	raise TYPE ("instantiate': " ^ msg,
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	833	mapfilter (apsome Thm.typ_of) cTs,
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	834	mapfilter (apsome Thm.term_of) cts);
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	835
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	836	fun inst_of (v, ct) =
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	837	(Thm.cterm_of (#sign (Thm.rep_cterm ct)) (Var v), ct)
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	838	handle TYPE (msg, _, _) => err msg;
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	839
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	840	fun zip_vars _ [] = []
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	841	\| zip_vars (_ :: vs) (None :: opt_ts) = zip_vars vs opt_ts
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	842	\| zip_vars (v :: vs) (Some t :: opt_ts) = (v, t) :: zip_vars vs opt_ts
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	843	\| zip_vars [] _ = err "more instantiations than variables in thm";
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	844
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	845	(instantiate types first!)
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	846	val thm' =
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	847	if forall is_none cTs then thm
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	848	else Thm.instantiate (zip_vars (map fst (tvars_of thm)) cTs, []) thm;
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	849	in
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	850	if forall is_none cts then thm'
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	851	else Thm.instantiate ([], map inst_of (zip_vars (vars_of thm') cts)) thm'
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	852	end;
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	853
05af145a61d4 cleaned signature; wenzelm parents: 4281 diff changeset	854
5688 7f582495967c added unvarify(T); wenzelm parents: 5311 diff changeset	855	(* unvarify(T) *)
7f582495967c added unvarify(T); wenzelm parents: 5311 diff changeset	856
7f582495967c added unvarify(T); wenzelm parents: 5311 diff changeset	857	(assume thm in standard form, i.e. no frees, 0 var indexes)
7f582495967c added unvarify(T); wenzelm parents: 5311 diff changeset	858
7f582495967c added unvarify(T); wenzelm parents: 5311 diff changeset	859	fun unvarifyT thm =
7f582495967c added unvarify(T); wenzelm parents: 5311 diff changeset	860	let
7f582495967c added unvarify(T); wenzelm parents: 5311 diff changeset	861	val cT = Thm.ctyp_of (Thm.sign_of_thm thm);
7f582495967c added unvarify(T); wenzelm parents: 5311 diff changeset	862	val tfrees = map (fn ((x, _), S) => Some (cT (TFree (x, S)))) (tvars_of thm);
7f582495967c added unvarify(T); wenzelm parents: 5311 diff changeset	863	in instantiate' tfrees [] thm end;
7f582495967c added unvarify(T); wenzelm parents: 5311 diff changeset	864
7f582495967c added unvarify(T); wenzelm parents: 5311 diff changeset	865	fun unvarify raw_thm =
7f582495967c added unvarify(T); wenzelm parents: 5311 diff changeset	866	let
7f582495967c added unvarify(T); wenzelm parents: 5311 diff changeset	867	val thm = unvarifyT raw_thm;
7f582495967c added unvarify(T); wenzelm parents: 5311 diff changeset	868	val ct = Thm.cterm_of (Thm.sign_of_thm thm);
7f582495967c added unvarify(T); wenzelm parents: 5311 diff changeset	869	val frees = map (fn ((x, _), T) => Some (ct (Free (x, T)))) (vars_of thm);
7f582495967c added unvarify(T); wenzelm parents: 5311 diff changeset	870	in instantiate' [] frees thm end;
7f582495967c added unvarify(T); wenzelm parents: 5311 diff changeset	871
7f582495967c added unvarify(T); wenzelm parents: 5311 diff changeset	872
8605 625fbbe5c6b4 added tvars_intr_list; wenzelm parents: 8550 diff changeset	873	(* tvars_intr_list *)
625fbbe5c6b4 added tvars_intr_list; wenzelm parents: 8550 diff changeset	874
625fbbe5c6b4 added tvars_intr_list; wenzelm parents: 8550 diff changeset	875	fun tfrees_of thm =
625fbbe5c6b4 added tvars_intr_list; wenzelm parents: 8550 diff changeset	876	let val {hyps, prop, ...} = Thm.rep_thm thm
625fbbe5c6b4 added tvars_intr_list; wenzelm parents: 8550 diff changeset	877	in foldr Term.add_term_tfree_names (prop :: hyps, []) end;
625fbbe5c6b4 added tvars_intr_list; wenzelm parents: 8550 diff changeset	878
625fbbe5c6b4 added tvars_intr_list; wenzelm parents: 8550 diff changeset	879	fun tvars_intr_list tfrees thm =
625fbbe5c6b4 added tvars_intr_list; wenzelm parents: 8550 diff changeset	880	Thm.varifyT' (tfrees_of thm \\ tfrees) thm;
625fbbe5c6b4 added tvars_intr_list; wenzelm parents: 8550 diff changeset	881
625fbbe5c6b4 added tvars_intr_list; wenzelm parents: 8550 diff changeset	882
6435 154b88d2b62e added incr_indexes, incr_indexes_wrt; wenzelm parents: 6390 diff changeset	883	(* increment var indexes *)
154b88d2b62e added incr_indexes, incr_indexes_wrt; wenzelm parents: 6390 diff changeset	884
154b88d2b62e added incr_indexes, incr_indexes_wrt; wenzelm parents: 6390 diff changeset	885	fun incr_indexes_wrt is cTs cts thms =
154b88d2b62e added incr_indexes, incr_indexes_wrt; wenzelm parents: 6390 diff changeset	886	let
154b88d2b62e added incr_indexes, incr_indexes_wrt; wenzelm parents: 6390 diff changeset	887	val maxidx =
154b88d2b62e added incr_indexes, incr_indexes_wrt; wenzelm parents: 6390 diff changeset	888	foldl Int.max (~1, is @
154b88d2b62e added incr_indexes, incr_indexes_wrt; wenzelm parents: 6390 diff changeset	889	map (maxidx_of_typ o #T o Thm.rep_ctyp) cTs @
154b88d2b62e added incr_indexes, incr_indexes_wrt; wenzelm parents: 6390 diff changeset	890	map (#maxidx o Thm.rep_cterm) cts @
154b88d2b62e added incr_indexes, incr_indexes_wrt; wenzelm parents: 6390 diff changeset	891	map (#maxidx o Thm.rep_thm) thms);
10414 f7aeff3e9e1e - new theorems imp_cong and swap_prems_eq berghofe parents: 10403 diff changeset	892	in Thm.incr_indexes (maxidx + 1) end;
6435 154b88d2b62e added incr_indexes, incr_indexes_wrt; wenzelm parents: 6390 diff changeset	893
154b88d2b62e added incr_indexes, incr_indexes_wrt; wenzelm parents: 6390 diff changeset	894
8328 efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	895	(* freeze_all *)
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	896
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	897	(freeze all (T)Vars; assumes thm in standard form)
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	898
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	899	fun freeze_all_TVars thm =
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	900	(case tvars_of thm of
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	901	[] => thm
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	902	\| tvars =>
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	903	let val cert = Thm.ctyp_of (Thm.sign_of_thm thm)
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	904	in instantiate' (map (fn ((x, _), S) => Some (cert (TFree (x, S)))) tvars) [] thm end);
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	905
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	906	fun freeze_all_Vars thm =
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	907	(case vars_of thm of
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	908	[] => thm
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	909	\| vars =>
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	910	let val cert = Thm.cterm_of (Thm.sign_of_thm thm)
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	911	in instantiate' [] (map (fn ((x, _), T) => Some (cert (Free (x, T)))) vars) thm end);
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	912
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	913	val freeze_all = freeze_all_Vars o freeze_all_TVars;
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	914
efbcec3eb02f added freeze_all; wenzelm parents: 8129 diff changeset	915
5688 7f582495967c added unvarify(T); wenzelm parents: 5311 diff changeset	916	(* mk_triv_goal *)
7f582495967c added unvarify(T); wenzelm parents: 5311 diff changeset	917
7f582495967c added unvarify(T); wenzelm parents: 5311 diff changeset	918	(make an initial proof state, "PROP A ==> (PROP A)" )
5311 f3f71669878e Rule mk_triv_goal for making instances of triv_goal paulson parents: 5079 diff changeset	919	fun mk_triv_goal ct = instantiate' [] [Some ct] triv_goal;
f3f71669878e Rule mk_triv_goal for making instances of triv_goal paulson parents: 5079 diff changeset	920
11975 129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	921
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	922
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	923	( meta-level conjunction )
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	924
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	925	local
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	926	val A = read_prop "PROP A";
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	927	val B = read_prop "PROP B";
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	928	val C = read_prop "PROP C";
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	929	val ABC = read_prop "PROP A ==> PROP B ==> PROP C";
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	930
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	931	val proj1 =
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	932	forall_intr_list [A, B] (implies_intr_list [A, B] (Thm.assume A))
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	933	\|> forall_elim_vars 0;
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	934
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	935	val proj2 =
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	936	forall_intr_list [A, B] (implies_intr_list [A, B] (Thm.assume B))
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	937	\|> forall_elim_vars 0;
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	938
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	939	val conj_intr_rule =
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	940	forall_intr_list [A, B] (implies_intr_list [A, B]
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	941	(Thm.forall_intr C (Thm.implies_intr ABC
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	942	(implies_elim_list (Thm.assume ABC) [Thm.assume A, Thm.assume B]))))
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	943	\|> forall_elim_vars 0;
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	944
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	945	val incr = incr_indexes_wrt [] [] [];
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	946	in
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	947
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	948	fun conj_intr tha thb = thb COMP (tha COMP incr [tha, thb] conj_intr_rule);
12756 08bf3d911968 conj_intr_list and conj_elim_precise: cover 0 conjuncts; wenzelm parents: 12725 diff changeset	949
08bf3d911968 conj_intr_list and conj_elim_precise: cover 0 conjuncts; wenzelm parents: 12725 diff changeset	950	fun conj_intr_list [] = asm_rl
08bf3d911968 conj_intr_list and conj_elim_precise: cover 0 conjuncts; wenzelm parents: 12725 diff changeset	951	\| conj_intr_list ths = foldr1 (uncurry conj_intr) ths;
11975 129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	952
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	953	fun conj_elim th =
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	954	let val th' = forall_elim_var (#maxidx (Thm.rep_thm th) + 1) th
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	955	in (incr [th'] proj1 COMP th', incr [th'] proj2 COMP th') end;
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	956
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	957	fun conj_elim_list th =
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	958	let val (th1, th2) = conj_elim th
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	959	in conj_elim_list th1 @ conj_elim_list th2 end handle THM _ => [th];
129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	960
12756 08bf3d911968 conj_intr_list and conj_elim_precise: cover 0 conjuncts; wenzelm parents: 12725 diff changeset	961	fun conj_elim_precise 0 _ = []
08bf3d911968 conj_intr_list and conj_elim_precise: cover 0 conjuncts; wenzelm parents: 12725 diff changeset	962	\| conj_elim_precise 1 th = [th]
12135 e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	963	\| conj_elim_precise n th =
e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	964	let val (th1, th2) = conj_elim th
e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	965	in th1 :: conj_elim_precise (n - 1) th2 end;
e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	966
e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	967	val conj_intr_thm = store_standard_thm_open "conjunctionI"
e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	968	(implies_intr_list [A, B] (conj_intr (Thm.assume A) (Thm.assume B)));
e370e5d469c2 added conj_elim_precise, conj_intr_thm; wenzelm parents: 12126 diff changeset	969
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	970	end;
252 7532f95d7f44 removed eq_sg, pprint_sg, print_sg (now in sign.ML); wenzelm parents: 229 diff changeset	971
11975 129c6679e8c4 rules for meta-level conjunction; wenzelm parents: 11960 diff changeset	972	end;
5903 5d9beee36fbe export vars_of and friends; wenzelm parents: 5688 diff changeset	973
5d9beee36fbe export vars_of and friends; wenzelm parents: 5688 diff changeset	974	structure BasicDrule: BASIC_DRULE = Drule;
5d9beee36fbe export vars_of and friends; wenzelm parents: 5688 diff changeset	975	open BasicDrule;

author	wenzelm
	Wed, 27 Feb 2002 21:53:33 +0100
changeset 12970	c9b1838a2cc0
parent 12908	53bfe07a7916
child 13105	3d1e7a199bdc
permissions	-rw-r--r--