isabelle: src/Pure/thm.ML@88211daacf93 (annotated)

250 9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	1	(* Title: Pure/thm.ML
9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	2	Author: Lawrence C Paulson, Cambridge University Computer Laboratory
29269 5c25a2012975 moved term order operations to structure TermOrd (cf. Pure/term_ord.ML); wenzelm parents: 29003 diff changeset	3	Author: Makarius
229 4002c4cd450c Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated lcp parents: 225 diff changeset	4
16425 2427be27cc60 accomodate identification of type Sign.sg and theory; wenzelm parents: 16352 diff changeset	5	The very core of Isabelle's Meta Logic: certified types and terms,
59589 6020e3dec7b5 removed unused; wenzelm parents: 59586 diff changeset	6	derivations, theorems, inference rules (including lifting and
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	7	resolution), oracles.
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	8	*)
a5a9c433f639 Initial revision clasohm parents: diff changeset	9
6089 4d2d5556b4f9 signature BASIC_THM; wenzelm parents: 5624 diff changeset	10	signature BASIC_THM =
59589 6020e3dec7b5 removed unused; wenzelm parents: 59586 diff changeset	11	sig
59582 0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	12	type ctyp
0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	13	type cterm
0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	14	exception CTERM of string * cterm list
0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	15	type thm
0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	16	type conv = cterm -> thm
0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	17	exception THM of string * int * thm list
0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	18	end;
0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	19
0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	20	signature THM =
0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	21	sig
0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	22	include BASIC_THM
1160 8845eb5f0e5e added add_trrules_i; wenzelm parents: 1065 diff changeset	23	(certified types)
16425 2427be27cc60 accomodate identification of type Sign.sg and theory; wenzelm parents: 16352 diff changeset	24	val typ_of: ctyp -> typ
59621 291934bac95e Thm.cterm_of and Thm.ctyp_of operate on local context; wenzelm parents: 59591 diff changeset	25	val global_ctyp_of: theory -> typ -> ctyp
291934bac95e Thm.cterm_of and Thm.ctyp_of operate on local context; wenzelm parents: 59591 diff changeset	26	val ctyp_of: Proof.context -> typ -> ctyp
59582 0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	27	val dest_ctyp: ctyp -> ctyp list
1160 8845eb5f0e5e added add_trrules_i; wenzelm parents: 1065 diff changeset	28	(certified terms)
16425 2427be27cc60 accomodate identification of type Sign.sg and theory; wenzelm parents: 16352 diff changeset	29	val term_of: cterm -> term
59586 ddf6deaadfe8 clarified signature; wenzelm parents: 59582 diff changeset	30	val typ_of_cterm: cterm -> typ
ddf6deaadfe8 clarified signature; wenzelm parents: 59582 diff changeset	31	val ctyp_of_cterm: cterm -> ctyp
ddf6deaadfe8 clarified signature; wenzelm parents: 59582 diff changeset	32	val maxidx_of_cterm: cterm -> int
59621 291934bac95e Thm.cterm_of and Thm.ctyp_of operate on local context; wenzelm parents: 59591 diff changeset	33	val global_cterm_of: theory -> term -> cterm
291934bac95e Thm.cterm_of and Thm.ctyp_of operate on local context; wenzelm parents: 59591 diff changeset	34	val cterm_of: Proof.context -> term -> cterm
59969 bcccad156236 explicitly checked alpha conversion -- actual renaming happens outside kernel; wenzelm parents: 59917 diff changeset	35	val renamed_term: term -> cterm -> cterm
59582 0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	36	val dest_comb: cterm -> cterm * cterm
0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	37	val dest_fun: cterm -> cterm
0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	38	val dest_arg: cterm -> cterm
0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	39	val dest_fun2: cterm -> cterm
0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	40	val dest_arg1: cterm -> cterm
0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	41	val dest_abs: string option -> cterm -> cterm * cterm
60952 762cb38a3147 produce certified vars without access to theory_of_thm, and without context; wenzelm parents: 60951 diff changeset	42	val rename_tvar: indexname -> ctyp -> ctyp
60951 b70c4db3874f produce certified vars without access to theory_of_thm, and without context; wenzelm parents: 60949 diff changeset	43	val var: indexname * ctyp -> cterm
59582 0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	44	val apply: cterm -> cterm -> cterm
0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	45	val lambda_name: string * cterm -> cterm -> cterm
0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	46	val lambda: cterm -> cterm -> cterm
0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	47	val adjust_maxidx_cterm: int -> cterm -> cterm
0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	48	val incr_indexes_cterm: int -> cterm -> cterm
60642 48dd1cefb4ae simplified Thm.instantiate and derivatives: the LHS refers to non-certified variables -- this merely serves as index into already certified structures (or is ignored); wenzelm parents: 60638 diff changeset	49	val match: cterm * cterm ->
48dd1cefb4ae simplified Thm.instantiate and derivatives: the LHS refers to non-certified variables -- this merely serves as index into already certified structures (or is ignored); wenzelm parents: 60638 diff changeset	50	((indexname * sort) * ctyp) list * ((indexname * typ) * cterm) list
48dd1cefb4ae simplified Thm.instantiate and derivatives: the LHS refers to non-certified variables -- this merely serves as index into already certified structures (or is ignored); wenzelm parents: 60638 diff changeset	51	val first_order_match: cterm * cterm ->
48dd1cefb4ae simplified Thm.instantiate and derivatives: the LHS refers to non-certified variables -- this merely serves as index into already certified structures (or is ignored); wenzelm parents: 60638 diff changeset	52	((indexname * sort) * ctyp) list * ((indexname * typ) * cterm) list
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	53	(theorems)
59582 0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	54	val fold_terms: (term -> 'a -> 'a) -> thm -> 'a -> 'a
60952 762cb38a3147 produce certified vars without access to theory_of_thm, and without context; wenzelm parents: 60951 diff changeset	55	val fold_atomic_ctyps: (ctyp -> 'a -> 'a) -> thm -> 'a -> 'a
60818 5e11a6e2b044 more direct access to atomic cterms; wenzelm parents: 60642 diff changeset	56	val fold_atomic_cterms: (cterm -> 'a -> 'a) -> thm -> 'a -> 'a
59582 0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	57	val terms_of_tpairs: (term * term) list -> term list
0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	58	val full_prop_of: thm -> term
60948 b710a5087116 prefer theory_id operations; wenzelm parents: 60939 diff changeset	59	val theory_id_of_thm: thm -> Context.theory_id
60638 16d80e5ef2dc tuned signature; wenzelm parents: 60315 diff changeset	60	val theory_name_of_thm: thm -> string
59582 0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	61	val maxidx_of: thm -> int
0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	62	val maxidx_thm: thm -> int -> int
61039 80f40d89dab6 tuned signature; wenzelm parents: 60952 diff changeset	63	val shyps_of: thm -> sort Ord_List.T
59582 0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	64	val hyps_of: thm -> term list
16425 2427be27cc60 accomodate identification of type Sign.sg and theory; wenzelm parents: 16352 diff changeset	65	val prop_of: thm -> term
59582 0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	66	val tpairs_of: thm -> (term * term) list
16656 18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	67	val concl_of: thm -> term
16425 2427be27cc60 accomodate identification of type Sign.sg and theory; wenzelm parents: 16352 diff changeset	68	val prems_of: thm -> term list
2427be27cc60 accomodate identification of type Sign.sg and theory; wenzelm parents: 16352 diff changeset	69	val nprems_of: thm -> int
59582 0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	70	val no_prems: thm -> bool
0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59058 diff changeset	71	val major_prem_of: thm -> term
16425 2427be27cc60 accomodate identification of type Sign.sg and theory; wenzelm parents: 16352 diff changeset	72	val cprop_of: thm -> cterm
18145 6757627acf59 renamed Thm.cgoal_of to Thm.cprem_of; wenzelm parents: 18127 diff changeset	73	val cprem_of: thm -> int -> cterm
60949 ccbf9379e355 added Thm.chyps_of; wenzelm parents: 60948 diff changeset	74	val chyps_of: thm -> cterm list
61051 310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	75	exception CONTEXT of string * ctyp list * cterm list * thm list * Context.generic option
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	76	val theory_of_cterm: cterm -> theory
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	77	val theory_of_thm: thm -> theory
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	78	val trim_context_cterm: cterm -> cterm
61048 408ff2390530 trim context for persistent storage; wenzelm parents: 61047 diff changeset	79	val trim_context: thm -> thm
61051 310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	80	val transfer_cterm: theory -> cterm -> cterm
38709 04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	81	val transfer: theory -> thm -> thm
59969 bcccad156236 explicitly checked alpha conversion -- actual renaming happens outside kernel; wenzelm parents: 59917 diff changeset	82	val renamed_prop: term -> thm -> thm
38709 04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	83	val weaken: cterm -> thm -> thm
04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	84	val weaken_sorts: sort list -> cterm -> cterm
04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	85	val extra_shyps: thm -> sort list
44333 cc53ce50f738 reverted to join_bodies/join_proofs based on fold_body_thms to regain performance (escpecially of HOL-Proofs) -- see also aa9c1e9ef2ce and 4e2abb045eac; wenzelm parents: 44331 diff changeset	86	val proof_bodies_of: thm list -> proof_body list
32725 57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	87	val proof_body_of: thm -> proof_body
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	88	val proof_of: thm -> proof
64574 1134e4d5e5b7 consolidate nested thms with persistent result, for improved performance; wenzelm parents: 64573 diff changeset	89	val consolidate: thm -> unit
50126 3dec88149176 theorem status about oracles/futures is no longer printed by default; wenzelm parents: 49008 diff changeset	90	val peek_status: thm -> {oracle: bool, unfinished: bool, failed: bool}
32725 57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	91	val future: thm future -> cterm -> thm
64568 a504a3dec35a more careful derivation_closed / close_derivation; wenzelm parents: 63858 diff changeset	92	val derivation_closed: thm -> bool
36744 6e1f3d609a68 renamed Thm.get_name -> Thm.derivation_name and Thm.put_name -> Thm.name_derivation, to emphasize the true nature of these operations; wenzelm parents: 36742 diff changeset	93	val derivation_name: thm -> string
6e1f3d609a68 renamed Thm.get_name -> Thm.derivation_name and Thm.put_name -> Thm.name_derivation, to emphasize the true nature of these operations; wenzelm parents: 36742 diff changeset	94	val name_derivation: string -> thm -> thm
28675 fb68c0767004 renamed get_axiom_i to axiom, removed obsolete get_axiom; wenzelm parents: 28648 diff changeset	95	val axiom: theory -> string -> thm
fb68c0767004 renamed get_axiom_i to axiom, removed obsolete get_axiom; wenzelm parents: 28648 diff changeset	96	val axioms_of: theory -> (string * thm) list
28017 4919bd124a58 type Properties.T; wenzelm parents: 27336 diff changeset	97	val get_tags: thm -> Properties.T
4919bd124a58 type Properties.T; wenzelm parents: 27336 diff changeset	98	val map_tags: (Properties.T -> Properties.T) -> thm -> thm
23781 ab793a6ddf9f Added function norm_proof for normalizing the proof term berghofe parents: 23657 diff changeset	99	val norm_proof: thm -> thm
20261 af51389aa756 adjust_maxidx: pass explicit lower bound; wenzelm parents: 20071 diff changeset	100	val adjust_maxidx_thm: int -> thm -> thm
59589 6020e3dec7b5 removed unused; wenzelm parents: 59586 diff changeset	101	(inference rules)
38709 04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	102	val assume: cterm -> thm
04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	103	val implies_intr: cterm -> thm -> thm
04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	104	val implies_elim: thm -> thm -> thm
04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	105	val forall_intr: cterm -> thm -> thm
04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	106	val forall_elim: cterm -> thm -> thm
04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	107	val reflexive: cterm -> thm
04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	108	val symmetric: thm -> thm
04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	109	val transitive: thm -> thm -> thm
04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	110	val beta_conversion: bool -> conv
04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	111	val eta_conversion: conv
04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	112	val eta_long_conversion: conv
04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	113	val abstract_rule: string -> cterm -> thm -> thm
04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	114	val combination: thm -> thm -> thm
04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	115	val equal_intr: thm -> thm -> thm
04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	116	val equal_elim: thm -> thm -> thm
58950 d07464875dd4 optional proof context for unify operations, for the sake of proper local options; wenzelm parents: 58946 diff changeset	117	val flexflex_rule: Proof.context option -> thm -> thm Seq.seq
38709 04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	118	val generalize: string list * string list -> int -> thm -> thm
60642 48dd1cefb4ae simplified Thm.instantiate and derivatives: the LHS refers to non-certified variables -- this merely serves as index into already certified structures (or is ignored); wenzelm parents: 60638 diff changeset	119	val instantiate: ((indexname * sort) * ctyp) list * ((indexname * typ) * cterm) list ->
48dd1cefb4ae simplified Thm.instantiate and derivatives: the LHS refers to non-certified variables -- this merely serves as index into already certified structures (or is ignored); wenzelm parents: 60638 diff changeset	120	thm -> thm
48dd1cefb4ae simplified Thm.instantiate and derivatives: the LHS refers to non-certified variables -- this merely serves as index into already certified structures (or is ignored); wenzelm parents: 60638 diff changeset	121	val instantiate_cterm: ((indexname * sort) * ctyp) list * ((indexname * typ) * cterm) list ->
48dd1cefb4ae simplified Thm.instantiate and derivatives: the LHS refers to non-certified variables -- this merely serves as index into already certified structures (or is ignored); wenzelm parents: 60638 diff changeset	122	cterm -> cterm
38709 04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	123	val trivial: cterm -> thm
36330 0584e203960e renamed Drule.unconstrainTs to Thm.unconstrain_allTs to accomdate the version by krauss/schropp; wenzelm parents: 35986 diff changeset	124	val of_class: ctyp * class -> thm
36614 b6c031ad3690 minor tuning of Thm.strip_shyps -- no longer pervasive; wenzelm parents: 36613 diff changeset	125	val strip_shyps: thm -> thm
36768 46be86127972 just one version of Thm.unconstrainT, which affects all variables; wenzelm parents: 36744 diff changeset	126	val unconstrainT: thm -> thm
38709 04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	127	val varifyT_global': (string * sort) list -> thm -> ((string * sort) * indexname) list * thm
04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	128	val varifyT_global: thm -> thm
36615 88756a5a92fc renamed Thm.freezeT to Thm.legacy_freezeT -- it is based on Type.legacy_freeze; wenzelm parents: 36614 diff changeset	129	val legacy_freezeT: thm -> thm
59969 bcccad156236 explicitly checked alpha conversion -- actual renaming happens outside kernel; wenzelm parents: 59917 diff changeset	130	val dest_state: thm * int -> (term * term) list * term list * term * term
38709 04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	131	val lift_rule: cterm -> thm -> thm
04414091f3b5 structure Thm: less pervasive names; wenzelm parents: 37309 diff changeset	132	val incr_indexes: int -> thm -> thm
58950 d07464875dd4 optional proof context for unify operations, for the sake of proper local options; wenzelm parents: 58946 diff changeset	133	val assumption: Proof.context option -> int -> thm -> thm Seq.seq
31945 d5f186aa0bed structure Thm: less pervasive names; wenzelm parents: 31944 diff changeset	134	val eq_assumption: int -> thm -> thm
d5f186aa0bed structure Thm: less pervasive names; wenzelm parents: 31944 diff changeset	135	val rotate_rule: int -> int -> thm -> thm
d5f186aa0bed structure Thm: less pervasive names; wenzelm parents: 31944 diff changeset	136	val permute_prems: int -> int -> thm -> thm
58950 d07464875dd4 optional proof context for unify operations, for the sake of proper local options; wenzelm parents: 58946 diff changeset	137	val bicompose: Proof.context option -> {flatten: bool, match: bool, incremented: bool} ->
52223 5bb6ae8acb87 tuned signature -- more explicit flags for low-level Thm.bicompose; wenzelm parents: 52222 diff changeset	138	bool * thm * int -> int -> thm -> thm Seq.seq
58950 d07464875dd4 optional proof context for unify operations, for the sake of proper local options; wenzelm parents: 58946 diff changeset	139	val biresolution: Proof.context option -> bool -> (bool * thm) list -> int -> thm -> thm Seq.seq
59589 6020e3dec7b5 removed unused; wenzelm parents: 59586 diff changeset	140	(oracles)
59917 9830c944670f more uniform "verbose" option to print name space; wenzelm parents: 59884 diff changeset	141	val extern_oracles: bool -> Proof.context -> (Markup.T * xstring) list
30288 a32700e45ab3 Thm.add_oracle interface: replaced old bstring by binding; wenzelm parents: 29636 diff changeset	142	val add_oracle: binding * ('a -> cterm) -> theory -> (string * ('a -> thm)) * theory
6089 4d2d5556b4f9 signature BASIC_THM; wenzelm parents: 5624 diff changeset	143	end;
4d2d5556b4f9 signature BASIC_THM; wenzelm parents: 5624 diff changeset	144
32590 95f4f08f950f replaced opaque signature matching by plain old abstype (again, cf. ac4498f95d1c) -- this recovers pretty printing in SML/NJ and Poly/ML 5.3; wenzelm parents: 32198 diff changeset	145	structure Thm: THM =
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	146	struct
250 9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	147
387 69f4356d915d new datatype theory, supports 'draft theories' and incremental extension: wenzelm parents: 309 diff changeset	148	(* Certified terms and types *)
69f4356d915d new datatype theory, supports 'draft theories' and incremental extension: wenzelm parents: 309 diff changeset	149
250 9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	150	( certified types )
9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	151
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	152	abstype ctyp = Ctyp of {cert: Context.certificate, T: typ, maxidx: int, sorts: sort Ord_List.T}
32590 95f4f08f950f replaced opaque signature matching by plain old abstype (again, cf. ac4498f95d1c) -- this recovers pretty printing in SML/NJ and Poly/ML 5.3; wenzelm parents: 32198 diff changeset	153	with
250 9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	154
9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	155	fun typ_of (Ctyp {T, ...}) = T;
9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	156
59621 291934bac95e Thm.cterm_of and Thm.ctyp_of operate on local context; wenzelm parents: 59591 diff changeset	157	fun global_ctyp_of thy raw_T =
24143 90a9a6fe0d01 replaced Theory.self_ref by Theory.check_thy, which now produces a checked ref; wenzelm parents: 23781 diff changeset	158	let
90a9a6fe0d01 replaced Theory.self_ref by Theory.check_thy, which now produces a checked ref; wenzelm parents: 23781 diff changeset	159	val T = Sign.certify_typ thy raw_T;
90a9a6fe0d01 replaced Theory.self_ref by Theory.check_thy, which now produces a checked ref; wenzelm parents: 23781 diff changeset	160	val maxidx = Term.maxidx_of_typ T;
26640 92e6d3ec91bd simplified handling of sorts, removed unnecessary universal witness; wenzelm parents: 26631 diff changeset	161	val sorts = Sorts.insert_typ T [];
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	162	in Ctyp {cert = Context.Certificate thy, T = T, maxidx = maxidx, sorts = sorts} end;
250 9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	163
59621 291934bac95e Thm.cterm_of and Thm.ctyp_of operate on local context; wenzelm parents: 59591 diff changeset	164	val ctyp_of = global_ctyp_of o Proof_Context.theory_of;
291934bac95e Thm.cterm_of and Thm.ctyp_of operate on local context; wenzelm parents: 59591 diff changeset	165
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	166	fun dest_ctyp (Ctyp {cert, T = Type (_, Ts), maxidx, sorts}) =
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	167	map (fn T => Ctyp {cert = cert, T = T, maxidx = maxidx, sorts = sorts}) Ts
16679 abd1461fa288 dest_ctyp: raise exception for non-constructor; wenzelm parents: 16656 diff changeset	168	\| dest_ctyp cT = raise TYPE ("dest_ctyp", [typ_of cT], []);
15087 666f89fbb860 - optimized nodup_vars check in capply berghofe parents: 14828 diff changeset	169
229 4002c4cd450c Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated lcp parents: 225 diff changeset	170
4002c4cd450c Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated lcp parents: 225 diff changeset	171
250 9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	172	( certified terms )
229 4002c4cd450c Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated lcp parents: 225 diff changeset	173
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	174	(certified terms with checked typ, maxidx, and sorts)
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	175	abstype cterm =
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	176	Cterm of {cert: Context.certificate, t: term, T: typ, maxidx: int, sorts: sort Ord_List.T}
32590 95f4f08f950f replaced opaque signature matching by plain old abstype (again, cf. ac4498f95d1c) -- this recovers pretty printing in SML/NJ and Poly/ML 5.3; wenzelm parents: 32198 diff changeset	177	with
16425 2427be27cc60 accomodate identification of type Sign.sg and theory; wenzelm parents: 16352 diff changeset	178
22584 d0f0f37ec346 improved exception CTERM; wenzelm parents: 22573 diff changeset	179	exception CTERM of string * cterm list;
16679 abd1461fa288 dest_ctyp: raise exception for non-constructor; wenzelm parents: 16656 diff changeset	180
250 9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	181	fun term_of (Cterm {t, ...}) = t;
229 4002c4cd450c Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated lcp parents: 225 diff changeset	182
59586 ddf6deaadfe8 clarified signature; wenzelm parents: 59582 diff changeset	183	fun typ_of_cterm (Cterm {T, ...}) = T;
ddf6deaadfe8 clarified signature; wenzelm parents: 59582 diff changeset	184
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	185	fun ctyp_of_cterm (Cterm {cert, T, maxidx, sorts, ...}) =
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	186	Ctyp {cert = cert, T = T, maxidx = maxidx, sorts = sorts};
2671 510d94c71dda Introduction of rotate_rule paulson parents: 2626 diff changeset	187
59586 ddf6deaadfe8 clarified signature; wenzelm parents: 59582 diff changeset	188	fun maxidx_of_cterm (Cterm {maxidx, ...}) = maxidx;
ddf6deaadfe8 clarified signature; wenzelm parents: 59582 diff changeset	189
59621 291934bac95e Thm.cterm_of and Thm.ctyp_of operate on local context; wenzelm parents: 59591 diff changeset	190	fun global_cterm_of thy tm =
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	191	let
18969 49aa2c8791ba removed obsolete sign_of_cterm; wenzelm parents: 18944 diff changeset	192	val (t, T, maxidx) = Sign.certify_term thy tm;
26640 92e6d3ec91bd simplified handling of sorts, removed unnecessary universal witness; wenzelm parents: 26631 diff changeset	193	val sorts = Sorts.insert_term t [];
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	194	in Cterm {cert = Context.Certificate thy, t = t, T = T, maxidx = maxidx, sorts = sorts} end;
229 4002c4cd450c Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated lcp parents: 225 diff changeset	195
59621 291934bac95e Thm.cterm_of and Thm.ctyp_of operate on local context; wenzelm parents: 59591 diff changeset	196	val cterm_of = global_cterm_of o Proof_Context.theory_of;
291934bac95e Thm.cterm_of and Thm.ctyp_of operate on local context; wenzelm parents: 59591 diff changeset	197
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	198	fun join_certificate0 (Cterm {cert = cert1, ...}, Cterm {cert = cert2, ...}) =
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	199	Context.join_certificate (cert1, cert2);
60315 c08adefc98ea more explicit context; wenzelm parents: 59969 diff changeset	200
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	201	fun renamed_term t' (Cterm {cert, t, T, maxidx, sorts}) =
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	202	if t aconv t' then Cterm {cert = cert, t = t', T = T, maxidx = maxidx, sorts = sorts}
59969 bcccad156236 explicitly checked alpha conversion -- actual renaming happens outside kernel; wenzelm parents: 59917 diff changeset	203	else raise TERM ("renamed_term: terms disagree", [t, t']);
bcccad156236 explicitly checked alpha conversion -- actual renaming happens outside kernel; wenzelm parents: 59917 diff changeset	204
20580 6fb75df09253 added dest_arg, i.e. a tuned version of #2 o dest_comb; wenzelm parents: 20548 diff changeset	205
22909 7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	206	(* destructors *)
7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	207
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	208	fun dest_comb (Cterm {t = c $ a, T, cert, maxidx, sorts}) =
22909 7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	209	let val A = Term.argument_type_of c 0 in
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	210	(Cterm {t = c, T = A --> T, cert = cert, maxidx = maxidx, sorts = sorts},
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	211	Cterm {t = a, T = A, cert = cert, maxidx = maxidx, sorts = sorts})
1493 e936723cb94d added dest_comb, dest_abs and mk_prop for manipulating cterms clasohm parents: 1460 diff changeset	212	end
22584 d0f0f37ec346 improved exception CTERM; wenzelm parents: 22573 diff changeset	213	\| dest_comb ct = raise CTERM ("dest_comb", [ct]);
1493 e936723cb94d added dest_comb, dest_abs and mk_prop for manipulating cterms clasohm parents: 1460 diff changeset	214
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	215	fun dest_fun (Cterm {t = c $ _, T, cert, maxidx, sorts}) =
22909 7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	216	let val A = Term.argument_type_of c 0
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	217	in Cterm {t = c, T = A --> T, cert = cert, maxidx = maxidx, sorts = sorts} end
22909 7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	218	\| dest_fun ct = raise CTERM ("dest_fun", [ct]);
7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	219
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	220	fun dest_arg (Cterm {t = c $ a, T = _, cert, maxidx, sorts}) =
22909 7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	221	let val A = Term.argument_type_of c 0
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	222	in Cterm {t = a, T = A, cert = cert, maxidx = maxidx, sorts = sorts} end
22584 d0f0f37ec346 improved exception CTERM; wenzelm parents: 22573 diff changeset	223	\| dest_arg ct = raise CTERM ("dest_arg", [ct]);
20580 6fb75df09253 added dest_arg, i.e. a tuned version of #2 o dest_comb; wenzelm parents: 20548 diff changeset	224
22909 7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	225
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	226	fun dest_fun2 (Cterm {t = c $ _ $ _, T, cert, maxidx, sorts}) =
22909 7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	227	let
7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	228	val A = Term.argument_type_of c 0;
7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	229	val B = Term.argument_type_of c 1;
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	230	in Cterm {t = c, T = A --> B --> T, cert = cert, maxidx = maxidx, sorts = sorts} end
22909 7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	231	\| dest_fun2 ct = raise CTERM ("dest_fun2", [ct]);
7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	232
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	233	fun dest_arg1 (Cterm {t = c $ a $ _, T = _, cert, maxidx, sorts}) =
22909 7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	234	let val A = Term.argument_type_of c 0
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	235	in Cterm {t = a, T = A, cert = cert, maxidx = maxidx, sorts = sorts} end
22909 7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	236	\| dest_arg1 ct = raise CTERM ("dest_arg1", [ct]);
20673 27738ccd0700 added dest_binop; wenzelm parents: 20580 diff changeset	237
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	238	fun dest_abs a (Cterm {t = Abs (x, T, t), T = Type ("fun", [_, U]), cert, maxidx, sorts}) =
18944 7d2ed9063477 union_tpairs: Library.merge; wenzelm parents: 18733 diff changeset	239	let val (y', t') = Term.dest_abs (the_default x a, T, t) in
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	240	(Cterm {t = Free (y', T), T = T, cert = cert, maxidx = maxidx, sorts = sorts},
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	241	Cterm {t = t', T = U, cert = cert, maxidx = maxidx, sorts = sorts})
1493 e936723cb94d added dest_comb, dest_abs and mk_prop for manipulating cterms clasohm parents: 1460 diff changeset	242	end
22584 d0f0f37ec346 improved exception CTERM; wenzelm parents: 22573 diff changeset	243	\| dest_abs _ ct = raise CTERM ("dest_abs", [ct]);
1493 e936723cb94d added dest_comb, dest_abs and mk_prop for manipulating cterms clasohm parents: 1460 diff changeset	244
22909 7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	245
7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	246	(* constructors *)
7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	247
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	248	fun rename_tvar (a, i) (Ctyp {cert, T, maxidx, sorts}) =
60952 762cb38a3147 produce certified vars without access to theory_of_thm, and without context; wenzelm parents: 60951 diff changeset	249	let
762cb38a3147 produce certified vars without access to theory_of_thm, and without context; wenzelm parents: 60951 diff changeset	250	val S =
762cb38a3147 produce certified vars without access to theory_of_thm, and without context; wenzelm parents: 60951 diff changeset	251	(case T of
762cb38a3147 produce certified vars without access to theory_of_thm, and without context; wenzelm parents: 60951 diff changeset	252	TFree (_, S) => S
762cb38a3147 produce certified vars without access to theory_of_thm, and without context; wenzelm parents: 60951 diff changeset	253	\| TVar (_, S) => S
762cb38a3147 produce certified vars without access to theory_of_thm, and without context; wenzelm parents: 60951 diff changeset	254	\| _ => raise TYPE ("rename_tvar: no variable", [T], []));
762cb38a3147 produce certified vars without access to theory_of_thm, and without context; wenzelm parents: 60951 diff changeset	255	val _ = if i < 0 then raise TYPE ("rename_tvar: bad index", [TVar ((a, i), S)], []) else ();
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	256	in Ctyp {cert = cert, T = TVar ((a, i), S), maxidx = Int.max (i, maxidx), sorts = sorts} end;
60952 762cb38a3147 produce certified vars without access to theory_of_thm, and without context; wenzelm parents: 60951 diff changeset	257
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	258	fun var ((x, i), Ctyp {cert, T, maxidx, sorts}) =
60951 b70c4db3874f produce certified vars without access to theory_of_thm, and without context; wenzelm parents: 60949 diff changeset	259	if i < 0 then raise TERM ("var: bad index", [Var ((x, i), T)])
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	260	else Cterm {cert = cert, t = Var ((x, i), T), T = T, maxidx = Int.max (i, maxidx), sorts = sorts};
60951 b70c4db3874f produce certified vars without access to theory_of_thm, and without context; wenzelm parents: 60949 diff changeset	261
46497 89ccf66aa73d renamed Thm.capply to Thm.apply, and Thm.cabs to Thm.lambda in conformance with similar operations in structure Term and Logic; wenzelm parents: 46475 diff changeset	262	fun apply
16656 18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	263	(cf as Cterm {t = f, T = Type ("fun", [dty, rty]), maxidx = maxidx1, sorts = sorts1, ...})
18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	264	(cx as Cterm {t = x, T, maxidx = maxidx2, sorts = sorts2, ...}) =
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	265	if T = dty then
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	266	Cterm {cert = join_certificate0 (cf, cx),
16656 18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	267	t = f $ x,
18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	268	T = rty,
18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	269	maxidx = Int.max (maxidx1, maxidx2),
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	270	sorts = Sorts.union sorts1 sorts2}
46497 89ccf66aa73d renamed Thm.capply to Thm.apply, and Thm.cabs to Thm.lambda in conformance with similar operations in structure Term and Logic; wenzelm parents: 46475 diff changeset	271	else raise CTERM ("apply: types don't agree", [cf, cx])
89ccf66aa73d renamed Thm.capply to Thm.apply, and Thm.cabs to Thm.lambda in conformance with similar operations in structure Term and Logic; wenzelm parents: 46475 diff changeset	272	\| apply cf cx = raise CTERM ("apply: first arg is not a function", [cf, cx]);
250 9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	273
46497 89ccf66aa73d renamed Thm.capply to Thm.apply, and Thm.cabs to Thm.lambda in conformance with similar operations in structure Term and Logic; wenzelm parents: 46475 diff changeset	274	fun lambda_name
32198 9bdd47909ea8 lambda/cabs/all: named variants; wenzelm parents: 32104 diff changeset	275	(x, ct1 as Cterm {t = t1, T = T1, maxidx = maxidx1, sorts = sorts1, ...})
16656 18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	276	(ct2 as Cterm {t = t2, T = T2, maxidx = maxidx2, sorts = sorts2, ...}) =
32198 9bdd47909ea8 lambda/cabs/all: named variants; wenzelm parents: 32104 diff changeset	277	let val t = Term.lambda_name (x, t1) t2 in
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	278	Cterm {cert = join_certificate0 (ct1, ct2),
16656 18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	279	t = t, T = T1 --> T2,
18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	280	maxidx = Int.max (maxidx1, maxidx2),
18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	281	sorts = Sorts.union sorts1 sorts2}
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	282	end;
229 4002c4cd450c Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated lcp parents: 225 diff changeset	283
46497 89ccf66aa73d renamed Thm.capply to Thm.apply, and Thm.cabs to Thm.lambda in conformance with similar operations in structure Term and Logic; wenzelm parents: 46475 diff changeset	284	fun lambda t u = lambda_name ("", t) u;
32198 9bdd47909ea8 lambda/cabs/all: named variants; wenzelm parents: 32104 diff changeset	285
20580 6fb75df09253 added dest_arg, i.e. a tuned version of #2 o dest_comb; wenzelm parents: 20548 diff changeset	286
22909 7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	287	(* indexes *)
7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	288
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	289	fun adjust_maxidx_cterm i (ct as Cterm {cert, t, T, maxidx, sorts}) =
20580 6fb75df09253 added dest_arg, i.e. a tuned version of #2 o dest_comb; wenzelm parents: 20548 diff changeset	290	if maxidx = i then ct
6fb75df09253 added dest_arg, i.e. a tuned version of #2 o dest_comb; wenzelm parents: 20548 diff changeset	291	else if maxidx < i then
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	292	Cterm {maxidx = i, cert = cert, t = t, T = T, sorts = sorts}
20580 6fb75df09253 added dest_arg, i.e. a tuned version of #2 o dest_comb; wenzelm parents: 20548 diff changeset	293	else
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	294	Cterm {maxidx = Int.max (maxidx_of_term t, i), cert = cert, t = t, T = T, sorts = sorts};
20580 6fb75df09253 added dest_arg, i.e. a tuned version of #2 o dest_comb; wenzelm parents: 20548 diff changeset	295
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	296	fun incr_indexes_cterm i (ct as Cterm {cert, t, T, maxidx, sorts}) =
22909 7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	297	if i < 0 then raise CTERM ("negative increment", [ct])
7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	298	else if i = 0 then ct
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	299	else Cterm {cert = cert, t = Logic.incr_indexes ([], [], i) t,
22909 7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	300	T = Logic.incr_tvar i T, maxidx = maxidx + i, sorts = sorts};
7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	301
7de3b0ac4189 added dest_fun/fun2/arg1; wenzelm parents: 22685 diff changeset	302
2509 0a7169d89b7a added termless parameter; wenzelm parents: 2386 diff changeset	303
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	304	(* Derivations and Theorems *)
229 4002c4cd450c Pure: MAJOR CHANGE. Moved ML types ctyp and cterm and their associated lcp parents: 225 diff changeset	305
32590 95f4f08f950f replaced opaque signature matching by plain old abstype (again, cf. ac4498f95d1c) -- this recovers pretty printing in SML/NJ and Poly/ML 5.3; wenzelm parents: 32198 diff changeset	306	abstype thm = Thm of
40124 fc77d3211f71 recovered some odd two-dimensional layout; wenzelm parents: 39687 diff changeset	307	deriv * (derivation)
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	308	{cert: Context.certificate, (background theory certificate)
40124 fc77d3211f71 recovered some odd two-dimensional layout; wenzelm parents: 39687 diff changeset	309	tags: Properties.T, (additional annotations/comments)
fc77d3211f71 recovered some odd two-dimensional layout; wenzelm parents: 39687 diff changeset	310	maxidx: int, (maximum index of any Var or TVar)
fc77d3211f71 recovered some odd two-dimensional layout; wenzelm parents: 39687 diff changeset	311	shyps: sort Ord_List.T, (sort hypotheses)
fc77d3211f71 recovered some odd two-dimensional layout; wenzelm parents: 39687 diff changeset	312	hyps: term Ord_List.T, (hypotheses)
fc77d3211f71 recovered some odd two-dimensional layout; wenzelm parents: 39687 diff changeset	313	tpairs: (term * term) list, (flex-flex pairs)
fc77d3211f71 recovered some odd two-dimensional layout; wenzelm parents: 39687 diff changeset	314	prop: term} (conclusion)
28624 d983515e5cdf added weaken_sorts; wenzelm parents: 28446 diff changeset	315	and deriv = Deriv of
39687 4e9b6ada3a21 modernized structure Ord_List; wenzelm parents: 38709 diff changeset	316	{promises: (serial * thm future) Ord_List.T,
37309 38ce84c83738 eliminated ML structure alias; wenzelm parents: 37297 diff changeset	317	body: Proofterm.proof_body}
32590 95f4f08f950f replaced opaque signature matching by plain old abstype (again, cf. ac4498f95d1c) -- this recovers pretty printing in SML/NJ and Poly/ML 5.3; wenzelm parents: 32198 diff changeset	318	with
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	319
23601 3a40294140f0 added type conv; wenzelm parents: 23493 diff changeset	320	type conv = cterm -> thm;
3a40294140f0 added type conv; wenzelm parents: 23493 diff changeset	321
16725 597830f91930 added full_prop_of: includes tpairs; wenzelm parents: 16711 diff changeset	322	(errors involving theorems)
597830f91930 added full_prop_of: includes tpairs; wenzelm parents: 16711 diff changeset	323	exception THM of string * int * thm list;
13658 c9ad3e64ddcf Changed handling of flex-flex constraints: now stored in separate berghofe parents: 13642 diff changeset	324
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	325	fun rep_thm (Thm (_, args)) = args;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	326
31947 7daee3bed3af clarified strip_shyps: proper type witnesses for present sorts; wenzelm parents: 31945 diff changeset	327	fun fold_terms f (Thm (_, {tpairs, prop, hyps, ...})) =
7daee3bed3af clarified strip_shyps: proper type witnesses for present sorts; wenzelm parents: 31945 diff changeset	328	fold (fn (t, u) => f t #> f u) tpairs #> f prop #> fold f hyps;
7daee3bed3af clarified strip_shyps: proper type witnesses for present sorts; wenzelm parents: 31945 diff changeset	329
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	330	fun fold_atomic_ctyps f (th as Thm (_, {cert, maxidx, shyps, ...})) =
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	331	let fun ctyp T = Ctyp {cert = cert, T = T, maxidx = maxidx, sorts = shyps}
60952 762cb38a3147 produce certified vars without access to theory_of_thm, and without context; wenzelm parents: 60951 diff changeset	332	in (fold_terms o fold_types o fold_atyps) (f o ctyp) th end;
762cb38a3147 produce certified vars without access to theory_of_thm, and without context; wenzelm parents: 60951 diff changeset	333
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	334	fun fold_atomic_cterms f (th as Thm (_, {cert, maxidx, shyps, ...})) =
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	335	let fun cterm t T = Cterm {cert = cert, t = t, T = T, maxidx = maxidx, sorts = shyps} in
60818 5e11a6e2b044 more direct access to atomic cterms; wenzelm parents: 60642 diff changeset	336	(fold_terms o fold_aterms)
5e11a6e2b044 more direct access to atomic cterms; wenzelm parents: 60642 diff changeset	337	(fn t as Const (_, T) => f (cterm t T)
5e11a6e2b044 more direct access to atomic cterms; wenzelm parents: 60642 diff changeset	338	\| t as Free (_, T) => f (cterm t T)
5e11a6e2b044 more direct access to atomic cterms; wenzelm parents: 60642 diff changeset	339	\| t as Var (_, T) => f (cterm t T)
5e11a6e2b044 more direct access to atomic cterms; wenzelm parents: 60642 diff changeset	340	\| _ => I) th
5e11a6e2b044 more direct access to atomic cterms; wenzelm parents: 60642 diff changeset	341	end;
5e11a6e2b044 more direct access to atomic cterms; wenzelm parents: 60642 diff changeset	342
16725 597830f91930 added full_prop_of: includes tpairs; wenzelm parents: 16711 diff changeset	343	fun terms_of_tpairs tpairs = fold_rev (fn (t, u) => cons t o cons u) tpairs [];
597830f91930 added full_prop_of: includes tpairs; wenzelm parents: 16711 diff changeset	344
597830f91930 added full_prop_of: includes tpairs; wenzelm parents: 16711 diff changeset	345	fun eq_tpairs ((t, u), (t', u')) = t aconv t' andalso u aconv u';
18944 7d2ed9063477 union_tpairs: Library.merge; wenzelm parents: 18733 diff changeset	346	fun union_tpairs ts us = Library.merge eq_tpairs (ts, us);
16884 1678a796b6b2 tuned instantiate (avoid subst_atomic, subst_atomic_types); wenzelm parents: 16847 diff changeset	347	val maxidx_tpairs = fold (fn (t, u) => Term.maxidx_term t #> Term.maxidx_term u);
16725 597830f91930 added full_prop_of: includes tpairs; wenzelm parents: 16711 diff changeset	348
597830f91930 added full_prop_of: includes tpairs; wenzelm parents: 16711 diff changeset	349	fun attach_tpairs tpairs prop =
597830f91930 added full_prop_of: includes tpairs; wenzelm parents: 16711 diff changeset	350	Logic.list_implies (map Logic.mk_equals tpairs, prop);
597830f91930 added full_prop_of: includes tpairs; wenzelm parents: 16711 diff changeset	351
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	352	fun full_prop_of (Thm (_, {tpairs, prop, ...})) = attach_tpairs tpairs prop;
16945 5d3ae25673a8 added weaken, adjust_maxidx_thm; wenzelm parents: 16884 diff changeset	353
39687 4e9b6ada3a21 modernized structure Ord_List; wenzelm parents: 38709 diff changeset	354	val union_hyps = Ord_List.union Term_Ord.fast_term_ord;
4e9b6ada3a21 modernized structure Ord_List; wenzelm parents: 38709 diff changeset	355	val insert_hyps = Ord_List.insert Term_Ord.fast_term_ord;
4e9b6ada3a21 modernized structure Ord_List; wenzelm parents: 38709 diff changeset	356	val remove_hyps = Ord_List.remove Term_Ord.fast_term_ord;
22365 ce62a5f6954c moved some non-kernel material to more_thm.ML; wenzelm parents: 22237 diff changeset	357
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	358	fun join_certificate1 (Cterm {cert = cert1, ...}, Thm (_, {cert = cert2, ...})) =
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	359	Context.join_certificate (cert1, cert2);
16945 5d3ae25673a8 added weaken, adjust_maxidx_thm; wenzelm parents: 16884 diff changeset	360
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	361	fun join_certificate2 (Thm (_, {cert = cert1, ...}), Thm (_, {cert = cert2, ...})) =
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	362	Context.join_certificate (cert1, cert2);
16945 5d3ae25673a8 added weaken, adjust_maxidx_thm; wenzelm parents: 16884 diff changeset	363
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	364
22365 ce62a5f6954c moved some non-kernel material to more_thm.ML; wenzelm parents: 22237 diff changeset	365	(* basic components *)
16135 c66545fe72bf added eq_thms; wenzelm parents: 16024 diff changeset	366
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	367	val cert_of = #cert o rep_thm;
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	368	val theory_id_of_thm = Context.certificate_theory_id o cert_of;
60948 b710a5087116 prefer theory_id operations; wenzelm parents: 60939 diff changeset	369	val theory_name_of_thm = Context.theory_id_name o theory_id_of_thm;
61050 3bc7dcc565dc clarified exceptions; wenzelm parents: 61048 diff changeset	370
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	371	val maxidx_of = #maxidx o rep_thm;
19910 2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	372	fun maxidx_thm th i = Int.max (maxidx_of th, i);
61039 80f40d89dab6 tuned signature; wenzelm parents: 60952 diff changeset	373	val shyps_of = #shyps o rep_thm;
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	374	val hyps_of = #hyps o rep_thm;
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	375	val prop_of = #prop o rep_thm;
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	376	val tpairs_of = #tpairs o rep_thm;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	377
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	378	val concl_of = Logic.strip_imp_concl o prop_of;
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	379	val prems_of = Logic.strip_imp_prems o prop_of;
21576 8c11b1ce2f05 simplified Logic.count_prems; wenzelm parents: 21437 diff changeset	380	val nprems_of = Logic.count_prems o prop_of;
19305 5c16895d548b avoid polymorphic equality; wenzelm parents: 19230 diff changeset	381	fun no_prems th = nprems_of th = 0;
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	382
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	383	fun major_prem_of th =
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	384	(case prems_of th of
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	385	prem :: _ => Logic.strip_assums_concl prem
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	386	\| [] => raise THM ("major_prem_of: rule with no premises", 0, [th]));
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	387
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	388	fun cprop_of (Thm (_, {cert, maxidx, shyps, prop, ...})) =
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	389	Cterm {cert = cert, maxidx = maxidx, T = propT, t = prop, sorts = shyps};
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	390
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	391	fun cprem_of (th as Thm (_, {cert, maxidx, shyps, prop, ...})) i =
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	392	Cterm {cert = cert, maxidx = maxidx, T = propT, sorts = shyps,
18145 6757627acf59 renamed Thm.cgoal_of to Thm.cprem_of; wenzelm parents: 18127 diff changeset	393	t = Logic.nth_prem (i, prop) handle TERM _ => raise THM ("cprem_of", i, [th])};
18035 eaae44affc9e added cgoal_of; wenzelm parents: 17868 diff changeset	394
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	395	fun chyps_of (Thm (_, {cert, shyps, hyps, ...})) =
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	396	map (fn t => Cterm {cert = cert, maxidx = ~1, T = propT, sorts = shyps, t = t}) hyps;
60949 ccbf9379e355 added Thm.chyps_of; wenzelm parents: 60948 diff changeset	397
61051 310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	398
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	399	(* implicit theory context *)
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	400
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	401	exception CONTEXT of string * ctyp list * cterm list * thm list * Context.generic option;
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	402
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	403	fun theory_of_cterm (ct as Cterm {cert, ...}) =
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	404	Context.certificate_theory cert
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	405	handle ERROR msg => raise CONTEXT (msg, [], [ct], [], NONE);
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	406
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	407	fun theory_of_thm th =
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	408	Context.certificate_theory (cert_of th)
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	409	handle ERROR msg => raise CONTEXT (msg, [], [], [th], NONE);
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	410
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	411	fun trim_context_cterm ct =
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	412	(case ct of
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	413	Cterm {cert = Context.Certificate_Id _, ...} => ct
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	414	\| Cterm {cert = Context.Certificate thy, t, T, maxidx, sorts} =>
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	415	Cterm {cert = Context.Certificate_Id (Context.theory_id thy),
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	416	t = t, T = T, maxidx = maxidx, sorts = sorts});
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	417
61048 408ff2390530 trim context for persistent storage; wenzelm parents: 61047 diff changeset	418	fun trim_context th =
408ff2390530 trim context for persistent storage; wenzelm parents: 61047 diff changeset	419	(case th of
408ff2390530 trim context for persistent storage; wenzelm parents: 61047 diff changeset	420	Thm (_, {cert = Context.Certificate_Id _, ...}) => th
408ff2390530 trim context for persistent storage; wenzelm parents: 61047 diff changeset	421	\| Thm (der, {cert = Context.Certificate thy, tags, maxidx, shyps, hyps, tpairs, prop}) =>
408ff2390530 trim context for persistent storage; wenzelm parents: 61047 diff changeset	422	Thm (der,
408ff2390530 trim context for persistent storage; wenzelm parents: 61047 diff changeset	423	{cert = Context.Certificate_Id (Context.theory_id thy),
408ff2390530 trim context for persistent storage; wenzelm parents: 61047 diff changeset	424	tags = tags, maxidx = maxidx, shyps = shyps, hyps = hyps, tpairs = tpairs, prop = prop}));
408ff2390530 trim context for persistent storage; wenzelm parents: 61047 diff changeset	425
61051 310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	426	fun transfer_cterm thy' ct =
3895 b2463861c86a added transfer: theory -> thm -> thm; wenzelm parents: 3893 diff changeset	427	let
61051 310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	428	val Cterm {cert, t, T, maxidx, sorts} = ct;
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	429	val _ =
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	430	Context.subthy_id (Context.certificate_theory_id cert, Context.theory_id thy') orelse
61051 310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	431	raise CONTEXT ("Cannot transfer: not a super theory", [], [ct], [],
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	432	SOME (Context.Theory thy'));
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	433	val cert' = Context.join_certificate (Context.Certificate thy', cert);
3895 b2463861c86a added transfer: theory -> thm -> thm; wenzelm parents: 3893 diff changeset	434	in
61051 310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	435	if Context.eq_certificate (cert, cert') then ct
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	436	else Cterm {cert = cert', t = t, T = T, maxidx = maxidx, sorts = sorts}
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	437	end;
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	438
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	439	fun transfer thy' th =
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	440	let
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	441	val Thm (der, {cert, tags, maxidx, shyps, hyps, tpairs, prop}) = th;
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	442	val _ =
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	443	Context.subthy_id (Context.certificate_theory_id cert, Context.theory_id thy') orelse
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	444	raise CONTEXT ("Cannot transfer: not a super theory", [], [], [th],
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	445	SOME (Context.Theory thy'));
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	446	val cert' = Context.join_certificate (Context.Certificate thy', cert);
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	447	in
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	448	if Context.eq_certificate (cert, cert') then th
16945 5d3ae25673a8 added weaken, adjust_maxidx_thm; wenzelm parents: 16884 diff changeset	449	else
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	450	Thm (der,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	451	{cert = cert',
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	452	tags = tags,
16945 5d3ae25673a8 added weaken, adjust_maxidx_thm; wenzelm parents: 16884 diff changeset	453	maxidx = maxidx,
5d3ae25673a8 added weaken, adjust_maxidx_thm; wenzelm parents: 16884 diff changeset	454	shyps = shyps,
5d3ae25673a8 added weaken, adjust_maxidx_thm; wenzelm parents: 16884 diff changeset	455	hyps = hyps,
5d3ae25673a8 added weaken, adjust_maxidx_thm; wenzelm parents: 16884 diff changeset	456	tpairs = tpairs,
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	457	prop = prop})
3895 b2463861c86a added transfer: theory -> thm -> thm; wenzelm parents: 3893 diff changeset	458	end;
387 69f4356d915d new datatype theory, supports 'draft theories' and incremental extension: wenzelm parents: 309 diff changeset	459
61051 310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	460
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	461	(* matching *)
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	462
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	463	local
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	464
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	465	fun gen_match match
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	466	(ct1 as Cterm {t = t1, sorts = sorts1, ...},
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	467	ct2 as Cterm {t = t2, sorts = sorts2, maxidx = maxidx2, ...}) =
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	468	let
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	469	val cert = join_certificate0 (ct1, ct2);
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	470	val thy = Context.certificate_theory cert
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	471	handle ERROR msg => raise CONTEXT (msg, [], [ct1, ct2], [], NONE);
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	472	val (Tinsts, tinsts) = match thy (t1, t2) (Vartab.empty, Vartab.empty);
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	473	val sorts = Sorts.union sorts1 sorts2;
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	474	fun mk_cTinst ((a, i), (S, T)) =
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	475	(((a, i), S), Ctyp {T = T, cert = cert, maxidx = maxidx2, sorts = sorts});
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	476	fun mk_ctinst ((x, i), (U, t)) =
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	477	let val T = Envir.subst_type Tinsts U in
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	478	(((x, i), T), Cterm {t = t, T = T, cert = cert, maxidx = maxidx2, sorts = sorts})
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	479	end;
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	480	in (Vartab.fold (cons o mk_cTinst) Tinsts [], Vartab.fold (cons o mk_ctinst) tinsts []) end;
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	481
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	482	in
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	483
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	484	val match = gen_match Pattern.match;
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	485	val first_order_match = gen_match Pattern.first_order_match;
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	486
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	487	end;
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	488
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	489
59969 bcccad156236 explicitly checked alpha conversion -- actual renaming happens outside kernel; wenzelm parents: 59917 diff changeset	490	(implicit alpha-conversion)
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	491	fun renamed_prop prop' (Thm (der, {cert, tags, maxidx, shyps, hyps, tpairs, prop})) =
59969 bcccad156236 explicitly checked alpha conversion -- actual renaming happens outside kernel; wenzelm parents: 59917 diff changeset	492	if prop aconv prop' then
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	493	Thm (der, {cert = cert, tags = tags, maxidx = maxidx, shyps = shyps,
59969 bcccad156236 explicitly checked alpha conversion -- actual renaming happens outside kernel; wenzelm parents: 59917 diff changeset	494	hyps = hyps, tpairs = tpairs, prop = prop'})
bcccad156236 explicitly checked alpha conversion -- actual renaming happens outside kernel; wenzelm parents: 59917 diff changeset	495	else raise TERM ("renamed_prop: props disagree", [prop, prop']);
bcccad156236 explicitly checked alpha conversion -- actual renaming happens outside kernel; wenzelm parents: 59917 diff changeset	496
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	497	fun make_context ths NONE cert =
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	498	(Context.Theory (Context.certificate_theory cert)
61051 310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	499	handle ERROR msg => raise CONTEXT (msg, [], [], ths, NONE))
61045 c7a7f063704a clarified exceptions: avoid interference of formal context failure with regular rule application failure (which is routinely handled in user-space); wenzelm parents: 61044 diff changeset	500	\| make_context ths (SOME ctxt) cert =
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	501	let
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	502	val thy_id = Context.certificate_theory_id cert;
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	503	val thy_id' = Context.theory_id (Proof_Context.theory_of ctxt);
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	504	in
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	505	if Context.subthy_id (thy_id, thy_id') then Context.Proof ctxt
61051 310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	506	else raise CONTEXT ("Bad context", [], [], ths, SOME (Context.Proof ctxt))
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	507	end;
58950 d07464875dd4 optional proof context for unify operations, for the sake of proper local options; wenzelm parents: 58946 diff changeset	508
16945 5d3ae25673a8 added weaken, adjust_maxidx_thm; wenzelm parents: 16884 diff changeset	509	(explicit weakening: maps \|- B to A \|- B)
5d3ae25673a8 added weaken, adjust_maxidx_thm; wenzelm parents: 16884 diff changeset	510	fun weaken raw_ct th =
5d3ae25673a8 added weaken, adjust_maxidx_thm; wenzelm parents: 16884 diff changeset	511	let
20261 af51389aa756 adjust_maxidx: pass explicit lower bound; wenzelm parents: 20071 diff changeset	512	val ct as Cterm {t = A, T, sorts, maxidx = maxidxA, ...} = adjust_maxidx_cterm ~1 raw_ct;
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	513	val Thm (der, {tags, maxidx, shyps, hyps, tpairs, prop, ...}) = th;
16945 5d3ae25673a8 added weaken, adjust_maxidx_thm; wenzelm parents: 16884 diff changeset	514	in
5d3ae25673a8 added weaken, adjust_maxidx_thm; wenzelm parents: 16884 diff changeset	515	if T <> propT then
5d3ae25673a8 added weaken, adjust_maxidx_thm; wenzelm parents: 16884 diff changeset	516	raise THM ("weaken: assumptions must have type prop", 0, [])
5d3ae25673a8 added weaken, adjust_maxidx_thm; wenzelm parents: 16884 diff changeset	517	else if maxidxA <> ~1 then
5d3ae25673a8 added weaken, adjust_maxidx_thm; wenzelm parents: 16884 diff changeset	518	raise THM ("weaken: assumptions may not contain schematic variables", maxidxA, [])
5d3ae25673a8 added weaken, adjust_maxidx_thm; wenzelm parents: 16884 diff changeset	519	else
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	520	Thm (der,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	521	{cert = join_certificate1 (ct, th),
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	522	tags = tags,
16945 5d3ae25673a8 added weaken, adjust_maxidx_thm; wenzelm parents: 16884 diff changeset	523	maxidx = maxidx,
5d3ae25673a8 added weaken, adjust_maxidx_thm; wenzelm parents: 16884 diff changeset	524	shyps = Sorts.union sorts shyps,
28354 c5fe7372ae4e explicit type OrdList.T; wenzelm parents: 28330 diff changeset	525	hyps = insert_hyps A hyps,
16945 5d3ae25673a8 added weaken, adjust_maxidx_thm; wenzelm parents: 16884 diff changeset	526	tpairs = tpairs,
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	527	prop = prop})
16945 5d3ae25673a8 added weaken, adjust_maxidx_thm; wenzelm parents: 16884 diff changeset	528	end;
16656 18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	529
28624 d983515e5cdf added weaken_sorts; wenzelm parents: 28446 diff changeset	530	fun weaken_sorts raw_sorts ct =
d983515e5cdf added weaken_sorts; wenzelm parents: 28446 diff changeset	531	let
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	532	val Cterm {cert, t, T, maxidx, sorts} = ct;
61050 3bc7dcc565dc clarified exceptions; wenzelm parents: 61048 diff changeset	533	val thy = theory_of_cterm ct;
28624 d983515e5cdf added weaken_sorts; wenzelm parents: 28446 diff changeset	534	val more_sorts = Sorts.make (map (Sign.certify_sort thy) raw_sorts);
d983515e5cdf added weaken_sorts; wenzelm parents: 28446 diff changeset	535	val sorts' = Sorts.union sorts more_sorts;
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	536	in Cterm {cert = cert, t = t, T = T, maxidx = maxidx, sorts = sorts'} end;
28624 d983515e5cdf added weaken_sorts; wenzelm parents: 28446 diff changeset	537
16656 18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	538	(dangling sort constraints of a thm)
31947 7daee3bed3af clarified strip_shyps: proper type witnesses for present sorts; wenzelm parents: 31945 diff changeset	539	fun extra_shyps (th as Thm (_, {shyps, ...})) =
7daee3bed3af clarified strip_shyps: proper type witnesses for present sorts; wenzelm parents: 31945 diff changeset	540	Sorts.subtract (fold_terms Sorts.insert_term th []) shyps;
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	541
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	542
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	543
32725 57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	544	( derivations and promised proofs )
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	545
32059 7991cdf10a54 support for arbitrarity nested future proofs -- replaced crude order by explicit normalization (which might loop for bad dependencies); wenzelm parents: 32035 diff changeset	546	fun make_deriv promises oracles thms proof =
7991cdf10a54 support for arbitrarity nested future proofs -- replaced crude order by explicit normalization (which might loop for bad dependencies); wenzelm parents: 32035 diff changeset	547	Deriv {promises = promises, body = PBody {oracles = oracles, thms = thms, proof = proof}};
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	548
37309 38ce84c83738 eliminated ML structure alias; wenzelm parents: 37297 diff changeset	549	val empty_deriv = make_deriv [] [] [] Proofterm.MinProof;
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	550
28330 7e803c392342 added dest_deriv, removed external type deriv; wenzelm parents: 28321 diff changeset	551
28354 c5fe7372ae4e explicit type OrdList.T; wenzelm parents: 28330 diff changeset	552	(* inference rules *)
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	553
28378 60cc0359363d promise: include check into future body, i.e. joined results are always valid; wenzelm parents: 28364 diff changeset	554	fun promise_ord ((i, _), (j, _)) = int_ord (j, i);
28330 7e803c392342 added dest_deriv, removed external type deriv; wenzelm parents: 28321 diff changeset	555
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	556	fun deriv_rule2 f
32059 7991cdf10a54 support for arbitrarity nested future proofs -- replaced crude order by explicit normalization (which might loop for bad dependencies); wenzelm parents: 32035 diff changeset	557	(Deriv {promises = ps1, body = PBody {oracles = oras1, thms = thms1, proof = prf1}})
7991cdf10a54 support for arbitrarity nested future proofs -- replaced crude order by explicit normalization (which might loop for bad dependencies); wenzelm parents: 32035 diff changeset	558	(Deriv {promises = ps2, body = PBody {oracles = oras2, thms = thms2, proof = prf2}}) =
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	559	let
39687 4e9b6ada3a21 modernized structure Ord_List; wenzelm parents: 38709 diff changeset	560	val ps = Ord_List.union promise_ord ps1 ps2;
44334 605381e7c7c5 more direct balanced version Ord_List.unions; wenzelm parents: 44333 diff changeset	561	val oras = Proofterm.unions_oracles [oras1, oras2];
605381e7c7c5 more direct balanced version Ord_List.unions; wenzelm parents: 44333 diff changeset	562	val thms = Proofterm.unions_thms [thms1, thms2];
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	563	val prf =
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	564	(case ! Proofterm.proofs of
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	565	2 => f prf1 prf2
28804 5d3b1df16353 refined notion of derivation, consiting of promises and proof_body; wenzelm parents: 28675 diff changeset	566	\| 1 => MinProof
5d3b1df16353 refined notion of derivation, consiting of promises and proof_body; wenzelm parents: 28675 diff changeset	567	\| 0 => MinProof
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	568	\| i => error ("Illegal level of detail for proof objects: " ^ string_of_int i));
32059 7991cdf10a54 support for arbitrarity nested future proofs -- replaced crude order by explicit normalization (which might loop for bad dependencies); wenzelm parents: 32035 diff changeset	569	in make_deriv ps oras thms prf end;
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	570
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	571	fun deriv_rule1 f = deriv_rule2 (K f) empty_deriv;
48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	572	fun deriv_rule0 prf = deriv_rule1 I (make_deriv [] [] [] prf);
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	573
36621 2fd4e2c76636 proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences: wenzelm parents: 36619 diff changeset	574	fun deriv_rule_unconditional f (Deriv {promises, body = PBody {oracles, thms, proof}}) =
2fd4e2c76636 proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences: wenzelm parents: 36619 diff changeset	575	make_deriv promises oracles thms (f proof);
2fd4e2c76636 proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences: wenzelm parents: 36619 diff changeset	576
1238 289c573327f0 considerably tuned shyps handling; wenzelm parents: 1229 diff changeset	577
32725 57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	578	(* fulfilled proofs *)
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	579
44331 aa9c1e9ef2ce clarified fulfill_norm_proof: no join_thms yet; wenzelm parents: 44330 diff changeset	580	fun raw_body_of (Thm (Deriv {body, ...}, _)) = body;
aa9c1e9ef2ce clarified fulfill_norm_proof: no join_thms yet; wenzelm parents: 44330 diff changeset	581	fun raw_promises_of (Thm (Deriv {promises, ...}, _)) = promises;
aa9c1e9ef2ce clarified fulfill_norm_proof: no join_thms yet; wenzelm parents: 44330 diff changeset	582
aa9c1e9ef2ce clarified fulfill_norm_proof: no join_thms yet; wenzelm parents: 44330 diff changeset	583	fun join_promises [] = ()
aa9c1e9ef2ce clarified fulfill_norm_proof: no join_thms yet; wenzelm parents: 44330 diff changeset	584	\| join_promises promises = join_promises_of (Future.joins (map snd promises))
49008 a3cdb49c22cc proper merge of promises to avoid exponential blow-up in pathologic situations (e.g. lack of PThm wrapping); wenzelm parents: 48263 diff changeset	585	and join_promises_of thms = join_promises (Ord_List.make promise_ord (maps raw_promises_of thms));
32725 57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	586
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	587	fun fulfill_body (th as Thm (Deriv {promises, body}, _)) =
64571 07bbdb2079db tuned; wenzelm parents: 64570 diff changeset	588	let val fulfilled_promises = map #1 promises ~~ map fulfill_body (Future.joins (map #2 promises))
07bbdb2079db tuned; wenzelm parents: 64570 diff changeset	589	in Proofterm.fulfill_norm_proof (theory_of_thm th) fulfilled_promises body end;
32725 57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	590
64574 1134e4d5e5b7 consolidate nested thms with persistent result, for improved performance; wenzelm parents: 64573 diff changeset	591	fun proof_bodies_of thms = (join_promises_of thms; map fulfill_body thms);
44333 cc53ce50f738 reverted to join_bodies/join_proofs based on fold_body_thms to regain performance (escpecially of HOL-Proofs) -- see also aa9c1e9ef2ce and 4e2abb045eac; wenzelm parents: 44331 diff changeset	592	val proof_body_of = singleton proof_bodies_of;
44331 aa9c1e9ef2ce clarified fulfill_norm_proof: no join_thms yet; wenzelm parents: 44330 diff changeset	593	val proof_of = Proofterm.proof_of o proof_body_of;
32725 57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	594
64574 1134e4d5e5b7 consolidate nested thms with persistent result, for improved performance; wenzelm parents: 64573 diff changeset	595	val consolidate = ignore o proof_bodies_of o single;
32725 57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	596
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	597
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	598	(* derivation status *)
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	599
50126 3dec88149176 theorem status about oracles/futures is no longer printed by default; wenzelm parents: 49008 diff changeset	600	fun peek_status (Thm (Deriv {promises, body}, _)) =
32725 57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	601	let
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	602	val ps = map (Future.peek o snd) promises;
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	603	val bodies = body ::
44331 aa9c1e9ef2ce clarified fulfill_norm_proof: no join_thms yet; wenzelm parents: 44330 diff changeset	604	map_filter (fn SOME (Exn.Res th) => SOME (raw_body_of th) \| _ => NONE) ps;
50126 3dec88149176 theorem status about oracles/futures is no longer printed by default; wenzelm parents: 49008 diff changeset	605	val {oracle, unfinished, failed} = Proofterm.peek_status bodies;
32725 57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	606	in
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	607	{oracle = oracle,
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	608	unfinished = unfinished orelse exists is_none ps,
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	609	failed = failed orelse exists (fn SOME (Exn.Exn _) => true \| _ => false) ps}
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	610	end;
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	611
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	612
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	613	(* future rule *)
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	614
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	615	fun future_result i orig_cert orig_shyps orig_prop thm =
32725 57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	616	let
36613 f3157c288aca simplified primitive Thm.future: more direct theory check, do not hardwire strip_shyps here; wenzelm parents: 36330 diff changeset	617	fun err msg = raise THM ("future_result: " ^ msg, 0, [thm]);
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	618	val Thm (Deriv {promises, ...}, {cert, shyps, hyps, tpairs, prop, ...}) = thm;
36613 f3157c288aca simplified primitive Thm.future: more direct theory check, do not hardwire strip_shyps here; wenzelm parents: 36330 diff changeset	619
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	620	val _ = Context.eq_certificate (cert, orig_cert) orelse err "bad theory";
32725 57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	621	val _ = prop aconv orig_prop orelse err "bad prop";
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	622	val _ = null tpairs orelse err "bad tpairs";
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	623	val _ = null hyps orelse err "bad hyps";
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	624	val _ = Sorts.subset (shyps, orig_shyps) orelse err "bad shyps";
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	625	val _ = forall (fn (j, _) => i <> j) promises orelse err "bad dependencies";
44331 aa9c1e9ef2ce clarified fulfill_norm_proof: no join_thms yet; wenzelm parents: 44330 diff changeset	626	val _ = join_promises promises;
32725 57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	627	in thm end;
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	628
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	629	fun future future_thm ct =
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	630	let
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	631	val Cterm {cert = cert, t = prop, T, maxidx, sorts} = ct;
32725 57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	632	val _ = T <> propT andalso raise CTERM ("future: prop expected", [ct]);
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	633
61050 3bc7dcc565dc clarified exceptions; wenzelm parents: 61048 diff changeset	634	val thy = theory_of_cterm ct;
32725 57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	635	val i = serial ();
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	636	val future = future_thm \|> Future.map (future_result i cert sorts prop);
32725 57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	637	in
37309 38ce84c83738 eliminated ML structure alias; wenzelm parents: 37297 diff changeset	638	Thm (make_deriv [(i, future)] [] [] (Proofterm.promise_proof thy i prop),
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	639	{cert = cert,
32725 57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	640	tags = [],
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	641	maxidx = maxidx,
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	642	shyps = sorts,
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	643	hyps = [],
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	644	tpairs = [],
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	645	prop = prop})
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	646	end;
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	647
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	648
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	649	(* closed derivations with official name *)
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	650
41699 21492e1c2b5a tuned comments; wenzelm parents: 40238 diff changeset	651	(non-deterministic, depends on unknown promises)
64568 a504a3dec35a more careful derivation_closed / close_derivation; wenzelm parents: 63858 diff changeset	652	fun derivation_closed (Thm (Deriv {body, ...}, _)) =
a504a3dec35a more careful derivation_closed / close_derivation; wenzelm parents: 63858 diff changeset	653	Proofterm.compact_proof (Proofterm.proof_of body);
a504a3dec35a more careful derivation_closed / close_derivation; wenzelm parents: 63858 diff changeset	654
a504a3dec35a more careful derivation_closed / close_derivation; wenzelm parents: 63858 diff changeset	655	(non-deterministic, depends on unknown promises)
37297 a1acd424645a always unconstrain thm proofs; wenzelm parents: 36983 diff changeset	656	fun derivation_name (Thm (Deriv {body, ...}, {shyps, hyps, prop, ...})) =
37309 38ce84c83738 eliminated ML structure alias; wenzelm parents: 37297 diff changeset	657	Proofterm.get_name shyps hyps prop (Proofterm.proof_of body);
32725 57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	658
36744 6e1f3d609a68 renamed Thm.get_name -> Thm.derivation_name and Thm.put_name -> Thm.name_derivation, to emphasize the true nature of these operations; wenzelm parents: 36742 diff changeset	659	fun name_derivation name (thm as Thm (der, args)) =
32725 57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	660	let
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	661	val Deriv {promises, body} = der;
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	662	val {shyps, hyps, prop, tpairs, ...} = args;
32725 57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	663	val _ = null tpairs orelse raise THM ("put_name: unsolved flex-flex constraints", 0, [thm]);
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	664	val thy = theory_of_thm thm;
32725 57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	665
41700 f33d5a00c25d thm_proof: visible fulfill_body only, without joining nested thms -- retain proof irrelevance, which is important for parallel performance; wenzelm parents: 41699 diff changeset	666	val ps = map (apsnd (Future.map fulfill_body)) promises;
37309 38ce84c83738 eliminated ML structure alias; wenzelm parents: 37297 diff changeset	667	val (pthm, proof) = Proofterm.thm_proof thy name shyps hyps prop ps body;
32725 57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	668	val der' = make_deriv [] [] [pthm] proof;
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	669	in Thm (der', args) end;
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	670
57e29093ecfb tuned internal source structure; wenzelm parents: 32590 diff changeset	671
1238 289c573327f0 considerably tuned shyps handling; wenzelm parents: 1229 diff changeset	672
1529 09d9ad015269 Addition of proof objects paulson parents: 1517 diff changeset	673	( Axioms )
387 69f4356d915d new datatype theory, supports 'draft theories' and incremental extension: wenzelm parents: 309 diff changeset	674
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	675	fun axiom thy0 name =
387 69f4356d915d new datatype theory, supports 'draft theories' and incremental extension: wenzelm parents: 309 diff changeset	676	let
16425 2427be27cc60 accomodate identification of type Sign.sg and theory; wenzelm parents: 16352 diff changeset	677	fun get_ax thy =
59884 bbf49d7dfd6f tuned signature; wenzelm parents: 59787 diff changeset	678	Name_Space.lookup (Theory.axiom_table thy) name
bbf49d7dfd6f tuned signature; wenzelm parents: 59787 diff changeset	679	\|> Option.map (fn prop =>
24143 90a9a6fe0d01 replaced Theory.self_ref by Theory.check_thy, which now produces a checked ref; wenzelm parents: 23781 diff changeset	680	let
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	681	val der = deriv_rule0 (Proofterm.axm_proof name prop);
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	682	val cert = Context.Certificate thy;
24143 90a9a6fe0d01 replaced Theory.self_ref by Theory.check_thy, which now produces a checked ref; wenzelm parents: 23781 diff changeset	683	val maxidx = maxidx_of_term prop;
26640 92e6d3ec91bd simplified handling of sorts, removed unnecessary universal witness; wenzelm parents: 26631 diff changeset	684	val shyps = Sorts.insert_term prop [];
24143 90a9a6fe0d01 replaced Theory.self_ref by Theory.check_thy, which now produces a checked ref; wenzelm parents: 23781 diff changeset	685	in
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	686	Thm (der, {cert = cert, tags = [],
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	687	maxidx = maxidx, shyps = shyps, hyps = [], tpairs = [], prop = prop})
24143 90a9a6fe0d01 replaced Theory.self_ref by Theory.check_thy, which now produces a checked ref; wenzelm parents: 23781 diff changeset	688	end);
387 69f4356d915d new datatype theory, supports 'draft theories' and incremental extension: wenzelm parents: 309 diff changeset	689	in
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	690	(case get_first get_ax (Theory.nodes_of thy0) of
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15454 diff changeset	691	SOME thm => thm
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	692	\| NONE => raise THEORY ("No axiom " ^ quote name, [thy0]))
387 69f4356d915d new datatype theory, supports 'draft theories' and incremental extension: wenzelm parents: 309 diff changeset	693	end;
69f4356d915d new datatype theory, supports 'draft theories' and incremental extension: wenzelm parents: 309 diff changeset	694
776 df8f91c0e57c improved axioms_of: returns thms as the manual says; wenzelm parents: 721 diff changeset	695	(return additional axioms of this theory node)
df8f91c0e57c improved axioms_of: returns thms as the manual says; wenzelm parents: 721 diff changeset	696	fun axioms_of thy =
56025 d74fed45fa8b abstract type Name_Space.table; wenzelm parents: 52789 diff changeset	697	map (fn (name, _) => (name, axiom thy name)) (Theory.axioms_of thy);
776 df8f91c0e57c improved axioms_of: returns thms as the manual says; wenzelm parents: 721 diff changeset	698
6089 4d2d5556b4f9 signature BASIC_THM; wenzelm parents: 5624 diff changeset	699
28804 5d3b1df16353 refined notion of derivation, consiting of promises and proof_body; wenzelm parents: 28675 diff changeset	700	(* tags *)
6089 4d2d5556b4f9 signature BASIC_THM; wenzelm parents: 5624 diff changeset	701
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	702	val get_tags = #tags o rep_thm;
6089 4d2d5556b4f9 signature BASIC_THM; wenzelm parents: 5624 diff changeset	703
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	704	fun map_tags f (Thm (der, {cert, tags, maxidx, shyps, hyps, tpairs, prop})) =
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	705	Thm (der, {cert = cert, tags = f tags, maxidx = maxidx,
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	706	shyps = shyps, hyps = hyps, tpairs = tpairs, prop = prop});
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	707
a5a9c433f639 Initial revision clasohm parents: diff changeset	708
43795 ca5896a836ba recovered some runtime sharing from d6b6c74a8bcf, without the global memory bottleneck; wenzelm parents: 43761 diff changeset	709	(* technical adjustments *)
ca5896a836ba recovered some runtime sharing from d6b6c74a8bcf, without the global memory bottleneck; wenzelm parents: 43761 diff changeset	710
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	711	fun norm_proof (th as Thm (der, args)) =
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	712	Thm (deriv_rule1 (Proofterm.rew_proof (theory_of_thm th)) der, args);
23781 ab793a6ddf9f Added function norm_proof for normalizing the proof term berghofe parents: 23657 diff changeset	713
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	714	fun adjust_maxidx_thm i (th as Thm (der, {cert, tags, maxidx, shyps, hyps, tpairs, prop})) =
20261 af51389aa756 adjust_maxidx: pass explicit lower bound; wenzelm parents: 20071 diff changeset	715	if maxidx = i then th
af51389aa756 adjust_maxidx: pass explicit lower bound; wenzelm parents: 20071 diff changeset	716	else if maxidx < i then
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	717	Thm (der, {maxidx = i, cert = cert, tags = tags, shyps = shyps,
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	718	hyps = hyps, tpairs = tpairs, prop = prop})
20261 af51389aa756 adjust_maxidx: pass explicit lower bound; wenzelm parents: 20071 diff changeset	719	else
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	720	Thm (der, {maxidx = Int.max (maxidx_tpairs tpairs (maxidx_of_term prop), i),
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	721	cert = cert, tags = tags, shyps = shyps, hyps = hyps, tpairs = tpairs, prop = prop});
564 eec3a9222b50 added inferT_axm; wenzelm parents: 480 diff changeset	722
387 69f4356d915d new datatype theory, supports 'draft theories' and incremental extension: wenzelm parents: 309 diff changeset	723
2509 0a7169d89b7a added termless parameter; wenzelm parents: 2386 diff changeset	724
1529 09d9ad015269 Addition of proof objects paulson parents: 1517 diff changeset	725	(* Meta rules *)
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	726
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	727	( primitive rules )
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	728
16656 18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	729	(The assumption rule A \|- A)
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	730	fun assume raw_ct =
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	731	let val Cterm {cert, t = prop, T, maxidx, sorts} = adjust_maxidx_cterm ~1 raw_ct in
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	732	if T <> propT then
19230 3342e7554b77 Shortened the exception messages from assume. mengj parents: 19012 diff changeset	733	raise THM ("assume: prop", 0, [])
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	734	else if maxidx <> ~1 then
19230 3342e7554b77 Shortened the exception messages from assume. mengj parents: 19012 diff changeset	735	raise THM ("assume: variables", maxidx, [])
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	736	else Thm (deriv_rule0 (Proofterm.Hyp prop),
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	737	{cert = cert,
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	738	tags = [],
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	739	maxidx = ~1,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	740	shyps = sorts,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	741	hyps = [prop],
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	742	tpairs = [],
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	743	prop = prop})
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	744	end;
a5a9c433f639 Initial revision clasohm parents: diff changeset	745
1220 3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	746	(*Implication introduction
3529 31186470665f tuned warning; wenzelm parents: 3410 diff changeset	747	[A]
31186470665f tuned warning; wenzelm parents: 3410 diff changeset	748	:
31186470665f tuned warning; wenzelm parents: 3410 diff changeset	749	B
1220 3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	750	-------
3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	751	A ==> B
3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	752	*)
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	753	fun implies_intr
16679 abd1461fa288 dest_ctyp: raise exception for non-constructor; wenzelm parents: 16656 diff changeset	754	(ct as Cterm {t = A, T, maxidx = maxidxA, sorts, ...})
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	755	(th as Thm (der, {maxidx, hyps, shyps, tpairs, prop, ...})) =
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	756	if T <> propT then
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	757	raise THM ("implies_intr: assumptions must have type prop", 0, [th])
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	758	else
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	759	Thm (deriv_rule1 (Proofterm.implies_intr_proof A) der,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	760	{cert = join_certificate1 (ct, th),
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	761	tags = [],
48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	762	maxidx = Int.max (maxidxA, maxidx),
48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	763	shyps = Sorts.union sorts shyps,
48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	764	hyps = remove_hyps A hyps,
48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	765	tpairs = tpairs,
48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	766	prop = Logic.mk_implies (A, prop)});
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	767
1529 09d9ad015269 Addition of proof objects paulson parents: 1517 diff changeset	768
1220 3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	769	(*Implication elimination
3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	770	A ==> B A
3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	771	------------
3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	772	B
3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	773	*)
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	774	fun implies_elim thAB thA =
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	775	let
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	776	val Thm (derA, {maxidx = maxA, hyps = hypsA, shyps = shypsA, tpairs = tpairsA,
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	777	prop = propA, ...}) = thA
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	778	and Thm (der, {maxidx, hyps, shyps, tpairs, prop, ...}) = thAB;
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	779	fun err () = raise THM ("implies_elim: major premise", 0, [thAB, thA]);
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	780	in
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	781	case prop of
56245 84fc7dfa3cd4 more qualified names; wenzelm parents: 56052 diff changeset	782	Const ("Pure.imp", _) $ A $ B =>
20512 a041c2afb52e ctyp: maintain maxidx; wenzelm parents: 20348 diff changeset	783	if A aconv propA then
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	784	Thm (deriv_rule2 (curry Proofterm.%%) der derA,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	785	{cert = join_certificate2 (thAB, thA),
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	786	tags = [],
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	787	maxidx = Int.max (maxA, maxidx),
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	788	shyps = Sorts.union shypsA shyps,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	789	hyps = union_hyps hypsA hyps,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	790	tpairs = union_tpairs tpairsA tpairs,
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	791	prop = B})
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	792	else err ()
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	793	\| _ => err ()
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	794	end;
250 9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	795
1220 3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	796	(*Forall introduction. The Free or Var x must not be free in the hypotheses.
16656 18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	797	[x]
18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	798	:
18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	799	A
18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	800	------
18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	801	!!x. A
1220 3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	802	*)
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	803	fun forall_intr
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	804	(ct as Cterm {t = x, T, sorts, ...})
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	805	(th as Thm (der, {maxidx, shyps, hyps, tpairs, prop, ...})) =
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	806	let
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	807	fun result a =
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	808	Thm (deriv_rule1 (Proofterm.forall_intr_proof x a) der,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	809	{cert = join_certificate1 (ct, th),
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	810	tags = [],
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	811	maxidx = maxidx,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	812	shyps = Sorts.union sorts shyps,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	813	hyps = hyps,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	814	tpairs = tpairs,
46217 7b19666f0e3d renamed Term.all to Logic.all_const, in accordance to HOLogic.all_const; wenzelm parents: 45443 diff changeset	815	prop = Logic.all_const T $ Abs (a, T, abstract_over (x, prop))});
21798 a1399df6ecf3 tuned error messages; wenzelm parents: 21646 diff changeset	816	fun check_occs a x ts =
16847 8fc160b12e73 invoke_oracle: do not keep theory value, but theory_ref; wenzelm parents: 16725 diff changeset	817	if exists (fn t => Logic.occs (x, t)) ts then
21798 a1399df6ecf3 tuned error messages; wenzelm parents: 21646 diff changeset	818	raise THM ("forall_intr: variable " ^ quote a ^ " free in assumptions", 0, [th])
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	819	else ();
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	820	in
52788 da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	821	(case x of
21798 a1399df6ecf3 tuned error messages; wenzelm parents: 21646 diff changeset	822	Free (a, _) => (check_occs a x hyps; check_occs a x (terms_of_tpairs tpairs); result a)
a1399df6ecf3 tuned error messages; wenzelm parents: 21646 diff changeset	823	\| Var ((a, _), _) => (check_occs a x (terms_of_tpairs tpairs); result a)
52788 da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	824	\| _ => raise THM ("forall_intr: not a variable", 0, [th]))
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	825	end;
a5a9c433f639 Initial revision clasohm parents: diff changeset	826
1220 3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	827	(*Forall elimination
16656 18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	828	!!x. A
1220 3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	829	------
3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	830	A[t/x]
3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	831	*)
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	832	fun forall_elim
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	833	(ct as Cterm {t, T, maxidx = maxt, sorts, ...})
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	834	(th as Thm (der, {maxidx, shyps, hyps, tpairs, prop, ...})) =
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	835	(case prop of
56245 84fc7dfa3cd4 more qualified names; wenzelm parents: 56052 diff changeset	836	Const ("Pure.all", Type ("fun", [Type ("fun", [qary, _]), _])) $ A =>
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	837	if T <> qary then
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	838	raise THM ("forall_elim: type mismatch", 0, [th])
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	839	else
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	840	Thm (deriv_rule1 (Proofterm.% o rpair (SOME t)) der,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	841	{cert = join_certificate1 (ct, th),
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	842	tags = [],
48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	843	maxidx = Int.max (maxidx, maxt),
48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	844	shyps = Sorts.union sorts shyps,
48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	845	hyps = hyps,
48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	846	tpairs = tpairs,
48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	847	prop = Term.betapply (A, t)})
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	848	\| _ => raise THM ("forall_elim: not quantified", 0, [th]));
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	849
a5a9c433f639 Initial revision clasohm parents: diff changeset	850
1220 3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	851	(* Equality *)
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	852
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	853	(*Reflexivity
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	854	t == t
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	855	*)
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	856	fun reflexive (Cterm {cert, t, T = _, maxidx, sorts}) =
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	857	Thm (deriv_rule0 Proofterm.reflexive,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	858	{cert = cert,
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	859	tags = [],
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	860	maxidx = maxidx,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	861	shyps = sorts,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	862	hyps = [],
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	863	tpairs = [],
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	864	prop = Logic.mk_equals (t, t)});
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	865
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	866	(*Symmetry
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	867	t == u
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	868	------
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	869	u == t
1220 3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	870	*)
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	871	fun symmetric (th as Thm (der, {cert, maxidx, shyps, hyps, tpairs, prop, ...})) =
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	872	(case prop of
56245 84fc7dfa3cd4 more qualified names; wenzelm parents: 56052 diff changeset	873	(eq as Const ("Pure.eq", _)) $ t $ u =>
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	874	Thm (deriv_rule1 Proofterm.symmetric der,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	875	{cert = cert,
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	876	tags = [],
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	877	maxidx = maxidx,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	878	shyps = shyps,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	879	hyps = hyps,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	880	tpairs = tpairs,
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	881	prop = eq $ u $ t})
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	882	\| _ => raise THM ("symmetric", 0, [th]));
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	883
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	884	(*Transitivity
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	885	t1 == u u == t2
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	886	------------------
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	887	t1 == t2
1220 3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	888	*)
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	889	fun transitive th1 th2 =
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	890	let
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	891	val Thm (der1, {maxidx = max1, hyps = hyps1, shyps = shyps1, tpairs = tpairs1,
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	892	prop = prop1, ...}) = th1
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	893	and Thm (der2, {maxidx = max2, hyps = hyps2, shyps = shyps2, tpairs = tpairs2,
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	894	prop = prop2, ...}) = th2;
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	895	fun err msg = raise THM ("transitive: " ^ msg, 0, [th1, th2]);
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	896	in
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	897	case (prop1, prop2) of
56245 84fc7dfa3cd4 more qualified names; wenzelm parents: 56052 diff changeset	898	((eq as Const ("Pure.eq", Type (_, [T, _]))) $ t1 $ u, Const ("Pure.eq", _) $ u' $ t2) =>
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	899	if not (u aconv u') then err "middle term"
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	900	else
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	901	Thm (deriv_rule2 (Proofterm.transitive u T) der1 der2,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	902	{cert = join_certificate2 (th1, th2),
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	903	tags = [],
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	904	maxidx = Int.max (max1, max2),
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	905	shyps = Sorts.union shyps1 shyps2,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	906	hyps = union_hyps hyps1 hyps2,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	907	tpairs = union_tpairs tpairs1 tpairs2,
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	908	prop = eq $ t1 $ t2})
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	909	\| _ => err "premises"
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	910	end;
a5a9c433f639 Initial revision clasohm parents: diff changeset	911
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	912	(*Beta-conversion
16656 18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	913	(%x. t)(u) == t[u/x]
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	914	fully beta-reduces the term if full = true
10416 5b33e732e459 - Moved rewriting functions to meta_simplifier.ML berghofe parents: 10348 diff changeset	915	*)
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	916	fun beta_conversion full (Cterm {cert, t, T = _, maxidx, sorts}) =
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	917	let val t' =
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	918	if full then Envir.beta_norm t
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	919	else
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	920	(case t of Abs (_, _, bodt) $ u => subst_bound (u, bodt)
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	921	\| _ => raise THM ("beta_conversion: not a redex", 0, []));
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	922	in
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	923	Thm (deriv_rule0 Proofterm.reflexive,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	924	{cert = cert,
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	925	tags = [],
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	926	maxidx = maxidx,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	927	shyps = sorts,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	928	hyps = [],
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	929	tpairs = [],
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	930	prop = Logic.mk_equals (t, t')})
10416 5b33e732e459 - Moved rewriting functions to meta_simplifier.ML berghofe parents: 10348 diff changeset	931	end;
5b33e732e459 - Moved rewriting functions to meta_simplifier.ML berghofe parents: 10348 diff changeset	932
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	933	fun eta_conversion (Cterm {cert, t, T = _, maxidx, sorts}) =
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	934	Thm (deriv_rule0 Proofterm.reflexive,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	935	{cert = cert,
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	936	tags = [],
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	937	maxidx = maxidx,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	938	shyps = sorts,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	939	hyps = [],
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	940	tpairs = [],
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	941	prop = Logic.mk_equals (t, Envir.eta_contract t)});
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	942
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	943	fun eta_long_conversion (Cterm {cert, t, T = _, maxidx, sorts}) =
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	944	Thm (deriv_rule0 Proofterm.reflexive,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	945	{cert = cert,
23493 a056eefb76e5 added eta_long_conversion; wenzelm parents: 23296 diff changeset	946	tags = [],
a056eefb76e5 added eta_long_conversion; wenzelm parents: 23296 diff changeset	947	maxidx = maxidx,
a056eefb76e5 added eta_long_conversion; wenzelm parents: 23296 diff changeset	948	shyps = sorts,
a056eefb76e5 added eta_long_conversion; wenzelm parents: 23296 diff changeset	949	hyps = [],
a056eefb76e5 added eta_long_conversion; wenzelm parents: 23296 diff changeset	950	tpairs = [],
52131 366fa32ee2a3 tuned signature; wenzelm parents: 51604 diff changeset	951	prop = Logic.mk_equals (t, Envir.eta_long [] t)});
23493 a056eefb76e5 added eta_long_conversion; wenzelm parents: 23296 diff changeset	952
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	953	(*The abstraction rule. The Free or Var x must not be free in the hypotheses.
a5a9c433f639 Initial revision clasohm parents: diff changeset	954	The bound variable will be named "a" (since x will be something like x320)
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	955	t == u
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	956	--------------
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	957	%x. t == %x. u
1220 3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	958	*)
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	959	fun abstract_rule a
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	960	(Cterm {t = x, T, sorts, ...})
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	961	(th as Thm (der, {cert, maxidx, hyps, shyps, tpairs, prop, ...})) =
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	962	let
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	963	val (t, u) = Logic.dest_equals prop
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	964	handle TERM _ => raise THM ("abstract_rule: premise not an equality", 0, [th]);
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	965	val result =
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	966	Thm (deriv_rule1 (Proofterm.abstract_rule x a) der,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	967	{cert = cert,
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	968	tags = [],
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	969	maxidx = maxidx,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	970	shyps = Sorts.union sorts shyps,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	971	hyps = hyps,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	972	tpairs = tpairs,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	973	prop = Logic.mk_equals
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	974	(Abs (a, T, abstract_over (x, t)), Abs (a, T, abstract_over (x, u)))});
21798 a1399df6ecf3 tuned error messages; wenzelm parents: 21646 diff changeset	975	fun check_occs a x ts =
16847 8fc160b12e73 invoke_oracle: do not keep theory value, but theory_ref; wenzelm parents: 16725 diff changeset	976	if exists (fn t => Logic.occs (x, t)) ts then
21798 a1399df6ecf3 tuned error messages; wenzelm parents: 21646 diff changeset	977	raise THM ("abstract_rule: variable " ^ quote a ^ " free in assumptions", 0, [th])
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	978	else ();
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	979	in
52788 da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	980	(case x of
21798 a1399df6ecf3 tuned error messages; wenzelm parents: 21646 diff changeset	981	Free (a, _) => (check_occs a x hyps; check_occs a x (terms_of_tpairs tpairs); result)
a1399df6ecf3 tuned error messages; wenzelm parents: 21646 diff changeset	982	\| Var ((a, _), _) => (check_occs a x (terms_of_tpairs tpairs); result)
52788 da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	983	\| _ => raise THM ("abstract_rule: not a variable", 0, [th]))
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	984	end;
a5a9c433f639 Initial revision clasohm parents: diff changeset	985
a5a9c433f639 Initial revision clasohm parents: diff changeset	986	(*The combination rule
3529 31186470665f tuned warning; wenzelm parents: 3410 diff changeset	987	f == g t == u
31186470665f tuned warning; wenzelm parents: 3410 diff changeset	988	--------------
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	989	f t == g u
1220 3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	990	*)
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	991	fun combination th1 th2 =
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	992	let
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	993	val Thm (der1, {maxidx = max1, shyps = shyps1, hyps = hyps1, tpairs = tpairs1,
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	994	prop = prop1, ...}) = th1
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	995	and Thm (der2, {maxidx = max2, shyps = shyps2, hyps = hyps2, tpairs = tpairs2,
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	996	prop = prop2, ...}) = th2;
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	997	fun chktypes fT tT =
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	998	(case fT of
32784 1a5dde5079ac eliminated redundant bindings; wenzelm parents: 32726 diff changeset	999	Type ("fun", [T1, _]) =>
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1000	if T1 <> tT then
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1001	raise THM ("combination: types", 0, [th1, th2])
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1002	else ()
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1003	\| _ => raise THM ("combination: not function type", 0, [th1, th2]));
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1004	in
52788 da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	1005	(case (prop1, prop2) of
56245 84fc7dfa3cd4 more qualified names; wenzelm parents: 56052 diff changeset	1006	(Const ("Pure.eq", Type ("fun", [fT, _])) $ f $ g,
84fc7dfa3cd4 more qualified names; wenzelm parents: 56052 diff changeset	1007	Const ("Pure.eq", Type ("fun", [tT, _])) $ t $ u) =>
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1008	(chktypes fT tT;
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1009	Thm (deriv_rule2 (Proofterm.combination f g t u fT) der1 der2,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1010	{cert = join_certificate2 (th1, th2),
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	1011	tags = [],
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1012	maxidx = Int.max (max1, max2),
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1013	shyps = Sorts.union shyps1 shyps2,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1014	hyps = union_hyps hyps1 hyps2,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1015	tpairs = union_tpairs tpairs1 tpairs2,
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1016	prop = Logic.mk_equals (f $ t, g $ u)}))
52788 da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	1017	\| _ => raise THM ("combination: premises", 0, [th1, th2]))
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1018	end;
a5a9c433f639 Initial revision clasohm parents: diff changeset	1019
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1020	(*Equality introduction
3529 31186470665f tuned warning; wenzelm parents: 3410 diff changeset	1021	A ==> B B ==> A
31186470665f tuned warning; wenzelm parents: 3410 diff changeset	1022	----------------
31186470665f tuned warning; wenzelm parents: 3410 diff changeset	1023	A == B
1220 3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	1024	*)
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1025	fun equal_intr th1 th2 =
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1026	let
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1027	val Thm (der1, {maxidx = max1, shyps = shyps1, hyps = hyps1, tpairs = tpairs1,
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1028	prop = prop1, ...}) = th1
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1029	and Thm (der2, {maxidx = max2, shyps = shyps2, hyps = hyps2, tpairs = tpairs2,
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1030	prop = prop2, ...}) = th2;
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1031	fun err msg = raise THM ("equal_intr: " ^ msg, 0, [th1, th2]);
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1032	in
52788 da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	1033	(case (prop1, prop2) of
56245 84fc7dfa3cd4 more qualified names; wenzelm parents: 56052 diff changeset	1034	(Const("Pure.imp", _) $ A $ B, Const("Pure.imp", _) $ B' $ A') =>
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1035	if A aconv A' andalso B aconv B' then
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1036	Thm (deriv_rule2 (Proofterm.equal_intr A B) der1 der2,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1037	{cert = join_certificate2 (th1, th2),
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	1038	tags = [],
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1039	maxidx = Int.max (max1, max2),
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1040	shyps = Sorts.union shyps1 shyps2,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1041	hyps = union_hyps hyps1 hyps2,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1042	tpairs = union_tpairs tpairs1 tpairs2,
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1043	prop = Logic.mk_equals (A, B)})
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1044	else err "not equal"
52788 da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	1045	\| _ => err "premises")
1529 09d9ad015269 Addition of proof objects paulson parents: 1517 diff changeset	1046	end;
09d9ad015269 Addition of proof objects paulson parents: 1517 diff changeset	1047
09d9ad015269 Addition of proof objects paulson parents: 1517 diff changeset	1048	(*The equal propositions rule
3529 31186470665f tuned warning; wenzelm parents: 3410 diff changeset	1049	A == B A
1529 09d9ad015269 Addition of proof objects paulson parents: 1517 diff changeset	1050	---------
09d9ad015269 Addition of proof objects paulson parents: 1517 diff changeset	1051	B
09d9ad015269 Addition of proof objects paulson parents: 1517 diff changeset	1052	*)
09d9ad015269 Addition of proof objects paulson parents: 1517 diff changeset	1053	fun equal_elim th1 th2 =
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1054	let
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1055	val Thm (der1, {maxidx = max1, shyps = shyps1, hyps = hyps1,
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1056	tpairs = tpairs1, prop = prop1, ...}) = th1
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1057	and Thm (der2, {maxidx = max2, shyps = shyps2, hyps = hyps2,
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1058	tpairs = tpairs2, prop = prop2, ...}) = th2;
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1059	fun err msg = raise THM ("equal_elim: " ^ msg, 0, [th1, th2]);
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1060	in
52788 da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	1061	(case prop1 of
56245 84fc7dfa3cd4 more qualified names; wenzelm parents: 56052 diff changeset	1062	Const ("Pure.eq", _) $ A $ B =>
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1063	if prop2 aconv A then
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1064	Thm (deriv_rule2 (Proofterm.equal_elim A B) der1 der2,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1065	{cert = join_certificate2 (th1, th2),
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	1066	tags = [],
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1067	maxidx = Int.max (max1, max2),
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1068	shyps = Sorts.union shyps1 shyps2,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1069	hyps = union_hyps hyps1 hyps2,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1070	tpairs = union_tpairs tpairs1 tpairs2,
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1071	prop = B})
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1072	else err "not equal"
52789 44fd3add1348 tuned; wenzelm parents: 52788 diff changeset	1073	\| _ => err "major premise")
1529 09d9ad015269 Addition of proof objects paulson parents: 1517 diff changeset	1074	end;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1075
1220 3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	1076
3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	1077
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1078	(** Derived rules **)
a5a9c433f639 Initial revision clasohm parents: diff changeset	1079
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1080	(*Smash unifies the list of term pairs leaving no flex-flex pairs.
24143 90a9a6fe0d01 replaced Theory.self_ref by Theory.check_thy, which now produces a checked ref; wenzelm parents: 23781 diff changeset	1081	Instantiates the theorem and deletes trivial tpairs. Resulting
90a9a6fe0d01 replaced Theory.self_ref by Theory.check_thy, which now produces a checked ref; wenzelm parents: 23781 diff changeset	1082	sequence may contain multiple elements if the tpairs are not all
90a9a6fe0d01 replaced Theory.self_ref by Theory.check_thy, which now produces a checked ref; wenzelm parents: 23781 diff changeset	1083	flex-flex.*)
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1084	fun flexflex_rule opt_ctxt (th as Thm (der, {cert, maxidx, shyps, hyps, tpairs, prop, ...})) =
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1085	Unify.smash_unifiers (make_context [th] opt_ctxt cert) tpairs (Envir.empty maxidx)
52788 da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	1086	\|> Seq.map (fn env =>
da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	1087	if Envir.is_empty env then th
da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	1088	else
da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	1089	let
59058 a78612c67ec0 renamed "pairself" to "apply2", in accordance to @{apply 2}; wenzelm parents: 58950 diff changeset	1090	val tpairs' = tpairs \|> map (apply2 (Envir.norm_term env))
52788 da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	1091	(remove trivial tpairs, of the form t==t)
da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	1092	\|> filter_out (op aconv);
da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	1093	val der' = deriv_rule1 (Proofterm.norm_proof' env) der;
da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	1094	val prop' = Envir.norm_term env prop;
da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	1095	val maxidx = maxidx_tpairs tpairs' (maxidx_of_term prop');
da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	1096	val shyps = Envir.insert_sorts env shyps;
da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	1097	in
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1098	Thm (der', {cert = cert, tags = [], maxidx = maxidx,
52788 da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	1099	shyps = shyps, hyps = hyps, tpairs = tpairs', prop = prop'})
da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	1100	end);
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1101
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1102
19910 2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1103	(*Generalization of fixed variables
2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1104	A
2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1105	--------------------
2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1106	A[?'a/'a, ?x/x, ...]
2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1107	*)
2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1108
2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1109	fun generalize ([], []) _ th = th
2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1110	\| generalize (tfrees, frees) idx th =
2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1111	let
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1112	val Thm (der, {cert, maxidx, shyps, hyps, tpairs, prop, ...}) = th;
19910 2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1113	val _ = idx <= maxidx andalso raise THM ("generalize: bad index", idx, [th]);
2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1114
33697 7d6793ce0a26 tuned; wenzelm parents: 33522 diff changeset	1115	val bad_type =
7d6793ce0a26 tuned; wenzelm parents: 33522 diff changeset	1116	if null tfrees then K false
7d6793ce0a26 tuned; wenzelm parents: 33522 diff changeset	1117	else Term.exists_subtype (fn TFree (a, _) => member (op =) tfrees a \| _ => false);
19910 2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1118	fun bad_term (Free (x, T)) = bad_type T orelse member (op =) frees x
2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1119	\| bad_term (Var (_, T)) = bad_type T
2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1120	\| bad_term (Const (_, T)) = bad_type T
2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1121	\| bad_term (Abs (_, T, t)) = bad_type T orelse bad_term t
2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1122	\| bad_term (t $ u) = bad_term t orelse bad_term u
2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1123	\| bad_term (Bound _) = false;
2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1124	val _ = exists bad_term hyps andalso
2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1125	raise THM ("generalize: variable free in assumptions", 0, [th]);
2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1126
31977 e03059ae2d82 renamed structure TermSubst to Term_Subst; wenzelm parents: 31947 diff changeset	1127	val gen = Term_Subst.generalize (tfrees, frees) idx;
19910 2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1128	val prop' = gen prop;
59058 a78612c67ec0 renamed "pairself" to "apply2", in accordance to @{apply 2}; wenzelm parents: 58950 diff changeset	1129	val tpairs' = map (apply2 gen) tpairs;
19910 2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1130	val maxidx' = maxidx_tpairs tpairs' (maxidx_of_term prop');
2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1131	in
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1132	Thm (deriv_rule1 (Proofterm.generalize (tfrees, frees) idx) der,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1133	{cert = cert,
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	1134	tags = [],
19910 2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1135	maxidx = maxidx',
2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1136	shyps = shyps,
2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1137	hyps = hyps,
2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1138	tpairs = tpairs',
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1139	prop = prop'})
19910 2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1140	end;
2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1141
2b4a222fef3c added generalize rule; wenzelm parents: 19881 diff changeset	1142
22584 d0f0f37ec346 improved exception CTERM; wenzelm parents: 22573 diff changeset	1143	(*Instantiation of schematic variables
16656 18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	1144	A
18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	1145	--------------------
18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	1146	A[t1/v1, ..., tn/vn]
1220 3b0b8408fc5f MAJOR changes: wenzelm parents: 1195 diff changeset	1147	*)
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1148
6928 9b4cd97b459d improved error msgs of instantiate; wenzelm parents: 6899 diff changeset	1149	local
9b4cd97b459d improved error msgs of instantiate; wenzelm parents: 6899 diff changeset	1150
26939 1035c89b4c02 moved global pretty/string_of functions from Sign to Syntax; wenzelm parents: 26832 diff changeset	1151	fun pretty_typing thy t T = Pretty.block
1035c89b4c02 moved global pretty/string_of functions from Sign to Syntax; wenzelm parents: 26832 diff changeset	1152	[Syntax.pretty_term_global thy t, Pretty.str " ::", Pretty.brk 1, Syntax.pretty_typ_global thy T];
15797 a63605582573 - Eliminated nodup_vars check. berghofe parents: 15672 diff changeset	1153
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1154	fun add_inst (v as (_, T), cu) (cert, sorts) =
6928 9b4cd97b459d improved error msgs of instantiate; wenzelm parents: 6899 diff changeset	1155	let
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1156	val Cterm {t = u, T = U, cert = cert2, sorts = sorts_u, maxidx = maxidx_u, ...} = cu;
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1157	val cert' = Context.join_certificate (cert, cert2);
16884 1678a796b6b2 tuned instantiate (avoid subst_atomic, subst_atomic_types); wenzelm parents: 16847 diff changeset	1158	val sorts' = Sorts.union sorts_u sorts;
3967 edd5ff9371f8 sg_ref: automatic adjustment of thms of draft theories; wenzelm parents: 3895 diff changeset	1159	in
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1160	if T = U then ((v, (u, maxidx_u)), (cert', sorts'))
60642 48dd1cefb4ae simplified Thm.instantiate and derivatives: the LHS refers to non-certified variables -- this merely serves as index into already certified structures (or is ignored); wenzelm parents: 60638 diff changeset	1161	else
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1162	let
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1163	val msg =
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1164	(case cert' of
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1165	Context.Certificate thy' =>
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1166	Pretty.string_of (Pretty.block
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1167	[Pretty.str "instantiate: type conflict",
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1168	Pretty.fbrk, pretty_typing thy' (Var v) T,
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1169	Pretty.fbrk, pretty_typing thy' u U])
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1170	\| Context.Certificate_Id _ => "instantiate: type conflict");
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1171	in raise TYPE (msg, [T, U], [Var v, u]) end
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1172	end;
a5a9c433f639 Initial revision clasohm parents: diff changeset	1173
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1174	fun add_instT (v as (_, S), cU) (cert, sorts) =
16656 18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	1175	let
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1176	val Ctyp {T = U, cert = cert2, sorts = sorts_U, maxidx = maxidx_U, ...} = cU;
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1177	val cert' = Context.join_certificate (cert, cert2);
61051 310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	1178	val thy' = Context.certificate_theory cert'
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	1179	handle ERROR msg => raise CONTEXT (msg, [cU], [], [], NONE);
16884 1678a796b6b2 tuned instantiate (avoid subst_atomic, subst_atomic_types); wenzelm parents: 16847 diff changeset	1180	val sorts' = Sorts.union sorts_U sorts;
16656 18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	1181	in
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1182	if Sign.of_sort thy' (U, S) then ((v, (U, maxidx_U)), (cert', sorts'))
60642 48dd1cefb4ae simplified Thm.instantiate and derivatives: the LHS refers to non-certified variables -- this merely serves as index into already certified structures (or is ignored); wenzelm parents: 60638 diff changeset	1183	else raise TYPE ("Type not of sort " ^ Syntax.string_of_sort_global thy' S, [U], [])
16656 18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	1184	end;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1185
6928 9b4cd97b459d improved error msgs of instantiate; wenzelm parents: 6899 diff changeset	1186	in
9b4cd97b459d improved error msgs of instantiate; wenzelm parents: 6899 diff changeset	1187
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1188	(*Left-to-right replacements: ctpairs = [..., (vi, ti), ...].
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1189	Instantiates distinct Vars by terms of same type.
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1190	Does NOT normalize the resulting theorem!*)
1529 09d9ad015269 Addition of proof objects paulson parents: 1517 diff changeset	1191	fun instantiate ([], []) th = th
16884 1678a796b6b2 tuned instantiate (avoid subst_atomic, subst_atomic_types); wenzelm parents: 16847 diff changeset	1192	\| instantiate (instT, inst) th =
16656 18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	1193	let
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1194	val Thm (der, {cert, hyps, shyps, tpairs, prop, ...}) = th;
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1195	val (inst', (instT', (cert', shyps'))) =
61051 310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	1196	(cert, shyps) \|> fold_map add_inst inst \|\|> fold_map add_instT instT
61053 62f3b4988277 tuned; wenzelm parents: 61051 diff changeset	1197	handle CONTEXT (msg, cTs, cts, ths, context) =>
62f3b4988277 tuned; wenzelm parents: 61051 diff changeset	1198	raise CONTEXT (msg, cTs, cts, th :: ths, context);
31977 e03059ae2d82 renamed structure TermSubst to Term_Subst; wenzelm parents: 31947 diff changeset	1199	val subst = Term_Subst.instantiate_maxidx (instT', inst');
20512 a041c2afb52e ctyp: maintain maxidx; wenzelm parents: 20348 diff changeset	1200	val (prop', maxidx1) = subst prop ~1;
a041c2afb52e ctyp: maintain maxidx; wenzelm parents: 20348 diff changeset	1201	val (tpairs', maxidx') =
a041c2afb52e ctyp: maintain maxidx; wenzelm parents: 20348 diff changeset	1202	fold_map (fn (t, u) => fn i => subst t i \|\|>> subst u) tpairs maxidx1;
16656 18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	1203	in
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1204	Thm (deriv_rule1
37309 38ce84c83738 eliminated ML structure alias; wenzelm parents: 37297 diff changeset	1205	(fn d => Proofterm.instantiate (map (apsnd #1) instT', map (apsnd #1) inst') d) der,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1206	{cert = cert',
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	1207	tags = [],
20545 4c1068697159 instantiate: omit has_duplicates check, which is irrelevant for soundness; wenzelm parents: 20512 diff changeset	1208	maxidx = maxidx',
4c1068697159 instantiate: omit has_duplicates check, which is irrelevant for soundness; wenzelm parents: 20512 diff changeset	1209	shyps = shyps',
4c1068697159 instantiate: omit has_duplicates check, which is irrelevant for soundness; wenzelm parents: 20512 diff changeset	1210	hyps = hyps,
4c1068697159 instantiate: omit has_duplicates check, which is irrelevant for soundness; wenzelm parents: 20512 diff changeset	1211	tpairs = tpairs',
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1212	prop = prop'})
16656 18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	1213	end
18b0cb22057d ctyp: added 'sorts' field; wenzelm parents: 16601 diff changeset	1214	handle TYPE (msg, _, _) => raise THM (msg, 0, [th]);
6928 9b4cd97b459d improved error msgs of instantiate; wenzelm parents: 6899 diff changeset	1215
22584 d0f0f37ec346 improved exception CTERM; wenzelm parents: 22573 diff changeset	1216	fun instantiate_cterm ([], []) ct = ct
d0f0f37ec346 improved exception CTERM; wenzelm parents: 22573 diff changeset	1217	\| instantiate_cterm (instT, inst) ct =
d0f0f37ec346 improved exception CTERM; wenzelm parents: 22573 diff changeset	1218	let
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1219	val Cterm {cert, t, T, sorts, ...} = ct;
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1220	val (inst', (instT', (cert', sorts'))) =
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1221	(cert, sorts) \|> fold_map add_inst inst \|\|> fold_map add_instT instT;
31977 e03059ae2d82 renamed structure TermSubst to Term_Subst; wenzelm parents: 31947 diff changeset	1222	val subst = Term_Subst.instantiate_maxidx (instT', inst');
e03059ae2d82 renamed structure TermSubst to Term_Subst; wenzelm parents: 31947 diff changeset	1223	val substT = Term_Subst.instantiateT_maxidx instT';
22584 d0f0f37ec346 improved exception CTERM; wenzelm parents: 22573 diff changeset	1224	val (t', maxidx1) = subst t ~1;
d0f0f37ec346 improved exception CTERM; wenzelm parents: 22573 diff changeset	1225	val (T', maxidx') = substT T maxidx1;
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1226	in Cterm {cert = cert', t = t', T = T', sorts = sorts', maxidx = maxidx'} end
22584 d0f0f37ec346 improved exception CTERM; wenzelm parents: 22573 diff changeset	1227	handle TYPE (msg, _, _) => raise CTERM (msg, [ct]);
d0f0f37ec346 improved exception CTERM; wenzelm parents: 22573 diff changeset	1228
6928 9b4cd97b459d improved error msgs of instantiate; wenzelm parents: 6899 diff changeset	1229	end;
9b4cd97b459d improved error msgs of instantiate; wenzelm parents: 6899 diff changeset	1230
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1231
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1232	(*The trivial implication A ==> A, justified by assume and forall rules.
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1233	A can contain Vars, not so for assume!*)
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1234	fun trivial (Cterm {cert, t = A, T, maxidx, sorts}) =
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1235	if T <> propT then
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1236	raise THM ("trivial: the term must have type prop", 0, [])
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1237	else
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1238	Thm (deriv_rule0 (Proofterm.AbsP ("H", NONE, Proofterm.PBound 0)),
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1239	{cert = cert,
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	1240	tags = [],
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1241	maxidx = maxidx,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1242	shyps = sorts,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1243	hyps = [],
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1244	tpairs = [],
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1245	prop = Logic.mk_implies (A, A)});
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1246
31944 c8a35979a5bc clarified Thm.of_class/of_sort/class_triv; wenzelm parents: 31943 diff changeset	1247	(*Axiom-scheme reflecting signature contents
c8a35979a5bc clarified Thm.of_class/of_sort/class_triv; wenzelm parents: 31943 diff changeset	1248	T :: c
c8a35979a5bc clarified Thm.of_class/of_sort/class_triv; wenzelm parents: 31943 diff changeset	1249	-------------------
c8a35979a5bc clarified Thm.of_class/of_sort/class_triv; wenzelm parents: 31943 diff changeset	1250	OFCLASS(T, c_class)
c8a35979a5bc clarified Thm.of_class/of_sort/class_triv; wenzelm parents: 31943 diff changeset	1251	*)
c8a35979a5bc clarified Thm.of_class/of_sort/class_triv; wenzelm parents: 31943 diff changeset	1252	fun of_class (cT, raw_c) =
24143 90a9a6fe0d01 replaced Theory.self_ref by Theory.check_thy, which now produces a checked ref; wenzelm parents: 23781 diff changeset	1253	let
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1254	val Ctyp {cert, T, ...} = cT;
61051 310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	1255	val thy = Context.certificate_theory cert
310cf33d5481 clarified exceptions; wenzelm parents: 61050 diff changeset	1256	handle ERROR msg => raise CONTEXT (msg, [cT], [], [], NONE);
31903 c5221dbc40f6 added pro-forma proof constructor Inclass; wenzelm parents: 30717 diff changeset	1257	val c = Sign.certify_class thy raw_c;
59621 291934bac95e Thm.cterm_of and Thm.ctyp_of operate on local context; wenzelm parents: 59591 diff changeset	1258	val Cterm {t = prop, maxidx, sorts, ...} = global_cterm_of thy (Logic.mk_of_class (T, c));
399 86cc2b98f9e0 added class_triv: theory -> class -> thm (for axclasses); wenzelm parents: 387 diff changeset	1259	in
31944 c8a35979a5bc clarified Thm.of_class/of_sort/class_triv; wenzelm parents: 31943 diff changeset	1260	if Sign.of_sort thy (T, [c]) then
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1261	Thm (deriv_rule0 (Proofterm.OfClass (T, c)),
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1262	{cert = cert,
31944 c8a35979a5bc clarified Thm.of_class/of_sort/class_triv; wenzelm parents: 31943 diff changeset	1263	tags = [],
c8a35979a5bc clarified Thm.of_class/of_sort/class_triv; wenzelm parents: 31943 diff changeset	1264	maxidx = maxidx,
c8a35979a5bc clarified Thm.of_class/of_sort/class_triv; wenzelm parents: 31943 diff changeset	1265	shyps = sorts,
c8a35979a5bc clarified Thm.of_class/of_sort/class_triv; wenzelm parents: 31943 diff changeset	1266	hyps = [],
c8a35979a5bc clarified Thm.of_class/of_sort/class_triv; wenzelm parents: 31943 diff changeset	1267	tpairs = [],
c8a35979a5bc clarified Thm.of_class/of_sort/class_triv; wenzelm parents: 31943 diff changeset	1268	prop = prop})
c8a35979a5bc clarified Thm.of_class/of_sort/class_triv; wenzelm parents: 31943 diff changeset	1269	else raise THM ("of_class: type not of class " ^ Syntax.string_of_sort_global thy [c], 0, [])
399 86cc2b98f9e0 added class_triv: theory -> class -> thm (for axclasses); wenzelm parents: 387 diff changeset	1270	end;
86cc2b98f9e0 added class_triv: theory -> class -> thm (for axclasses); wenzelm parents: 387 diff changeset	1271
36614 b6c031ad3690 minor tuning of Thm.strip_shyps -- no longer pervasive; wenzelm parents: 36613 diff changeset	1272	(Remove extra sorts that are witnessed by type signature information)
b6c031ad3690 minor tuning of Thm.strip_shyps -- no longer pervasive; wenzelm parents: 36613 diff changeset	1273	fun strip_shyps (thm as Thm (_, {shyps = [], ...})) = thm
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1274	\| strip_shyps (thm as Thm (der, {cert, tags, maxidx, shyps, hyps, tpairs, prop})) =
36614 b6c031ad3690 minor tuning of Thm.strip_shyps -- no longer pervasive; wenzelm parents: 36613 diff changeset	1275	let
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1276	val thy = theory_of_thm thm;
36621 2fd4e2c76636 proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences: wenzelm parents: 36619 diff changeset	1277	val algebra = Sign.classes_of thy;
2fd4e2c76636 proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences: wenzelm parents: 36619 diff changeset	1278
2fd4e2c76636 proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences: wenzelm parents: 36619 diff changeset	1279	val present = (fold_terms o fold_types o fold_atyps_sorts) (insert (eq_fst op =)) thm [];
36614 b6c031ad3690 minor tuning of Thm.strip_shyps -- no longer pervasive; wenzelm parents: 36613 diff changeset	1280	val extra = fold (Sorts.remove_sort o #2) present shyps;
b6c031ad3690 minor tuning of Thm.strip_shyps -- no longer pervasive; wenzelm parents: 36613 diff changeset	1281	val witnessed = Sign.witness_sorts thy present extra;
b6c031ad3690 minor tuning of Thm.strip_shyps -- no longer pervasive; wenzelm parents: 36613 diff changeset	1282	val extra' = fold (Sorts.remove_sort o #2) witnessed extra
36621 2fd4e2c76636 proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences: wenzelm parents: 36619 diff changeset	1283	\|> Sorts.minimal_sorts algebra;
36614 b6c031ad3690 minor tuning of Thm.strip_shyps -- no longer pervasive; wenzelm parents: 36613 diff changeset	1284	val shyps' = fold (Sorts.insert_sort o #2) present extra';
b6c031ad3690 minor tuning of Thm.strip_shyps -- no longer pervasive; wenzelm parents: 36613 diff changeset	1285	in
37309 38ce84c83738 eliminated ML structure alias; wenzelm parents: 37297 diff changeset	1286	Thm (deriv_rule_unconditional
38ce84c83738 eliminated ML structure alias; wenzelm parents: 37297 diff changeset	1287	(Proofterm.strip_shyps_proof algebra present witnessed extra') der,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1288	{cert = cert, tags = tags, maxidx = maxidx,
36614 b6c031ad3690 minor tuning of Thm.strip_shyps -- no longer pervasive; wenzelm parents: 36613 diff changeset	1289	shyps = shyps', hyps = hyps, tpairs = tpairs, prop = prop})
b6c031ad3690 minor tuning of Thm.strip_shyps -- no longer pervasive; wenzelm parents: 36613 diff changeset	1290	end;
b6c031ad3690 minor tuning of Thm.strip_shyps -- no longer pervasive; wenzelm parents: 36613 diff changeset	1291
36769 b6b88bf695b3 Thm.unconstrainT based on Logic.unconstrainT -- no proofterm yet; wenzelm parents: 36768 diff changeset	1292	(Internalize sort constraints of type variables)
36883 4ed0d72def50 added Proofterm.unconstrain_thm_proof for Thm.unconstrainT -- loosely based on the version by krauss/schropp; wenzelm parents: 36882 diff changeset	1293	fun unconstrainT (thm as Thm (der, args)) =
19505 0b345cf953c4 added unconstrainT; wenzelm parents: 19475 diff changeset	1294	let
36883 4ed0d72def50 added Proofterm.unconstrain_thm_proof for Thm.unconstrainT -- loosely based on the version by krauss/schropp; wenzelm parents: 36882 diff changeset	1295	val Deriv {promises, body} = der;
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1296	val {cert, shyps, hyps, tpairs, prop, ...} = args;
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1297	val thy = theory_of_thm thm;
36883 4ed0d72def50 added Proofterm.unconstrain_thm_proof for Thm.unconstrainT -- loosely based on the version by krauss/schropp; wenzelm parents: 36882 diff changeset	1298
36769 b6b88bf695b3 Thm.unconstrainT based on Logic.unconstrainT -- no proofterm yet; wenzelm parents: 36768 diff changeset	1299	fun err msg = raise THM ("unconstrainT: " ^ msg, 0, [thm]);
b6b88bf695b3 Thm.unconstrainT based on Logic.unconstrainT -- no proofterm yet; wenzelm parents: 36768 diff changeset	1300	val _ = null hyps orelse err "illegal hyps";
b6b88bf695b3 Thm.unconstrainT based on Logic.unconstrainT -- no proofterm yet; wenzelm parents: 36768 diff changeset	1301	val _ = null tpairs orelse err "unsolved flex-flex constraints";
b6b88bf695b3 Thm.unconstrainT based on Logic.unconstrainT -- no proofterm yet; wenzelm parents: 36768 diff changeset	1302	val tfrees = rev (Term.add_tfree_names prop []);
b6b88bf695b3 Thm.unconstrainT based on Logic.unconstrainT -- no proofterm yet; wenzelm parents: 36768 diff changeset	1303	val _ = null tfrees orelse err ("illegal free type variables " ^ commas_quote tfrees);
b6b88bf695b3 Thm.unconstrainT based on Logic.unconstrainT -- no proofterm yet; wenzelm parents: 36768 diff changeset	1304
41700 f33d5a00c25d thm_proof: visible fulfill_body only, without joining nested thms -- retain proof irrelevance, which is important for parallel performance; wenzelm parents: 41699 diff changeset	1305	val ps = map (apsnd (Future.map fulfill_body)) promises;
64573 e6aee01da22d tuned signature -- more abstract type thm_node; wenzelm parents: 64571 diff changeset	1306	val (pthm, proof) = Proofterm.unconstrain_thm_proof thy shyps prop ps body;
36883 4ed0d72def50 added Proofterm.unconstrain_thm_proof for Thm.unconstrainT -- loosely based on the version by krauss/schropp; wenzelm parents: 36882 diff changeset	1307	val der' = make_deriv [] [] [pthm] proof;
64573 e6aee01da22d tuned signature -- more abstract type thm_node; wenzelm parents: 64571 diff changeset	1308	val prop' = Proofterm.thm_node_prop (#2 pthm);
19505 0b345cf953c4 added unconstrainT; wenzelm parents: 19475 diff changeset	1309	in
36883 4ed0d72def50 added Proofterm.unconstrain_thm_proof for Thm.unconstrainT -- loosely based on the version by krauss/schropp; wenzelm parents: 36882 diff changeset	1310	Thm (der',
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1311	{cert = cert,
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	1312	tags = [],
36769 b6b88bf695b3 Thm.unconstrainT based on Logic.unconstrainT -- no proofterm yet; wenzelm parents: 36768 diff changeset	1313	maxidx = maxidx_of_term prop',
b6b88bf695b3 Thm.unconstrainT based on Logic.unconstrainT -- no proofterm yet; wenzelm parents: 36768 diff changeset	1314	shyps = [[]], (potentially redundant)
36883 4ed0d72def50 added Proofterm.unconstrain_thm_proof for Thm.unconstrainT -- loosely based on the version by krauss/schropp; wenzelm parents: 36882 diff changeset	1315	hyps = [],
4ed0d72def50 added Proofterm.unconstrain_thm_proof for Thm.unconstrainT -- loosely based on the version by krauss/schropp; wenzelm parents: 36882 diff changeset	1316	tpairs = [],
36769 b6b88bf695b3 Thm.unconstrainT based on Logic.unconstrainT -- no proofterm yet; wenzelm parents: 36768 diff changeset	1317	prop = prop'})
19505 0b345cf953c4 added unconstrainT; wenzelm parents: 19475 diff changeset	1318	end;
399 86cc2b98f9e0 added class_triv: theory -> class -> thm (for axclasses); wenzelm parents: 387 diff changeset	1319
63611 fb63942e470e tuned whitespace; wenzelm parents: 61053 diff changeset	1320	(Replace all TFrees not fixed or in the hyps by new TVars)
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1321	fun varifyT_global' fixed (Thm (der, {cert, maxidx, shyps, hyps, tpairs, prop, ...})) =
12500 0a6667d65e9b varifyT' returns newly introduces variables; wenzelm parents: 11692 diff changeset	1322	let
29272 fb3ccf499df5 use regular Term.add_XXX etc.; wenzelm parents: 29269 diff changeset	1323	val tfrees = fold Term.add_tfrees hyps fixed;
13658 c9ad3e64ddcf Changed handling of flex-flex constraints: now stored in separate berghofe parents: 13642 diff changeset	1324	val prop1 = attach_tpairs tpairs prop;
35845 e5980f0ad025 renamed varify/unvarify operations to varify_global/unvarify_global to emphasize that these only work in a global situation; wenzelm parents: 35408 diff changeset	1325	val (al, prop2) = Type.varify_global tfrees prop1;
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1326	val (ts, prop3) = Logic.strip_prems (length tpairs, [], prop2);
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1327	in
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1328	(al, Thm (deriv_rule1 (Proofterm.varify_proof prop tfrees) der,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1329	{cert = cert,
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	1330	tags = [],
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1331	maxidx = Int.max (0, maxidx),
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1332	shyps = shyps,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1333	hyps = hyps,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1334	tpairs = rev (map Logic.dest_equals ts),
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1335	prop = prop3}))
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1336	end;
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1337
35845 e5980f0ad025 renamed varify/unvarify operations to varify_global/unvarify_global to emphasize that these only work in a global situation; wenzelm parents: 35408 diff changeset	1338	val varifyT_global = #2 o varifyT_global' [];
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1339
63611 fb63942e470e tuned whitespace; wenzelm parents: 61053 diff changeset	1340	(Replace all TVars by TFrees that are often new)
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1341	fun legacy_freezeT (Thm (der, {cert, shyps, hyps, tpairs, prop, ...})) =
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1342	let
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1343	val prop1 = attach_tpairs tpairs prop;
33832 cff42395c246 explicitly mark some legacy freeze operations; wenzelm parents: 33722 diff changeset	1344	val prop2 = Type.legacy_freeze prop1;
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1345	val (ts, prop3) = Logic.strip_prems (length tpairs, [], prop2);
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1346	in
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1347	Thm (deriv_rule1 (Proofterm.legacy_freezeT prop1) der,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1348	{cert = cert,
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1349	tags = [],
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1350	maxidx = maxidx_of_term prop2,
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1351	shyps = shyps,
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1352	hyps = hyps,
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1353	tpairs = rev (map Logic.dest_equals ts),
18127 9f03d8a9a81b Thm.varifyT': natural argument order; wenzelm parents: 18035 diff changeset	1354	prop = prop3})
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1355	end;
a5a9c433f639 Initial revision clasohm parents: diff changeset	1356
a5a9c433f639 Initial revision clasohm parents: diff changeset	1357
a5a9c433f639 Initial revision clasohm parents: diff changeset	1358	(* Inference rules for tactics *)
a5a9c433f639 Initial revision clasohm parents: diff changeset	1359
a5a9c433f639 Initial revision clasohm parents: diff changeset	1360	(Destruct proof state into constraints, other goals, goal(i), rest )
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1361	fun dest_state (state as Thm (_, {prop,tpairs,...}), i) =
13658 c9ad3e64ddcf Changed handling of flex-flex constraints: now stored in separate berghofe parents: 13642 diff changeset	1362	(case Logic.strip_prems(i, [], prop) of
c9ad3e64ddcf Changed handling of flex-flex constraints: now stored in separate berghofe parents: 13642 diff changeset	1363	(B::rBs, C) => (tpairs, rev rBs, B, C)
c9ad3e64ddcf Changed handling of flex-flex constraints: now stored in separate berghofe parents: 13642 diff changeset	1364	\| _ => raise THM("dest_state", i, [state]))
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1365	handle TERM _ => raise THM("dest_state", i, [state]);
a5a9c433f639 Initial revision clasohm parents: diff changeset	1366
46255 6fae74ee591a removed obscure/outdated material; wenzelm parents: 46218 diff changeset	1367	(*Prepare orule for resolution by lifting it over the parameters and
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1368	assumptions of goal.*)
18035 eaae44affc9e added cgoal_of; wenzelm parents: 17868 diff changeset	1369	fun lift_rule goal orule =
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1370	let
18035 eaae44affc9e added cgoal_of; wenzelm parents: 17868 diff changeset	1371	val Cterm {t = gprop, T, maxidx = gmax, sorts, ...} = goal;
eaae44affc9e added cgoal_of; wenzelm parents: 17868 diff changeset	1372	val inc = gmax + 1;
eaae44affc9e added cgoal_of; wenzelm parents: 17868 diff changeset	1373	val lift_abs = Logic.lift_abs inc gprop;
eaae44affc9e added cgoal_of; wenzelm parents: 17868 diff changeset	1374	val lift_all = Logic.lift_all inc gprop;
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1375	val Thm (der, {maxidx, shyps, hyps, tpairs, prop, ...}) = orule;
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1376	val (As, B) = Logic.strip_horn prop;
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1377	in
18035 eaae44affc9e added cgoal_of; wenzelm parents: 17868 diff changeset	1378	if T <> propT then raise THM ("lift_rule: the term must have type prop", 0, [])
eaae44affc9e added cgoal_of; wenzelm parents: 17868 diff changeset	1379	else
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1380	Thm (deriv_rule1 (Proofterm.lift_proof gprop inc prop) der,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1381	{cert = join_certificate1 (goal, orule),
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	1382	tags = [],
18035 eaae44affc9e added cgoal_of; wenzelm parents: 17868 diff changeset	1383	maxidx = maxidx + inc,
eaae44affc9e added cgoal_of; wenzelm parents: 17868 diff changeset	1384	shyps = Sorts.union shyps sorts, (sic!)
eaae44affc9e added cgoal_of; wenzelm parents: 17868 diff changeset	1385	hyps = hyps,
59058 a78612c67ec0 renamed "pairself" to "apply2", in accordance to @{apply 2}; wenzelm parents: 58950 diff changeset	1386	tpairs = map (apply2 lift_abs) tpairs,
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1387	prop = Logic.list_implies (map lift_all As, lift_all B)})
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1388	end;
a5a9c433f639 Initial revision clasohm parents: diff changeset	1389
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1390	fun incr_indexes i (thm as Thm (der, {cert, maxidx, shyps, hyps, tpairs, prop, ...})) =
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1391	if i < 0 then raise THM ("negative increment", 0, [thm])
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1392	else if i = 0 then thm
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1393	else
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1394	Thm (deriv_rule1 (Proofterm.incr_indexes i) der,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1395	{cert = cert,
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	1396	tags = [],
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1397	maxidx = maxidx + i,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1398	shyps = shyps,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1399	hyps = hyps,
59787 6e2a20486897 local fixes may depend on goal params; wenzelm parents: 59621 diff changeset	1400	tpairs = map (apply2 (Logic.incr_indexes ([], [], i))) tpairs,
6e2a20486897 local fixes may depend on goal params; wenzelm parents: 59621 diff changeset	1401	prop = Logic.incr_indexes ([], [], i) prop});
10416 5b33e732e459 - Moved rewriting functions to meta_simplifier.ML berghofe parents: 10348 diff changeset	1402
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1403	(Solve subgoal Bi of proof state B1...Bn/C by assumption. )
58950 d07464875dd4 optional proof context for unify operations, for the sake of proper local options; wenzelm parents: 58946 diff changeset	1404	fun assumption opt_ctxt i state =
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1405	let
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1406	val Thm (der, {cert, maxidx, shyps, hyps, ...}) = state;
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1407	val context = make_context [state] opt_ctxt cert;
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1408	val (tpairs, Bs, Bi, C) = dest_state (state, i);
32032 a6a6e8031c14 tuned/modernized Envir operations; wenzelm parents: 32027 diff changeset	1409	fun newth n (env, tpairs) =
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1410	Thm (deriv_rule1
63858 0f5e735e3640 tuned; wenzelm parents: 63611 diff changeset	1411	((if Envir.is_empty env then I else Proofterm.norm_proof' env) o
37309 38ce84c83738 eliminated ML structure alias; wenzelm parents: 37297 diff changeset	1412	Proofterm.assumption_proof Bs Bi n) der,
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1413	{tags = [],
32032 a6a6e8031c14 tuned/modernized Envir operations; wenzelm parents: 32027 diff changeset	1414	maxidx = Envir.maxidx_of env,
26640 92e6d3ec91bd simplified handling of sorts, removed unnecessary universal witness; wenzelm parents: 26631 diff changeset	1415	shyps = Envir.insert_sorts env shyps,
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1416	hyps = hyps,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1417	tpairs =
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1418	if Envir.is_empty env then tpairs
59058 a78612c67ec0 renamed "pairself" to "apply2", in accordance to @{apply 2}; wenzelm parents: 58950 diff changeset	1419	else map (apply2 (Envir.norm_term env)) tpairs,
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1420	prop =
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1421	if Envir.is_empty env then (avoid wasted normalizations)
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1422	Logic.list_implies (Bs, C)
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1423	else (normalize the new rule fully)
24143 90a9a6fe0d01 replaced Theory.self_ref by Theory.check_thy, which now produces a checked ref; wenzelm parents: 23781 diff changeset	1424	Envir.norm_term env (Logic.list_implies (Bs, C)),
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1425	cert = cert});
30554 73f8bd5f0af8 substantial speedup of assumption and elim-resolution: Logic.assum_problems refrains from eager application of parameters, discriminate via Term.could_unify before invoking full unification (assumes terms in beta-normal form, as do higher term net operations anyway); wenzelm parents: 30466 diff changeset	1426
30556 7be15917f3fa eq_assumption: slightly more efficient by checking (open) result of Logic.assum_problems directly; wenzelm parents: 30554 diff changeset	1427	val (close, asms, concl) = Logic.assum_problems (~1, Bi);
7be15917f3fa eq_assumption: slightly more efficient by checking (open) result of Logic.assum_problems directly; wenzelm parents: 30554 diff changeset	1428	val concl' = close concl;
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1429	fun addprfs [] _ = Seq.empty
30556 7be15917f3fa eq_assumption: slightly more efficient by checking (open) result of Logic.assum_problems directly; wenzelm parents: 30554 diff changeset	1430	\| addprfs (asm :: rest) n = Seq.make (fn () => Seq.pull
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1431	(Seq.mapp (newth n)
30556 7be15917f3fa eq_assumption: slightly more efficient by checking (open) result of Logic.assum_problems directly; wenzelm parents: 30554 diff changeset	1432	(if Term.could_unify (asm, concl) then
58950 d07464875dd4 optional proof context for unify operations, for the sake of proper local options; wenzelm parents: 58946 diff changeset	1433	(Unify.unifiers (context, Envir.empty maxidx, (close asm, concl') :: tpairs))
30554 73f8bd5f0af8 substantial speedup of assumption and elim-resolution: Logic.assum_problems refrains from eager application of parameters, discriminate via Term.could_unify before invoking full unification (assumes terms in beta-normal form, as do higher term net operations anyway); wenzelm parents: 30466 diff changeset	1434	else Seq.empty)
73f8bd5f0af8 substantial speedup of assumption and elim-resolution: Logic.assum_problems refrains from eager application of parameters, discriminate via Term.could_unify before invoking full unification (assumes terms in beta-normal form, as do higher term net operations anyway); wenzelm parents: 30466 diff changeset	1435	(addprfs rest (n + 1))))
30556 7be15917f3fa eq_assumption: slightly more efficient by checking (open) result of Logic.assum_problems directly; wenzelm parents: 30554 diff changeset	1436	in addprfs asms 1 end;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1437
250 9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	1438	(*Solve subgoal Bi of proof state B1...Bn/C by assumption.
51604 f83661733143 updated comment to 46b90bbc370d; wenzelm parents: 50301 diff changeset	1439	Checks if Bi's conclusion is alpha/eta-convertible to one of its assumptions*)
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1440	fun eq_assumption i state =
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1441	let
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1442	val Thm (der, {cert, maxidx, shyps, hyps, ...}) = state;
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1443	val (tpairs, Bs, Bi, C) = dest_state (state, i);
30556 7be15917f3fa eq_assumption: slightly more efficient by checking (open) result of Logic.assum_problems directly; wenzelm parents: 30554 diff changeset	1444	val (_, asms, concl) = Logic.assum_problems (~1, Bi);
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1445	in
52131 366fa32ee2a3 tuned signature; wenzelm parents: 51604 diff changeset	1446	(case find_index (fn asm => Envir.aeconv (asm, concl)) asms of
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1447	~1 => raise THM ("eq_assumption", 0, [state])
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1448	\| n =>
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1449	Thm (deriv_rule1 (Proofterm.assumption_proof Bs Bi (n + 1)) der,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1450	{cert = cert,
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	1451	tags = [],
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1452	maxidx = maxidx,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1453	shyps = shyps,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1454	hyps = hyps,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1455	tpairs = tpairs,
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1456	prop = Logic.list_implies (Bs, C)}))
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1457	end;
a5a9c433f639 Initial revision clasohm parents: diff changeset	1458
a5a9c433f639 Initial revision clasohm parents: diff changeset	1459
2671 510d94c71dda Introduction of rotate_rule paulson parents: 2626 diff changeset	1460	(For rotate_tac: fast rotation of assumptions of subgoal i)
510d94c71dda Introduction of rotate_rule paulson parents: 2626 diff changeset	1461	fun rotate_rule k i state =
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1462	let
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1463	val Thm (der, {cert, maxidx, shyps, hyps, ...}) = state;
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1464	val (tpairs, Bs, Bi, C) = dest_state (state, i);
46218 ecf6375e2abb renamed Term.list_all to Logic.list_all, in accordance to HOLogic.list_all; wenzelm parents: 46217 diff changeset	1465	val params = Term.strip_all_vars Bi;
ecf6375e2abb renamed Term.list_all to Logic.list_all, in accordance to HOLogic.list_all; wenzelm parents: 46217 diff changeset	1466	val rest = Term.strip_all_body Bi;
ecf6375e2abb renamed Term.list_all to Logic.list_all, in accordance to HOLogic.list_all; wenzelm parents: 46217 diff changeset	1467	val asms = Logic.strip_imp_prems rest
ecf6375e2abb renamed Term.list_all to Logic.list_all, in accordance to HOLogic.list_all; wenzelm parents: 46217 diff changeset	1468	val concl = Logic.strip_imp_concl rest;
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1469	val n = length asms;
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1470	val m = if k < 0 then n + k else k;
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1471	val Bi' =
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1472	if 0 = m orelse m = n then Bi
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1473	else if 0 < m andalso m < n then
19012 2577ac76cdc6 tuned; wenzelm parents: 18969 diff changeset	1474	let val (ps, qs) = chop m asms
46218 ecf6375e2abb renamed Term.list_all to Logic.list_all, in accordance to HOLogic.list_all; wenzelm parents: 46217 diff changeset	1475	in Logic.list_all (params, Logic.list_implies (qs @ ps, concl)) end
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1476	else raise THM ("rotate_rule", k, [state]);
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1477	in
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1478	Thm (deriv_rule1 (Proofterm.rotate_proof Bs Bi m) der,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1479	{cert = cert,
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	1480	tags = [],
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1481	maxidx = maxidx,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1482	shyps = shyps,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1483	hyps = hyps,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1484	tpairs = tpairs,
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1485	prop = Logic.list_implies (Bs @ [Bi'], C)})
2671 510d94c71dda Introduction of rotate_rule paulson parents: 2626 diff changeset	1486	end;
510d94c71dda Introduction of rotate_rule paulson parents: 2626 diff changeset	1487
510d94c71dda Introduction of rotate_rule paulson parents: 2626 diff changeset	1488
7248 322151fe6f02 new primitive rule permute_prems to underlie defer_tac and rotate_prems paulson parents: 7070 diff changeset	1489	(*Rotates a rule's premises to the left by k, leaving the first j premises
322151fe6f02 new primitive rule permute_prems to underlie defer_tac and rotate_prems paulson parents: 7070 diff changeset	1490	unchanged. Does nothing if k=0 or if k equals n-j, where n is the
58837 e84d900cd287 eliminated aliases; wenzelm parents: 56245 diff changeset	1491	number of premises. Useful with eresolve_tac and underlies defer_tac*)
7248 322151fe6f02 new primitive rule permute_prems to underlie defer_tac and rotate_prems paulson parents: 7070 diff changeset	1492	fun permute_prems j k rl =
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1493	let
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1494	val Thm (der, {cert, maxidx, shyps, hyps, tpairs, prop, ...}) = rl;
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1495	val prems = Logic.strip_imp_prems prop
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1496	and concl = Logic.strip_imp_concl prop;
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1497	val moved_prems = List.drop (prems, j)
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1498	and fixed_prems = List.take (prems, j)
43278 1fbdcebb364b more robust exception pattern General.Subscript; wenzelm parents: 42425 diff changeset	1499	handle General.Subscript => raise THM ("permute_prems: j", j, [rl]);
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1500	val n_j = length moved_prems;
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1501	val m = if k < 0 then n_j + k else k;
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1502	val prop' =
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1503	if 0 = m orelse m = n_j then prop
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1504	else if 0 < m andalso m < n_j then
19012 2577ac76cdc6 tuned; wenzelm parents: 18969 diff changeset	1505	let val (ps, qs) = chop m moved_prems
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1506	in Logic.list_implies (fixed_prems @ qs @ ps, concl) end
16725 597830f91930 added full_prop_of: includes tpairs; wenzelm parents: 16711 diff changeset	1507	else raise THM ("permute_prems: k", k, [rl]);
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1508	in
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1509	Thm (deriv_rule1 (Proofterm.permute_prems_proof prems j m) der,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1510	{cert = cert,
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 21576 diff changeset	1511	tags = [],
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1512	maxidx = maxidx,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1513	shyps = shyps,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1514	hyps = hyps,
ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1515	tpairs = tpairs,
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1516	prop = prop'})
7248 322151fe6f02 new primitive rule permute_prems to underlie defer_tac and rotate_prems paulson parents: 7070 diff changeset	1517	end;
322151fe6f02 new primitive rule permute_prems to underlie defer_tac and rotate_prems paulson parents: 7070 diff changeset	1518
322151fe6f02 new primitive rule permute_prems to underlie defer_tac and rotate_prems paulson parents: 7070 diff changeset	1519
44108 476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1520	(* strip_apply f B A strips off all assumptions/parameters from A
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1521	introduced by lifting over B, and applies f to remaining part of A*)
a5a9c433f639 Initial revision clasohm parents: diff changeset	1522	fun strip_apply f =
56245 84fc7dfa3cd4 more qualified names; wenzelm parents: 56052 diff changeset	1523	let fun strip (Const ("Pure.imp", _) $ _ $ B1)
84fc7dfa3cd4 more qualified names; wenzelm parents: 56052 diff changeset	1524	(Const ("Pure.imp", _) $ A2 $ B2) = Logic.mk_implies (A2, strip B1 B2)
84fc7dfa3cd4 more qualified names; wenzelm parents: 56052 diff changeset	1525	\| strip ((c as Const ("Pure.all", _)) $ Abs (_, _, t1))
84fc7dfa3cd4 more qualified names; wenzelm parents: 56052 diff changeset	1526	( Const ("Pure.all", _) $ Abs (a, T, t2)) = c $ Abs (a, T, strip t1 t2)
44108 476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1527	\| strip _ A = f A
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1528	in strip end;
a5a9c433f639 Initial revision clasohm parents: diff changeset	1529
56245 84fc7dfa3cd4 more qualified names; wenzelm parents: 56052 diff changeset	1530	fun strip_lifted (Const ("Pure.imp", _) $ _ $ B1)
84fc7dfa3cd4 more qualified names; wenzelm parents: 56052 diff changeset	1531	(Const ("Pure.imp", _) $ _ $ B2) = strip_lifted B1 B2
84fc7dfa3cd4 more qualified names; wenzelm parents: 56052 diff changeset	1532	\| strip_lifted (Const ("Pure.all", _) $ Abs (_, _, t1))
84fc7dfa3cd4 more qualified names; wenzelm parents: 56052 diff changeset	1533	(Const ("Pure.all", _) $ Abs (_, _, t2)) = strip_lifted t1 t2
44108 476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1534	\| strip_lifted _ A = A;
476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1535
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1536	(*Use the alist to rename all bound variables and some unknowns in a term
a5a9c433f639 Initial revision clasohm parents: diff changeset	1537	dpairs = current disagreement pairs; tpairs = permanent ones (flexflex);
a5a9c433f639 Initial revision clasohm parents: diff changeset	1538	Preserves unknowns in tpairs and on lhs of dpairs. *)
44108 476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1539	fun rename_bvs [] _ _ _ _ = K I
476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1540	\| rename_bvs al dpairs tpairs B As =
20330 6192478fdba5 tuned; wenzelm parents: 20289 diff changeset	1541	let
6192478fdba5 tuned; wenzelm parents: 20289 diff changeset	1542	val add_var = fold_aterms (fn Var ((x, _), _) => insert (op =) x \| _ => I);
6192478fdba5 tuned; wenzelm parents: 20289 diff changeset	1543	val vids = []
6192478fdba5 tuned; wenzelm parents: 20289 diff changeset	1544	\|> fold (add_var o fst) dpairs
6192478fdba5 tuned; wenzelm parents: 20289 diff changeset	1545	\|> fold (add_var o fst) tpairs
6192478fdba5 tuned; wenzelm parents: 20289 diff changeset	1546	\|> fold (add_var o snd) tpairs;
44108 476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1547	val vids' = fold (add_var o strip_lifted B) As [];
250 9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	1548	(unknowns appearing elsewhere be preserved!)
59058 a78612c67ec0 renamed "pairself" to "apply2", in accordance to @{apply 2}; wenzelm parents: 58950 diff changeset	1549	val al' = distinct ((op =) o apply2 fst)
44108 476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1550	(filter_out (fn (x, y) =>
476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1551	not (member (op =) vids' x) orelse
476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1552	member (op =) vids x orelse member (op =) vids y) al);
476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1553	val unchanged = filter_out (AList.defined (op =) al') vids';
476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1554	fun del_clashing clash xs _ [] qs =
476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1555	if clash then del_clashing false xs xs qs [] else qs
476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1556	\| del_clashing clash xs ys ((p as (x, y)) :: ps) qs =
476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1557	if member (op =) ys y
476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1558	then del_clashing true (x :: xs) (x :: ys) ps qs
476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1559	else del_clashing clash xs (y :: ys) ps (p :: qs);
46497 89ccf66aa73d renamed Thm.capply to Thm.apply, and Thm.cabs to Thm.lambda in conformance with similar operations in structure Term and Logic; wenzelm parents: 46475 diff changeset	1560	val al'' = del_clashing false unchanged unchanged al' [];
44108 476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1561	fun rename (t as Var ((x, i), T)) =
476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1562	(case AList.lookup (op =) al'' x of
476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1563	SOME y => Var ((y, i), T)
476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1564	\| NONE => t)
476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1565	\| rename (Abs (x, T, t)) =
18944 7d2ed9063477 union_tpairs: Library.merge; wenzelm parents: 18733 diff changeset	1566	Abs (the_default x (AList.lookup (op =) al x), T, rename t)
44108 476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1567	\| rename (f $ t) = rename f $ rename t
476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1568	\| rename t = t;
476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1569	fun strip_ren f Ai = f rename B Ai
20330 6192478fdba5 tuned; wenzelm parents: 20289 diff changeset	1570	in strip_ren end;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1571
a5a9c433f639 Initial revision clasohm parents: diff changeset	1572	(Function to rename bounds/unknowns in the argument, lifted over B)
44108 476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1573	fun rename_bvars dpairs =
48263 94a7dc2276e4 prefer canonical fold_rev; wenzelm parents: 47005 diff changeset	1574	rename_bvs (fold_rev Term.match_bvars dpairs []) dpairs;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1575
a5a9c433f639 Initial revision clasohm parents: diff changeset	1576
a5a9c433f639 Initial revision clasohm parents: diff changeset	1577	(* RESOLUTION *)
a5a9c433f639 Initial revision clasohm parents: diff changeset	1578
721 479832ff2d29 Pure/thm/norm_term_skip: new, for skipping normalization of the context lcp parents: 678 diff changeset	1579	( Lifting optimizations )
479832ff2d29 Pure/thm/norm_term_skip: new, for skipping normalization of the context lcp parents: 678 diff changeset	1580
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1581	(*strip off pairs of assumptions/parameters in parallel -- they are
a5a9c433f639 Initial revision clasohm parents: diff changeset	1582	identical because of lifting*)
56245 84fc7dfa3cd4 more qualified names; wenzelm parents: 56052 diff changeset	1583	fun strip_assums2 (Const("Pure.imp", _) $ _ $ B1,
84fc7dfa3cd4 more qualified names; wenzelm parents: 56052 diff changeset	1584	Const("Pure.imp", _) $ _ $ B2) = strip_assums2 (B1,B2)
84fc7dfa3cd4 more qualified names; wenzelm parents: 56052 diff changeset	1585	\| strip_assums2 (Const("Pure.all",_)$Abs(a,T,t1),
84fc7dfa3cd4 more qualified names; wenzelm parents: 56052 diff changeset	1586	Const("Pure.all",_)$Abs(_,_,t2)) =
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1587	let val (B1,B2) = strip_assums2 (t1,t2)
a5a9c433f639 Initial revision clasohm parents: diff changeset	1588	in (Abs(a,T,B1), Abs(a,T,B2)) end
a5a9c433f639 Initial revision clasohm parents: diff changeset	1589	\| strip_assums2 BB = BB;
a5a9c433f639 Initial revision clasohm parents: diff changeset	1590
a5a9c433f639 Initial revision clasohm parents: diff changeset	1591
721 479832ff2d29 Pure/thm/norm_term_skip: new, for skipping normalization of the context lcp parents: 678 diff changeset	1592	(Faster normalization: skip assumptions that were lifted over)
479832ff2d29 Pure/thm/norm_term_skip: new, for skipping normalization of the context lcp parents: 678 diff changeset	1593	fun norm_term_skip env 0 t = Envir.norm_term env t
56245 84fc7dfa3cd4 more qualified names; wenzelm parents: 56052 diff changeset	1594	\| norm_term_skip env n (Const ("Pure.all", _) $ Abs (a, T, t)) =
32032 a6a6e8031c14 tuned/modernized Envir operations; wenzelm parents: 32027 diff changeset	1595	let
58946 3bf80312508e proper Envir.norm_type for result of Unify.unifiers (amending 479832ff2d29 from 20 years ago); wenzelm parents: 58837 diff changeset	1596	val T' = Envir.norm_type (Envir.type_env env) T
32032 a6a6e8031c14 tuned/modernized Envir operations; wenzelm parents: 32027 diff changeset	1597	(*Must instantiate types of parameters because they are flattened;
a6a6e8031c14 tuned/modernized Envir operations; wenzelm parents: 32027 diff changeset	1598	this could be a NEW parameter*)
46217 7b19666f0e3d renamed Term.all to Logic.all_const, in accordance to HOLogic.all_const; wenzelm parents: 45443 diff changeset	1599	in Logic.all_const T' $ Abs (a, T', norm_term_skip env n t) end
56245 84fc7dfa3cd4 more qualified names; wenzelm parents: 56052 diff changeset	1600	\| norm_term_skip env n (Const ("Pure.imp", _) $ A $ B) =
32032 a6a6e8031c14 tuned/modernized Envir operations; wenzelm parents: 32027 diff changeset	1601	Logic.mk_implies (A, norm_term_skip env (n - 1) B)
32784 1a5dde5079ac eliminated redundant bindings; wenzelm parents: 32726 diff changeset	1602	\| norm_term_skip _ _ _ = error "norm_term_skip: too few assumptions??";
721 479832ff2d29 Pure/thm/norm_term_skip: new, for skipping normalization of the context lcp parents: 678 diff changeset	1603
479832ff2d29 Pure/thm/norm_term_skip: new, for skipping normalization of the context lcp parents: 678 diff changeset	1604
52222 0fa3b456a267 unify types of schematic variables in non-lifted case (i.e. "compose variants") -- allow schematic polymorphism, without revisiting HO-unification; wenzelm parents: 52131 diff changeset	1605	(unify types of schematic variables (non-lifted case))
58950 d07464875dd4 optional proof context for unify operations, for the sake of proper local options; wenzelm parents: 58946 diff changeset	1606	fun unify_var_types context (th1, th2) env =
52222 0fa3b456a267 unify types of schematic variables in non-lifted case (i.e. "compose variants") -- allow schematic polymorphism, without revisiting HO-unification; wenzelm parents: 52131 diff changeset	1607	let
58950 d07464875dd4 optional proof context for unify operations, for the sake of proper local options; wenzelm parents: 58946 diff changeset	1608	fun unify_vars (T :: Us) = fold (fn U => Pattern.unify_types context (T, U)) Us
52222 0fa3b456a267 unify types of schematic variables in non-lifted case (i.e. "compose variants") -- allow schematic polymorphism, without revisiting HO-unification; wenzelm parents: 52131 diff changeset	1609	\| unify_vars _ = I;
0fa3b456a267 unify types of schematic variables in non-lifted case (i.e. "compose variants") -- allow schematic polymorphism, without revisiting HO-unification; wenzelm parents: 52131 diff changeset	1610	val add_vars =
0fa3b456a267 unify types of schematic variables in non-lifted case (i.e. "compose variants") -- allow schematic polymorphism, without revisiting HO-unification; wenzelm parents: 52131 diff changeset	1611	full_prop_of #>
0fa3b456a267 unify types of schematic variables in non-lifted case (i.e. "compose variants") -- allow schematic polymorphism, without revisiting HO-unification; wenzelm parents: 52131 diff changeset	1612	fold_aterms (fn Var v => Vartab.insert_list (op =) v \| _ => I);
0fa3b456a267 unify types of schematic variables in non-lifted case (i.e. "compose variants") -- allow schematic polymorphism, without revisiting HO-unification; wenzelm parents: 52131 diff changeset	1613	val vars = Vartab.empty \|> add_vars th1 \|> add_vars th2;
0fa3b456a267 unify types of schematic variables in non-lifted case (i.e. "compose variants") -- allow schematic polymorphism, without revisiting HO-unification; wenzelm parents: 52131 diff changeset	1614	in SOME (Vartab.fold (unify_vars o #2) vars env) end
0fa3b456a267 unify types of schematic variables in non-lifted case (i.e. "compose variants") -- allow schematic polymorphism, without revisiting HO-unification; wenzelm parents: 52131 diff changeset	1615	handle Pattern.Unif => NONE;
0fa3b456a267 unify types of schematic variables in non-lifted case (i.e. "compose variants") -- allow schematic polymorphism, without revisiting HO-unification; wenzelm parents: 52131 diff changeset	1616
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1617	(*Composition of object rule r=(A1...Am/B) with proof state s=(B1...Bn/C)
250 9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	1618	Unifies B with Bi, replacing subgoal i (1 <= i <= n)
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1619	If match then forbid instantiations in proof state
a5a9c433f639 Initial revision clasohm parents: diff changeset	1620	If lifted then shorten the dpair using strip_assums2.
a5a9c433f639 Initial revision clasohm parents: diff changeset	1621	If eres_flg then simultaneously proves A1 by assumption.
250 9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	1622	nsubgoal is the number of new subgoals (written m above).
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1623	Curried so that resolution calls dest_state only once.
a5a9c433f639 Initial revision clasohm parents: diff changeset	1624	*)
4270 957c887b89b5 changed Sequence interface (now Seq, in seq.ML); wenzelm parents: 4254 diff changeset	1625	local exception COMPOSE
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1626	in
58950 d07464875dd4 optional proof context for unify operations, for the sake of proper local options; wenzelm parents: 58946 diff changeset	1627	fun bicompose_aux opt_ctxt {flatten, match, incremented} (state, (stpairs, Bs, Bi, C), lifted)
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1628	(eres_flg, orule, nsubgoal) =
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1629	let val Thm (sder, {maxidx=smax, shyps=sshyps, hyps=shyps, ...}) = state
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1630	and Thm (rder, {maxidx=rmax, shyps=rshyps, hyps=rhyps,
9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1631	tpairs=rtpairs, prop=rprop,...}) = orule
1529 09d9ad015269 Addition of proof objects paulson parents: 1517 diff changeset	1632	(How many hyps to skip over during normalization)
21576 8c11b1ce2f05 simplified Logic.count_prems; wenzelm parents: 21437 diff changeset	1633	and nlift = Logic.count_prems (strip_all_body Bi) + (if eres_flg then ~1 else 0)
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1634	val cert = join_certificate2 (state, orule);
b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1635	val context = make_context [state, orule] opt_ctxt cert;
63611 fb63942e470e tuned whitespace; wenzelm parents: 61053 diff changeset	1636	(Add new theorem with prop = '[\| Bs; As \|] ==> C' to thq)
32032 a6a6e8031c14 tuned/modernized Envir operations; wenzelm parents: 32027 diff changeset	1637	fun addth A (As, oldAs, rder', n) ((env, tpairs), thq) =
250 9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	1638	let val normt = Envir.norm_term env;
9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	1639	(perform minimal copying here by examining env)
13658 c9ad3e64ddcf Changed handling of flex-flex constraints: now stored in separate berghofe parents: 13642 diff changeset	1640	val (ntpairs, normp) =
c9ad3e64ddcf Changed handling of flex-flex constraints: now stored in separate berghofe parents: 13642 diff changeset	1641	if Envir.is_empty env then (tpairs, (Bs @ As, C))
250 9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	1642	else
59058 a78612c67ec0 renamed "pairself" to "apply2", in accordance to @{apply 2}; wenzelm parents: 58950 diff changeset	1643	let val ntps = map (apply2 normt) tpairs
19861 620d90091788 tuned Seq/Envir/Unify interfaces; wenzelm parents: 19525 diff changeset	1644	in if Envir.above env smax then
1238 289c573327f0 considerably tuned shyps handling; wenzelm parents: 1229 diff changeset	1645	(no assignments in state; normalize the rule only)
289c573327f0 considerably tuned shyps handling; wenzelm parents: 1229 diff changeset	1646	if lifted
13658 c9ad3e64ddcf Changed handling of flex-flex constraints: now stored in separate berghofe parents: 13642 diff changeset	1647	then (ntps, (Bs @ map (norm_term_skip env nlift) As, C))
c9ad3e64ddcf Changed handling of flex-flex constraints: now stored in separate berghofe parents: 13642 diff changeset	1648	else (ntps, (Bs @ map normt As, C))
1529 09d9ad015269 Addition of proof objects paulson parents: 1517 diff changeset	1649	else if match then raise COMPOSE
250 9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	1650	else (normalize the new rule fully)
13658 c9ad3e64ddcf Changed handling of flex-flex constraints: now stored in separate berghofe parents: 13642 diff changeset	1651	(ntps, (map normt (Bs @ As), normt C))
250 9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	1652	end
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1653	val th =
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1654	Thm (deriv_rule2
11518 5f2616a1c10a Replaced old derivations by proof terms. berghofe parents: 10767 diff changeset	1655	((if Envir.is_empty env then I
19861 620d90091788 tuned Seq/Envir/Unify interfaces; wenzelm parents: 19525 diff changeset	1656	else if Envir.above env smax then
37309 38ce84c83738 eliminated ML structure alias; wenzelm parents: 37297 diff changeset	1657	(fn f => fn der => f (Proofterm.norm_proof' env der))
11518 5f2616a1c10a Replaced old derivations by proof terms. berghofe parents: 10767 diff changeset	1658	else
37309 38ce84c83738 eliminated ML structure alias; wenzelm parents: 37297 diff changeset	1659	curry op oo (Proofterm.norm_proof' env))
38ce84c83738 eliminated ML structure alias; wenzelm parents: 37297 diff changeset	1660	(Proofterm.bicompose_proof flatten Bs oldAs As A n (nlift+1))) rder' sder,
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1661	{tags = [],
32032 a6a6e8031c14 tuned/modernized Envir operations; wenzelm parents: 32027 diff changeset	1662	maxidx = Envir.maxidx_of env,
26640 92e6d3ec91bd simplified handling of sorts, removed unnecessary universal witness; wenzelm parents: 26631 diff changeset	1663	shyps = Envir.insert_sorts env (Sorts.union rshyps sshyps),
16601 ee8eefade568 more efficient treatment of shyps and hyps (use ordered lists); wenzelm parents: 16425 diff changeset	1664	hyps = union_hyps rhyps shyps,
13658 c9ad3e64ddcf Changed handling of flex-flex constraints: now stored in separate berghofe parents: 13642 diff changeset	1665	tpairs = ntpairs,
24143 90a9a6fe0d01 replaced Theory.self_ref by Theory.check_thy, which now produces a checked ref; wenzelm parents: 23781 diff changeset	1666	prop = Logic.list_implies normp,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1667	cert = cert})
19475 8aa2b380614a curried Seq.cons; wenzelm parents: 19429 diff changeset	1668	in Seq.cons th thq end handle COMPOSE => thq;
13658 c9ad3e64ddcf Changed handling of flex-flex constraints: now stored in separate berghofe parents: 13642 diff changeset	1669	val (rAs,B) = Logic.strip_prems(nsubgoal, [], rprop)
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1670	handle TERM _ => raise THM("bicompose: rule", 0, [orule,state]);
a5a9c433f639 Initial revision clasohm parents: diff changeset	1671	(Modify assumptions, deleting n-th if n>0 for e-resolution)
a5a9c433f639 Initial revision clasohm parents: diff changeset	1672	fun newAs(As0, n, dpairs, tpairs) =
11518 5f2616a1c10a Replaced old derivations by proof terms. berghofe parents: 10767 diff changeset	1673	let val (As1, rder') =
25939 ddea202704b4 Removed Logic.auto_rename. berghofe parents: 24848 diff changeset	1674	if not lifted then (As0, rder)
44108 476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1675	else
476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1676	let val rename = rename_bvars dpairs tpairs B As0
476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1677	in (map (rename strip_apply) As0,
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1678	deriv_rule1 (Proofterm.map_proof_terms (rename K) I) rder)
44108 476a239d3e0e rename_bvs now avoids introducing name clashes between schematic variables berghofe parents: 43795 diff changeset	1679	end;
18486 bf8637d9d53b added bicompose_no_flatten, which refrains from wenzelm parents: 18418 diff changeset	1680	in (map (if flatten then (Logic.flatten_params n) else I) As1, As1, rder', n)
250 9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	1681	handle TERM _ =>
9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	1682	raise THM("bicompose: 1st premise", 0, [orule])
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1683	end;
a5a9c433f639 Initial revision clasohm parents: diff changeset	1684	val BBi = if lifted then strip_assums2(B,Bi) else (B,Bi);
a5a9c433f639 Initial revision clasohm parents: diff changeset	1685	val dpairs = BBi :: (rtpairs@stpairs);
30554 73f8bd5f0af8 substantial speedup of assumption and elim-resolution: Logic.assum_problems refrains from eager application of parameters, discriminate via Term.could_unify before invoking full unification (assumes terms in beta-normal form, as do higher term net operations anyway); wenzelm parents: 30466 diff changeset	1686
73f8bd5f0af8 substantial speedup of assumption and elim-resolution: Logic.assum_problems refrains from eager application of parameters, discriminate via Term.could_unify before invoking full unification (assumes terms in beta-normal form, as do higher term net operations anyway); wenzelm parents: 30466 diff changeset	1687	(elim-resolution: try each assumption in turn)
52222 0fa3b456a267 unify types of schematic variables in non-lifted case (i.e. "compose variants") -- allow schematic polymorphism, without revisiting HO-unification; wenzelm parents: 52131 diff changeset	1688	fun eres _ [] = raise THM ("bicompose: no premises", 0, [orule, state])
0fa3b456a267 unify types of schematic variables in non-lifted case (i.e. "compose variants") -- allow schematic polymorphism, without revisiting HO-unification; wenzelm parents: 52131 diff changeset	1689	\| eres env (A1 :: As) =
30554 73f8bd5f0af8 substantial speedup of assumption and elim-resolution: Logic.assum_problems refrains from eager application of parameters, discriminate via Term.could_unify before invoking full unification (assumes terms in beta-normal form, as do higher term net operations anyway); wenzelm parents: 30466 diff changeset	1690	let
73f8bd5f0af8 substantial speedup of assumption and elim-resolution: Logic.assum_problems refrains from eager application of parameters, discriminate via Term.could_unify before invoking full unification (assumes terms in beta-normal form, as do higher term net operations anyway); wenzelm parents: 30466 diff changeset	1691	val A = SOME A1;
30556 7be15917f3fa eq_assumption: slightly more efficient by checking (open) result of Logic.assum_problems directly; wenzelm parents: 30554 diff changeset	1692	val (close, asms, concl) = Logic.assum_problems (nlift + 1, A1);
7be15917f3fa eq_assumption: slightly more efficient by checking (open) result of Logic.assum_problems directly; wenzelm parents: 30554 diff changeset	1693	val concl' = close concl;
30554 73f8bd5f0af8 substantial speedup of assumption and elim-resolution: Logic.assum_problems refrains from eager application of parameters, discriminate via Term.could_unify before invoking full unification (assumes terms in beta-normal form, as do higher term net operations anyway); wenzelm parents: 30466 diff changeset	1694	fun tryasms [] _ = Seq.empty
30556 7be15917f3fa eq_assumption: slightly more efficient by checking (open) result of Logic.assum_problems directly; wenzelm parents: 30554 diff changeset	1695	\| tryasms (asm :: rest) n =
7be15917f3fa eq_assumption: slightly more efficient by checking (open) result of Logic.assum_problems directly; wenzelm parents: 30554 diff changeset	1696	if Term.could_unify (asm, concl) then
7be15917f3fa eq_assumption: slightly more efficient by checking (open) result of Logic.assum_problems directly; wenzelm parents: 30554 diff changeset	1697	let val asm' = close asm in
58950 d07464875dd4 optional proof context for unify operations, for the sake of proper local options; wenzelm parents: 58946 diff changeset	1698	(case Seq.pull (Unify.unifiers (context, env, (asm', concl') :: dpairs)) of
30554 73f8bd5f0af8 substantial speedup of assumption and elim-resolution: Logic.assum_problems refrains from eager application of parameters, discriminate via Term.could_unify before invoking full unification (assumes terms in beta-normal form, as do higher term net operations anyway); wenzelm parents: 30466 diff changeset	1699	NONE => tryasms rest (n + 1)
73f8bd5f0af8 substantial speedup of assumption and elim-resolution: Logic.assum_problems refrains from eager application of parameters, discriminate via Term.could_unify before invoking full unification (assumes terms in beta-normal form, as do higher term net operations anyway); wenzelm parents: 30466 diff changeset	1700	\| cell as SOME ((_, tpairs), _) =>
30556 7be15917f3fa eq_assumption: slightly more efficient by checking (open) result of Logic.assum_problems directly; wenzelm parents: 30554 diff changeset	1701	Seq.it_right (addth A (newAs (As, n, [BBi, (concl', asm')], tpairs)))
30554 73f8bd5f0af8 substantial speedup of assumption and elim-resolution: Logic.assum_problems refrains from eager application of parameters, discriminate via Term.could_unify before invoking full unification (assumes terms in beta-normal form, as do higher term net operations anyway); wenzelm parents: 30466 diff changeset	1702	(Seq.make (fn () => cell),
73f8bd5f0af8 substantial speedup of assumption and elim-resolution: Logic.assum_problems refrains from eager application of parameters, discriminate via Term.could_unify before invoking full unification (assumes terms in beta-normal form, as do higher term net operations anyway); wenzelm parents: 30466 diff changeset	1703	Seq.make (fn () => Seq.pull (tryasms rest (n + 1)))))
73f8bd5f0af8 substantial speedup of assumption and elim-resolution: Logic.assum_problems refrains from eager application of parameters, discriminate via Term.could_unify before invoking full unification (assumes terms in beta-normal form, as do higher term net operations anyway); wenzelm parents: 30466 diff changeset	1704	end
73f8bd5f0af8 substantial speedup of assumption and elim-resolution: Logic.assum_problems refrains from eager application of parameters, discriminate via Term.could_unify before invoking full unification (assumes terms in beta-normal form, as do higher term net operations anyway); wenzelm parents: 30466 diff changeset	1705	else tryasms rest (n + 1);
30556 7be15917f3fa eq_assumption: slightly more efficient by checking (open) result of Logic.assum_problems directly; wenzelm parents: 30554 diff changeset	1706	in tryasms asms 1 end;
30554 73f8bd5f0af8 substantial speedup of assumption and elim-resolution: Logic.assum_problems refrains from eager application of parameters, discriminate via Term.could_unify before invoking full unification (assumes terms in beta-normal form, as do higher term net operations anyway); wenzelm parents: 30466 diff changeset	1707
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1708	(ordinary resolution)
52222 0fa3b456a267 unify types of schematic variables in non-lifted case (i.e. "compose variants") -- allow schematic polymorphism, without revisiting HO-unification; wenzelm parents: 52131 diff changeset	1709	fun res env =
58950 d07464875dd4 optional proof context for unify operations, for the sake of proper local options; wenzelm parents: 58946 diff changeset	1710	(case Seq.pull (Unify.unifiers (context, env, dpairs)) of
30554 73f8bd5f0af8 substantial speedup of assumption and elim-resolution: Logic.assum_problems refrains from eager application of parameters, discriminate via Term.could_unify before invoking full unification (assumes terms in beta-normal form, as do higher term net operations anyway); wenzelm parents: 30466 diff changeset	1711	NONE => Seq.empty
73f8bd5f0af8 substantial speedup of assumption and elim-resolution: Logic.assum_problems refrains from eager application of parameters, discriminate via Term.could_unify before invoking full unification (assumes terms in beta-normal form, as do higher term net operations anyway); wenzelm parents: 30466 diff changeset	1712	\| cell as SOME ((_, tpairs), _) =>
73f8bd5f0af8 substantial speedup of assumption and elim-resolution: Logic.assum_problems refrains from eager application of parameters, discriminate via Term.could_unify before invoking full unification (assumes terms in beta-normal form, as do higher term net operations anyway); wenzelm parents: 30466 diff changeset	1713	Seq.it_right (addth NONE (newAs (rev rAs, 0, [BBi], tpairs)))
73f8bd5f0af8 substantial speedup of assumption and elim-resolution: Logic.assum_problems refrains from eager application of parameters, discriminate via Term.could_unify before invoking full unification (assumes terms in beta-normal form, as do higher term net operations anyway); wenzelm parents: 30466 diff changeset	1714	(Seq.make (fn () => cell), Seq.empty));
52222 0fa3b456a267 unify types of schematic variables in non-lifted case (i.e. "compose variants") -- allow schematic polymorphism, without revisiting HO-unification; wenzelm parents: 52131 diff changeset	1715
0fa3b456a267 unify types of schematic variables in non-lifted case (i.e. "compose variants") -- allow schematic polymorphism, without revisiting HO-unification; wenzelm parents: 52131 diff changeset	1716	val env0 = Envir.empty (Int.max (rmax, smax));
30554 73f8bd5f0af8 substantial speedup of assumption and elim-resolution: Logic.assum_problems refrains from eager application of parameters, discriminate via Term.could_unify before invoking full unification (assumes terms in beta-normal form, as do higher term net operations anyway); wenzelm parents: 30466 diff changeset	1717	in
58950 d07464875dd4 optional proof context for unify operations, for the sake of proper local options; wenzelm parents: 58946 diff changeset	1718	(case if incremented then SOME env0 else unify_var_types context (state, orule) env0 of
52222 0fa3b456a267 unify types of schematic variables in non-lifted case (i.e. "compose variants") -- allow schematic polymorphism, without revisiting HO-unification; wenzelm parents: 52131 diff changeset	1719	NONE => Seq.empty
0fa3b456a267 unify types of schematic variables in non-lifted case (i.e. "compose variants") -- allow schematic polymorphism, without revisiting HO-unification; wenzelm parents: 52131 diff changeset	1720	\| SOME env => if eres_flg then eres env (rev rAs) else res env)
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1721	end;
7528 ee5f37e4f186 removed obsolete comment; wenzelm parents: 7323 diff changeset	1722	end;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1723
58950 d07464875dd4 optional proof context for unify operations, for the sake of proper local options; wenzelm parents: 58946 diff changeset	1724	fun bicompose opt_ctxt flags arg i state =
d07464875dd4 optional proof context for unify operations, for the sake of proper local options; wenzelm parents: 58946 diff changeset	1725	bicompose_aux opt_ctxt flags (state, dest_state (state,i), false) arg;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1726
a5a9c433f639 Initial revision clasohm parents: diff changeset	1727	(*Quick test whether rule is resolvable with the subgoal with hyps Hs
a5a9c433f639 Initial revision clasohm parents: diff changeset	1728	and conclusion B. If eres_flg then checks 1st premise of rule also*)
a5a9c433f639 Initial revision clasohm parents: diff changeset	1729	fun could_bires (Hs, B, eres_flg, rule) =
29269 5c25a2012975 moved term order operations to structure TermOrd (cf. Pure/term_ord.ML); wenzelm parents: 29003 diff changeset	1730	let fun could_reshyp (A1::_) = exists (fn H => Term.could_unify (A1, H)) Hs
250 9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	1731	\| could_reshyp [] = false; (no premise -- illegal)
29269 5c25a2012975 moved term order operations to structure TermOrd (cf. Pure/term_ord.ML); wenzelm parents: 29003 diff changeset	1732	in Term.could_unify(concl_of rule, B) andalso
250 9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	1733	(not eres_flg orelse could_reshyp (prems_of rule))
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1734	end;
a5a9c433f639 Initial revision clasohm parents: diff changeset	1735
a5a9c433f639 Initial revision clasohm parents: diff changeset	1736	(*Bi-resolution of a state with a list of (flag,rule) pairs.
a5a9c433f639 Initial revision clasohm parents: diff changeset	1737	Puts the rule above: rule/state. Renames vars in the rules. *)
58950 d07464875dd4 optional proof context for unify operations, for the sake of proper local options; wenzelm parents: 58946 diff changeset	1738	fun biresolution opt_ctxt match brules i state =
18035 eaae44affc9e added cgoal_of; wenzelm parents: 17868 diff changeset	1739	let val (stpairs, Bs, Bi, C) = dest_state(state,i);
18145 6757627acf59 renamed Thm.cgoal_of to Thm.cprem_of; wenzelm parents: 18127 diff changeset	1740	val lift = lift_rule (cprem_of state i);
250 9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	1741	val B = Logic.strip_assums_concl Bi;
9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	1742	val Hs = Logic.strip_assums_hyp Bi;
52223 5bb6ae8acb87 tuned signature -- more explicit flags for low-level Thm.bicompose; wenzelm parents: 52222 diff changeset	1743	val compose =
58950 d07464875dd4 optional proof context for unify operations, for the sake of proper local options; wenzelm parents: 58946 diff changeset	1744	bicompose_aux opt_ctxt {flatten = true, match = match, incremented = true}
52223 5bb6ae8acb87 tuned signature -- more explicit flags for low-level Thm.bicompose; wenzelm parents: 52222 diff changeset	1745	(state, (stpairs, Bs, Bi, C), true);
4270 957c887b89b5 changed Sequence interface (now Seq, in seq.ML); wenzelm parents: 4254 diff changeset	1746	fun res [] = Seq.empty
250 9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	1747	\| res ((eres_flg, rule)::brules) =
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1748	if Config.get_generic (make_context [state] opt_ctxt (cert_of state))
58950 d07464875dd4 optional proof context for unify operations, for the sake of proper local options; wenzelm parents: 58946 diff changeset	1749	Pattern.unify_trace_failure orelse could_bires (Hs, B, eres_flg, rule)
4270 957c887b89b5 changed Sequence interface (now Seq, in seq.ML); wenzelm parents: 4254 diff changeset	1750	then Seq.make (delay processing remainder till needed)
22573 2ac646ab2f6c avoid clash with Alice keywords; wenzelm parents: 22365 diff changeset	1751	(fn()=> SOME(compose (eres_flg, lift rule, nprems_of rule),
250 9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	1752	res brules))
9b5a069285ce extend_theory: changed type of "abbrs" arg; wenzelm parents: 242 diff changeset	1753	else res brules
4270 957c887b89b5 changed Sequence interface (now Seq, in seq.ML); wenzelm parents: 4254 diff changeset	1754	in Seq.flat (res brules) end;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1755
a5a9c433f639 Initial revision clasohm parents: diff changeset	1756
28321 9f4499bf9384 type thm: fully internal derivation, no longer exported; wenzelm parents: 28290 diff changeset	1757
2509 0a7169d89b7a added termless parameter; wenzelm parents: 2386 diff changeset	1758	(* Oracles *)
0a7169d89b7a added termless parameter; wenzelm parents: 2386 diff changeset	1759
28290 4cc2b6046258 simplified oracle interface; wenzelm parents: 28288 diff changeset	1760	(* oracle rule *)
4cc2b6046258 simplified oracle interface; wenzelm parents: 28288 diff changeset	1761
52788 da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	1762	fun invoke_oracle thy1 name oracle arg =
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1763	let val Cterm {cert = cert2, t = prop, T, maxidx, sorts} = oracle arg in
28290 4cc2b6046258 simplified oracle interface; wenzelm parents: 28288 diff changeset	1764	if T <> propT then
4cc2b6046258 simplified oracle interface; wenzelm parents: 28288 diff changeset	1765	raise THM ("Oracle's result must have type prop: " ^ name, 0, [])
4cc2b6046258 simplified oracle interface; wenzelm parents: 28288 diff changeset	1766	else
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1767	let val (ora, prf) = Proofterm.oracle_proof name prop in
32059 7991cdf10a54 support for arbitrarity nested future proofs -- replaced crude order by explicit normalization (which might loop for bad dependencies); wenzelm parents: 32035 diff changeset	1768	Thm (make_deriv [] [ora] [] prf,
61044 b7af255dd200 more abstract theory certificate, which is not necessarily the full theory; wenzelm parents: 61042 diff changeset	1769	{cert = Context.join_certificate (Context.Certificate thy1, cert2),
28804 5d3b1df16353 refined notion of derivation, consiting of promises and proof_body; wenzelm parents: 28675 diff changeset	1770	tags = [],
5d3b1df16353 refined notion of derivation, consiting of promises and proof_body; wenzelm parents: 28675 diff changeset	1771	maxidx = maxidx,
5d3b1df16353 refined notion of derivation, consiting of promises and proof_body; wenzelm parents: 28675 diff changeset	1772	shyps = sorts,
5d3b1df16353 refined notion of derivation, consiting of promises and proof_body; wenzelm parents: 28675 diff changeset	1773	hyps = [],
5d3b1df16353 refined notion of derivation, consiting of promises and proof_body; wenzelm parents: 28675 diff changeset	1774	tpairs = [],
5d3b1df16353 refined notion of derivation, consiting of promises and proof_body; wenzelm parents: 28675 diff changeset	1775	prop = prop})
5d3b1df16353 refined notion of derivation, consiting of promises and proof_body; wenzelm parents: 28675 diff changeset	1776	end
3812 66fa30839377 fixed get_axiom, invoke_oracle; wenzelm parents: 3789 diff changeset	1777	end;
66fa30839377 fixed get_axiom, invoke_oracle; wenzelm parents: 3789 diff changeset	1778
32590 95f4f08f950f replaced opaque signature matching by plain old abstype (again, cf. ac4498f95d1c) -- this recovers pretty printing in SML/NJ and Poly/ML 5.3; wenzelm parents: 32198 diff changeset	1779	end;
95f4f08f950f replaced opaque signature matching by plain old abstype (again, cf. ac4498f95d1c) -- this recovers pretty printing in SML/NJ and Poly/ML 5.3; wenzelm parents: 32198 diff changeset	1780	end;
95f4f08f950f replaced opaque signature matching by plain old abstype (again, cf. ac4498f95d1c) -- this recovers pretty printing in SML/NJ and Poly/ML 5.3; wenzelm parents: 32198 diff changeset	1781	end;
95f4f08f950f replaced opaque signature matching by plain old abstype (again, cf. ac4498f95d1c) -- this recovers pretty printing in SML/NJ and Poly/ML 5.3; wenzelm parents: 32198 diff changeset	1782
28290 4cc2b6046258 simplified oracle interface; wenzelm parents: 28288 diff changeset	1783
4cc2b6046258 simplified oracle interface; wenzelm parents: 28288 diff changeset	1784	(* authentic derivation names *)
4cc2b6046258 simplified oracle interface; wenzelm parents: 28288 diff changeset	1785
33522 737589bb9bb8 adapted Theory_Data; wenzelm parents: 33159 diff changeset	1786	structure Oracles = Theory_Data
28290 4cc2b6046258 simplified oracle interface; wenzelm parents: 28288 diff changeset	1787	(
33095 bbd52d2f8696 renamed NameSpace to Name_Space -- also to emphasize its subtle change in semantics; wenzelm parents: 33092 diff changeset	1788	type T = unit Name_Space.table;
33159 369da293bbd4 make SML/NJ happy; wenzelm parents: 33096 diff changeset	1789	val empty : T = Name_Space.empty_table "oracle";
28290 4cc2b6046258 simplified oracle interface; wenzelm parents: 28288 diff changeset	1790	val extend = I;
33522 737589bb9bb8 adapted Theory_Data; wenzelm parents: 33159 diff changeset	1791	fun merge data : T = Name_Space.merge_tables data;
28290 4cc2b6046258 simplified oracle interface; wenzelm parents: 28288 diff changeset	1792	);
4cc2b6046258 simplified oracle interface; wenzelm parents: 28288 diff changeset	1793
59917 9830c944670f more uniform "verbose" option to print name space; wenzelm parents: 59884 diff changeset	1794	fun extern_oracles verbose ctxt =
9830c944670f more uniform "verbose" option to print name space; wenzelm parents: 59884 diff changeset	1795	map #1 (Name_Space.markup_table verbose ctxt (Oracles.get (Proof_Context.theory_of ctxt)));
28290 4cc2b6046258 simplified oracle interface; wenzelm parents: 28288 diff changeset	1796
30288 a32700e45ab3 Thm.add_oracle interface: replaced old bstring by binding; wenzelm parents: 29636 diff changeset	1797	fun add_oracle (b, oracle) thy =
28290 4cc2b6046258 simplified oracle interface; wenzelm parents: 28288 diff changeset	1798	let
47005 421760a1efe7 maintain generic context naming in structure Name_Space (NB: empty = default_naming, init = local_naming); wenzelm parents: 46497 diff changeset	1799	val (name, tab') = Name_Space.define (Context.Theory thy) true (b, ()) (Oracles.get thy);
30288 a32700e45ab3 Thm.add_oracle interface: replaced old bstring by binding; wenzelm parents: 29636 diff changeset	1800	val thy' = Oracles.put tab' thy;
52788 da1fdbfebd39 type theory is purely value-oriented; wenzelm parents: 52709 diff changeset	1801	in ((name, invoke_oracle thy' name oracle), thy') end;
28290 4cc2b6046258 simplified oracle interface; wenzelm parents: 28288 diff changeset	1802
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	1803	end;
1503 7dba648ee25c Elimination of fully-functorial style. paulson parents: 1495 diff changeset	1804
32104 d1d98a02473e simultaneous join_proofs; wenzelm parents: 32094 diff changeset	1805	structure Basic_Thm: BASIC_THM = Thm;
d1d98a02473e simultaneous join_proofs; wenzelm parents: 32094 diff changeset	1806	open Basic_Thm;

author	wenzelm
	Tue, 20 Dec 2016 10:06:18 +0100
changeset 64614	88211daacf93
parent 64574	1134e4d5e5b7
child 64981	ea6199b23dfa
permissions	-rw-r--r--