isabelle: src/Pure/proofterm.ML@fd6e64133684 (annotated)

11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1	(* Title: Pure/proofterm.ML
11540 23794728cdb7 fixed header; wenzelm parents: 11519 diff changeset	2	Author: Stefan Berghofer, TU Muenchen
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	3
11540 23794728cdb7 fixed header; wenzelm parents: 11519 diff changeset	4	LF style proof terms.
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	5	*)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	6
11615 ca7be12b2cbc - Exchanged % and %%. berghofe parents: 11543 diff changeset	7	infix 8 % %% %>;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	8
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	9	signature BASIC_PROOFTERM =
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	10	sig
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	11	val proofs: int Unsynchronized.ref
48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	12
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	13	datatype proof =
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	14	MinProof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	15	\| PBound of int
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	16	\| Abst of string * typ option * proof
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	17	\| AbsP of string * term option * proof
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	18	\| op % of proof * term option
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	19	\| op %% of proof * proof
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	20	\| Hyp of term
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	21	\| PAxm of string * term * typ list option
31943 5e960a0780a2 renamed inclass/Inclass to of_class/OfClass, in accordance to of_sort; wenzelm parents: 31903 diff changeset	22	\| OfClass of typ * class
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	23	\| Oracle of string * term * typ list option
28828 c25dd83a6f9f unified treatment of PAxm/Oracle/Promise in basic proof term operations; wenzelm parents: 28815 diff changeset	24	\| Promise of serial * term * typ list
29635 31d14e9fa0da proof_body: turned lazy into future -- ensures that body is fulfilled eventually, without explicit force; wenzelm parents: 29270 diff changeset	25	\| PThm of serial * ((string * term * typ list option) * proof_body future)
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	26	and proof_body = PBody of
39687 4e9b6ada3a21 modernized structure Ord_List; wenzelm parents: 39020 diff changeset	27	{oracles: (string * term) Ord_List.T,
4e9b6ada3a21 modernized structure Ord_List; wenzelm parents: 39020 diff changeset	28	thms: (serial * (string * term * proof_body future)) Ord_List.T,
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	29	proof: proof}
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	30
11615 ca7be12b2cbc - Exchanged % and %%. berghofe parents: 11543 diff changeset	31	val %> : proof * term -> proof
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	32	end;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	33
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	34	signature PROOFTERM =
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	35	sig
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	36	include BASIC_PROOFTERM
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	37
28815 80bb72a0f577 proof_body/pthm: removed redundant types field; wenzelm parents: 28812 diff changeset	38	type oracle = string * term
29635 31d14e9fa0da proof_body: turned lazy into future -- ensures that body is fulfilled eventually, without explicit force; wenzelm parents: 29270 diff changeset	39	type pthm = serial * (string * term * proof_body future)
32094 89b9210c7506 prefer simultaneous join -- for improved scheduling; wenzelm parents: 32057 diff changeset	40	val proof_of: proof_body -> proof
29635 31d14e9fa0da proof_body: turned lazy into future -- ensures that body is fulfilled eventually, without explicit force; wenzelm parents: 29270 diff changeset	41	val join_proof: proof_body future -> proof
30711 952fdbee1b48 display derivation status of thms; wenzelm parents: 30146 diff changeset	42	val fold_proof_atoms: bool -> (proof -> 'a -> 'a) -> proof list -> 'a -> 'a
32810 f3466a5645fa back to simple fold_body_thms and fulfill_proof/thm_proof (reverting a900d3cd47cc) -- the cycle check is implicit in the future computation of join_proofs; wenzelm parents: 32785 diff changeset	43	val fold_body_thms: (string * term * proof_body -> 'a -> 'a) -> proof_body list -> 'a -> 'a
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: 44332 diff changeset	44	val join_bodies: proof_body list -> unit
50126 3dec88149176 theorem status about oracles/futures is no longer printed by default; wenzelm parents: 45156 diff changeset	45	val peek_status: proof_body list -> {failed: bool, oracle: bool, unfinished: bool}
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	46
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	47	val oracle_ord: oracle * oracle -> order
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	48	val thm_ord: pthm * pthm -> order
44334 605381e7c7c5 more direct balanced version Ord_List.unions; wenzelm parents: 44333 diff changeset	49	val unions_oracles: oracle Ord_List.T list -> oracle Ord_List.T
605381e7c7c5 more direct balanced version Ord_List.unions; wenzelm parents: 44333 diff changeset	50	val unions_thms: pthm Ord_List.T list -> pthm Ord_List.T
39687 4e9b6ada3a21 modernized structure Ord_List; wenzelm parents: 39020 diff changeset	51	val all_oracles_of: proof_body -> oracle Ord_List.T
30716 2ee706293eb5 removed misleading make_proof_body, make_oracles, make_thms, which essentially assume a full proof; wenzelm parents: 30712 diff changeset	52	val approximate_proof_body: proof -> proof_body
52424 77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	53	val no_proof_body: proof_body
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	54	val no_thm_proofs: proof -> proof
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	55
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	56	val encode: proof XML.Encode.T
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	57	val encode_body: proof_body XML.Encode.T
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	58	val decode: proof XML.Decode.T
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	59	val decode_body: proof_body XML.Decode.T
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	60
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	61	( primitive operations )
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	62	val proofs_enabled: unit -> bool
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	63	val proof_combt: proof * term list -> proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	64	val proof_combt': proof * term option list -> proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	65	val proof_combP: proof * proof list -> proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	66	val strip_combt: proof -> proof * term option list
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	67	val strip_combP: proof -> proof * proof list
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	68	val strip_thm: proof_body -> proof_body
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	69	val map_proof_same: term Same.operation -> typ Same.operation
e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	70	-> (typ * class -> proof) -> proof Same.operation
36620 e6bb250402b5 simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant; wenzelm parents: 36619 diff changeset	71	val map_proof_terms_same: term Same.operation -> typ Same.operation -> proof Same.operation
e6bb250402b5 simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant; wenzelm parents: 36619 diff changeset	72	val map_proof_types_same: typ Same.operation -> proof Same.operation
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	73	val map_proof_terms: (term -> term) -> (typ -> typ) -> proof -> proof
36620 e6bb250402b5 simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant; wenzelm parents: 36619 diff changeset	74	val map_proof_types: (typ -> typ) -> proof -> proof
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	75	val fold_proof_terms: (term -> 'a -> 'a) -> (typ -> 'a -> 'a) -> proof -> 'a -> 'a
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	76	val maxidx_proof: proof -> int -> int
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	77	val size_of_proof: proof -> int
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	78	val change_type: typ list option -> proof -> proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	79	val prf_abstract_over: term -> proof -> proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	80	val prf_incr_bv: int -> int -> int -> int -> proof -> proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	81	val incr_pboundvars: int -> int -> proof -> proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	82	val prf_loose_bvar1: proof -> int -> bool
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	83	val prf_loose_Pbvar1: proof -> int -> bool
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	84	val prf_add_loose_bnos: int -> int -> proof -> int list * int list -> int list * int list
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	85	val norm_proof: Envir.env -> proof -> proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	86	val norm_proof': Envir.env -> proof -> proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	87	val prf_subst_bounds: term list -> proof -> proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	88	val prf_subst_pbounds: proof list -> proof -> proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	89	val freeze_thaw_prf: proof -> proof * (proof -> proof)
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	90
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	91	( proof terms for specific inference rules )
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	92	val implies_intr_proof: term -> proof -> proof
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	93	val implies_intr_proof': term -> proof -> proof
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	94	val forall_intr_proof: term -> string -> proof -> proof
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	95	val forall_intr_proof': term -> proof -> proof
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	96	val varify_proof: term -> (string * sort) list -> proof -> proof
36619 deadcd0ec431 renamed Proofterm.freezeT to Proofterm.legacy_freezeT (cf. 88756a5a92fc); wenzelm parents: 35851 diff changeset	97	val legacy_freezeT: term -> proof -> proof
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	98	val rotate_proof: term list -> term -> int -> proof -> proof
36742 6f8bbe9ca8a2 tuned signature; wenzelm parents: 36741 diff changeset	99	val permute_prems_proof: term list -> int -> int -> proof -> proof
19908 f035261fb5b9 added generalize rule; wenzelm parents: 19502 diff changeset	100	val generalize: string list * string list -> int -> proof -> proof
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	101	val instantiate: ((indexname * sort) * typ) list * ((indexname * typ) * term) list
16880 411d91d104c4 tuned instantiate interface; wenzelm parents: 16787 diff changeset	102	-> proof -> proof
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	103	val lift_proof: term -> int -> term -> proof -> proof
32027 9dd548810ed1 tuned incr_indexes; wenzelm parents: 32024 diff changeset	104	val incr_indexes: int -> proof -> proof
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	105	val assumption_proof: term list -> term -> int -> proof -> proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	106	val bicompose_proof: bool -> term list -> term list -> term list -> term option ->
23296 25f28f9c28a3 Adapted Proofterm.bicompose_proof to Larry's changes in berghofe parents: 23178 diff changeset	107	int -> int -> proof -> proof -> proof
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	108	val equality_axms: (string * term) list
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	109	val reflexive_axm: proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	110	val symmetric_axm: proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	111	val transitive_axm: proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	112	val equal_intr_axm: proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	113	val equal_elim_axm: proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	114	val abstract_rule_axm: proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	115	val combination_axm: proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	116	val reflexive: proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	117	val symmetric: proof -> proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	118	val transitive: term -> typ -> proof -> proof -> proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	119	val abstract_rule: term -> string -> proof -> proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	120	val combination: term -> term -> term -> term -> typ -> proof -> proof -> proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	121	val equal_intr: term -> term -> proof -> proof -> proof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	122	val equal_elim: term -> term -> proof -> proof -> proof
36621 2fd4e2c76636 proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences: wenzelm parents: 36620 diff changeset	123	val strip_shyps_proof: Sorts.algebra -> (typ * sort) list -> (typ * sort) list ->
2fd4e2c76636 proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences: wenzelm parents: 36620 diff changeset	124	sort list -> proof -> proof
36740 6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	125	val classrel_proof: theory -> class * class -> proof
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	126	val arity_proof: theory -> string * sort list * class -> proof
36741 d65ed9d7275e added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance; wenzelm parents: 36740 diff changeset	127	val of_sort_proof: theory -> (typ * class -> proof) -> typ * sort -> proof list
36740 6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	128	val install_axclass_proofs:
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	129	{classrel_proof: theory -> class * class -> proof,
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	130	arity_proof: theory -> string * sort list * class -> proof} -> unit
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	131	val axm_proof: string -> term -> proof
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	132	val oracle_proof: string -> term -> oracle * proof
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	133
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	134	( rewriting on proof terms )
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	135	val add_prf_rrule: proof * proof -> theory -> theory
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	136	val add_prf_rproc: (typ list -> term option list -> proof -> (proof * proof) option) -> theory -> theory
33722 e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	137	val no_skel: proof
e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	138	val normal_skel: proof
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	139	val rewrite_proof: theory -> (proof * proof) list *
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	140	(typ list -> term option list -> proof -> (proof * proof) option) list -> proof -> proof
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	141	val rewrite_proof_notypes: (proof * proof) list *
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	142	(typ list -> term option list -> proof -> (proof * proof) option) list -> proof -> proof
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	143	val rew_proof: theory -> proof -> proof
36877 7699f7fafde7 added Proofterm.get_name variants according to krauss/schropp; wenzelm parents: 36742 diff changeset	144
7699f7fafde7 added Proofterm.get_name variants according to krauss/schropp; wenzelm parents: 36742 diff changeset	145	val promise_proof: theory -> serial -> term -> proof
7699f7fafde7 added Proofterm.get_name variants according to krauss/schropp; wenzelm parents: 36742 diff changeset	146	val fulfill_norm_proof: theory -> (serial * proof_body) list -> proof_body -> proof_body
36882 f33760bb8ca0 conditionally unconstrain thm proofs -- loosely based on the version by krauss/schropp; wenzelm parents: 36880 diff changeset	147	val thm_proof: theory -> string -> sort list -> term list -> term ->
36877 7699f7fafde7 added Proofterm.get_name variants according to krauss/schropp; wenzelm parents: 36742 diff changeset	148	(serial * proof_body future) list -> proof_body -> pthm * proof
36883 4ed0d72def50 added Proofterm.unconstrain_thm_proof for Thm.unconstrainT -- loosely based on the version by krauss/schropp; wenzelm parents: 36882 diff changeset	149	val unconstrain_thm_proof: theory -> sort list -> term ->
4ed0d72def50 added Proofterm.unconstrain_thm_proof for Thm.unconstrainT -- loosely based on the version by krauss/schropp; wenzelm parents: 36882 diff changeset	150	(serial * proof_body future) list -> proof_body -> pthm * proof
37297 a1acd424645a always unconstrain thm proofs; wenzelm parents: 37251 diff changeset	151	val get_name: sort list -> term list -> term -> proof -> string
36877 7699f7fafde7 added Proofterm.get_name variants according to krauss/schropp; wenzelm parents: 36742 diff changeset	152	val guess_name: proof -> string
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	153	end
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	154
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	155	structure Proofterm : PROOFTERM =
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	156	struct
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	157
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	158	(*** datatype proof ***)
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	159
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	160	datatype proof =
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	161	MinProof
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	162	\| PBound of int
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	163	\| Abst of string * typ option * proof
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	164	\| AbsP of string * term option * proof
12497 ec6ba9e6eef3 type_env; wenzelm parents: 12311 diff changeset	165	\| op % of proof * term option
ec6ba9e6eef3 type_env; wenzelm parents: 12311 diff changeset	166	\| op %% of proof * proof
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	167	\| Hyp of term
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	168	\| PAxm of string * term * typ list option
31943 5e960a0780a2 renamed inclass/Inclass to of_class/OfClass, in accordance to of_sort; wenzelm parents: 31903 diff changeset	169	\| OfClass of typ * class
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	170	\| Oracle of string * term * typ list option
28828 c25dd83a6f9f unified treatment of PAxm/Oracle/Promise in basic proof term operations; wenzelm parents: 28815 diff changeset	171	\| Promise of serial * term * typ list
29635 31d14e9fa0da proof_body: turned lazy into future -- ensures that body is fulfilled eventually, without explicit force; wenzelm parents: 29270 diff changeset	172	\| PThm of serial * ((string * term * typ list option) * proof_body future)
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	173	and proof_body = PBody of
39687 4e9b6ada3a21 modernized structure Ord_List; wenzelm parents: 39020 diff changeset	174	{oracles: (string * term) Ord_List.T,
4e9b6ada3a21 modernized structure Ord_List; wenzelm parents: 39020 diff changeset	175	thms: (serial * (string * term * proof_body future)) Ord_List.T,
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	176	proof: proof};
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	177
28815 80bb72a0f577 proof_body/pthm: removed redundant types field; wenzelm parents: 28812 diff changeset	178	type oracle = string * term;
29635 31d14e9fa0da proof_body: turned lazy into future -- ensures that body is fulfilled eventually, without explicit force; wenzelm parents: 29270 diff changeset	179	type pthm = serial * (string * term * proof_body future);
28815 80bb72a0f577 proof_body/pthm: removed redundant types field; wenzelm parents: 28812 diff changeset	180
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	181	fun proof_of (PBody {proof, ...}) = proof;
32094 89b9210c7506 prefer simultaneous join -- for improved scheduling; wenzelm parents: 32057 diff changeset	182	val join_proof = Future.join #> proof_of;
17017 fa8e32209734 - Tuned handling of oracles berghofe parents: 16983 diff changeset	183
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: 44332 diff changeset	184	fun join_thms (thms: pthm list) = ignore (Future.joins (map (#3 o #2) thms));
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: 44332 diff changeset	185
17017 fa8e32209734 - Tuned handling of oracles berghofe parents: 16983 diff changeset	186
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	187	(*** proof atoms ***)
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	188
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	189	fun fold_proof_atoms all f =
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	190	let
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	191	fun app (Abst (_, _, prf)) = app prf
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	192	\| app (AbsP (_, _, prf)) = app prf
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	193	\| app (prf % _) = app prf
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	194	\| app (prf1 %% prf2) = app prf1 #> app prf2
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	195	\| app (prf as PThm (i, (_, body))) = (fn (x, seen) =>
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	196	if Inttab.defined seen i then (x, seen)
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	197	else
28815 80bb72a0f577 proof_body/pthm: removed redundant types field; wenzelm parents: 28812 diff changeset	198	let val (x', seen') =
29635 31d14e9fa0da proof_body: turned lazy into future -- ensures that body is fulfilled eventually, without explicit force; wenzelm parents: 29270 diff changeset	199	(if all then app (join_proof body) else I) (x, Inttab.update (i, ()) seen)
28815 80bb72a0f577 proof_body/pthm: removed redundant types field; wenzelm parents: 28812 diff changeset	200	in (f prf x', seen') end)
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	201	\| app prf = (fn (x, seen) => (f prf x, seen));
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	202	in fn prfs => fn x => #1 (fold app prfs (x, Inttab.empty)) end;
19357 dade85a75c9f Added alternative version of thms_of_proof that does not recursively berghofe parents: 19304 diff changeset	203
30711 952fdbee1b48 display derivation status of thms; wenzelm parents: 30146 diff changeset	204	fun fold_body_thms f =
952fdbee1b48 display derivation status of thms; wenzelm parents: 30146 diff changeset	205	let
32726 a900d3cd47cc fold_body_thms: pass pthm identifier; wenzelm parents: 32711 diff changeset	206	fun app (PBody {thms, ...}) =
44303 4e2abb045eac incremental Proofterm.join_body, with join_thms step in fulfill_norm_proof -- avoid full graph traversal of former Proofterm.join_bodies; wenzelm parents: 44302 diff changeset	207	tap join_thms thms \|> fold (fn (i, (name, prop, body)) => fn (x, seen) =>
32726 a900d3cd47cc fold_body_thms: pass pthm identifier; wenzelm parents: 32711 diff changeset	208	if Inttab.defined seen i then (x, seen)
32094 89b9210c7506 prefer simultaneous join -- for improved scheduling; wenzelm parents: 32057 diff changeset	209	else
89b9210c7506 prefer simultaneous join -- for improved scheduling; wenzelm parents: 32057 diff changeset	210	let
89b9210c7506 prefer simultaneous join -- for improved scheduling; wenzelm parents: 32057 diff changeset	211	val body' = Future.join body;
32726 a900d3cd47cc fold_body_thms: pass pthm identifier; wenzelm parents: 32711 diff changeset	212	val (x', seen') = app body' (x, Inttab.update (i, ()) seen);
44303 4e2abb045eac incremental Proofterm.join_body, with join_thms step in fulfill_norm_proof -- avoid full graph traversal of former Proofterm.join_bodies; wenzelm parents: 44302 diff changeset	213	in (f (name, prop, body') x', seen') end);
32726 a900d3cd47cc fold_body_thms: pass pthm identifier; wenzelm parents: 32711 diff changeset	214	in fn bodies => fn x => #1 (fold app bodies (x, Inttab.empty)) end;
30711 952fdbee1b48 display derivation status of thms; wenzelm parents: 30146 diff changeset	215
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: 44332 diff changeset	216	fun join_bodies bodies = fold_body_thms (fn _ => fn () => ()) bodies ();
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: 44332 diff changeset	217
50126 3dec88149176 theorem status about oracles/futures is no longer printed by default; wenzelm parents: 45156 diff changeset	218	fun peek_status bodies =
30711 952fdbee1b48 display derivation status of thms; wenzelm parents: 30146 diff changeset	219	let
952fdbee1b48 display derivation status of thms; wenzelm parents: 30146 diff changeset	220	fun status (PBody {oracles, thms, ...}) x =
952fdbee1b48 display derivation status of thms; wenzelm parents: 30146 diff changeset	221	let
952fdbee1b48 display derivation status of thms; wenzelm parents: 30146 diff changeset	222	val ((oracle, unfinished, failed), seen) =
952fdbee1b48 display derivation status of thms; wenzelm parents: 30146 diff changeset	223	(thms, x) \|-> fold (fn (i, (_, _, body)) => fn (st, seen) =>
952fdbee1b48 display derivation status of thms; wenzelm parents: 30146 diff changeset	224	if Inttab.defined seen i then (st, seen)
952fdbee1b48 display derivation status of thms; wenzelm parents: 30146 diff changeset	225	else
952fdbee1b48 display derivation status of thms; wenzelm parents: 30146 diff changeset	226	let val seen' = Inttab.update (i, ()) seen in
952fdbee1b48 display derivation status of thms; wenzelm parents: 30146 diff changeset	227	(case Future.peek body of
43761 e72ba84ae58f tuned signature -- corresponding to Scala version; wenzelm parents: 43329 diff changeset	228	SOME (Exn.Res body') => status body' (st, seen')
30711 952fdbee1b48 display derivation status of thms; wenzelm parents: 30146 diff changeset	229	\| SOME (Exn.Exn _) =>
952fdbee1b48 display derivation status of thms; wenzelm parents: 30146 diff changeset	230	let val (oracle, unfinished, _) = st
952fdbee1b48 display derivation status of thms; wenzelm parents: 30146 diff changeset	231	in ((oracle, unfinished, true), seen') end
952fdbee1b48 display derivation status of thms; wenzelm parents: 30146 diff changeset	232	\| NONE =>
952fdbee1b48 display derivation status of thms; wenzelm parents: 30146 diff changeset	233	let val (oracle, _, failed) = st
952fdbee1b48 display derivation status of thms; wenzelm parents: 30146 diff changeset	234	in ((oracle, true, failed), seen') end)
952fdbee1b48 display derivation status of thms; wenzelm parents: 30146 diff changeset	235	end);
952fdbee1b48 display derivation status of thms; wenzelm parents: 30146 diff changeset	236	in ((oracle orelse not (null oracles), unfinished, failed), seen) end;
32057 371aacbbd6ef tuned; wenzelm parents: 32054 diff changeset	237	val (oracle, unfinished, failed) =
371aacbbd6ef tuned; wenzelm parents: 32054 diff changeset	238	#1 (fold status bodies ((false, false, false), Inttab.empty));
30711 952fdbee1b48 display derivation status of thms; wenzelm parents: 30146 diff changeset	239	in {oracle = oracle, unfinished = unfinished, failed = failed} end;
952fdbee1b48 display derivation status of thms; wenzelm parents: 30146 diff changeset	240
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	241
28815 80bb72a0f577 proof_body/pthm: removed redundant types field; wenzelm parents: 28812 diff changeset	242	(* proof body *)
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	243
35408 b48ab741683b modernized structure Term_Ord; wenzelm parents: 33957 diff changeset	244	val oracle_ord = prod_ord fast_string_ord Term_Ord.fast_term_ord;
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	245	fun thm_ord ((i, _): pthm, (j, _)) = int_ord (j, i);
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	246
44334 605381e7c7c5 more direct balanced version Ord_List.unions; wenzelm parents: 44333 diff changeset	247	val unions_oracles = Ord_List.unions oracle_ord;
605381e7c7c5 more direct balanced version Ord_List.unions; wenzelm parents: 44333 diff changeset	248	val unions_thms = Ord_List.unions thm_ord;
30716 2ee706293eb5 removed misleading make_proof_body, make_oracles, make_thms, which essentially assume a full proof; wenzelm parents: 30712 diff changeset	249
2ee706293eb5 removed misleading make_proof_body, make_oracles, make_thms, which essentially assume a full proof; wenzelm parents: 30712 diff changeset	250	val all_oracles_of =
2ee706293eb5 removed misleading make_proof_body, make_oracles, make_thms, which essentially assume a full proof; wenzelm parents: 30712 diff changeset	251	let
32057 371aacbbd6ef tuned; wenzelm parents: 32054 diff changeset	252	fun collect (PBody {oracles, thms, ...}) =
44303 4e2abb045eac incremental Proofterm.join_body, with join_thms step in fulfill_norm_proof -- avoid full graph traversal of former Proofterm.join_bodies; wenzelm parents: 44302 diff changeset	253	tap join_thms thms \|> fold (fn (i, (_, _, body)) => fn (x, seen) =>
32057 371aacbbd6ef tuned; wenzelm parents: 32054 diff changeset	254	if Inttab.defined seen i then (x, seen)
371aacbbd6ef tuned; wenzelm parents: 32054 diff changeset	255	else
371aacbbd6ef tuned; wenzelm parents: 32054 diff changeset	256	let
371aacbbd6ef tuned; wenzelm parents: 32054 diff changeset	257	val body' = Future.join body;
371aacbbd6ef tuned; wenzelm parents: 32054 diff changeset	258	val (x', seen') = collect body' (x, Inttab.update (i, ()) seen);
44334 605381e7c7c5 more direct balanced version Ord_List.unions; wenzelm parents: 44333 diff changeset	259	in (if null oracles then x' else oracles :: x', seen') end);
605381e7c7c5 more direct balanced version Ord_List.unions; wenzelm parents: 44333 diff changeset	260	in fn body => unions_oracles (#1 (collect body ([], Inttab.empty))) end;
30716 2ee706293eb5 removed misleading make_proof_body, make_oracles, make_thms, which essentially assume a full proof; wenzelm parents: 30712 diff changeset	261
2ee706293eb5 removed misleading make_proof_body, make_oracles, make_thms, which essentially assume a full proof; wenzelm parents: 30712 diff changeset	262	fun approximate_proof_body prf =
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	263	let
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	264	val (oracles, thms) = fold_proof_atoms false
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	265	(fn Oracle (s, prop, _) => apfst (cons (s, prop))
28815 80bb72a0f577 proof_body/pthm: removed redundant types field; wenzelm parents: 28812 diff changeset	266	\| PThm (i, ((name, prop, _), body)) => apsnd (cons (i, (name, prop, body)))
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	267	\| _ => I) [prf] ([], []);
30716 2ee706293eb5 removed misleading make_proof_body, make_oracles, make_thms, which essentially assume a full proof; wenzelm parents: 30712 diff changeset	268	in
2ee706293eb5 removed misleading make_proof_body, make_oracles, make_thms, which essentially assume a full proof; wenzelm parents: 30712 diff changeset	269	PBody
39687 4e9b6ada3a21 modernized structure Ord_List; wenzelm parents: 39020 diff changeset	270	{oracles = Ord_List.make oracle_ord oracles,
4e9b6ada3a21 modernized structure Ord_List; wenzelm parents: 39020 diff changeset	271	thms = Ord_List.make thm_ord thms,
30716 2ee706293eb5 removed misleading make_proof_body, make_oracles, make_thms, which essentially assume a full proof; wenzelm parents: 30712 diff changeset	272	proof = prf}
2ee706293eb5 removed misleading make_proof_body, make_oracles, make_thms, which essentially assume a full proof; wenzelm parents: 30712 diff changeset	273	end;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	274
52424 77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	275	val no_proof_body = PBody {oracles = [], thms = [], proof = MinProof};
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	276	val no_body = Future.value no_proof_body;
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	277
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	278	fun no_thm_proofs (PThm (i, (a, _))) = PThm (i, (a, no_body))
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	279	\| no_thm_proofs (Abst (x, T, prf)) = Abst (x, T, no_thm_proofs prf)
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	280	\| no_thm_proofs (AbsP (x, t, prf)) = AbsP (x, t, no_thm_proofs prf)
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	281	\| no_thm_proofs (prf % t) = no_thm_proofs prf % t
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	282	\| no_thm_proofs (prf1 %% prf2) = no_thm_proofs prf1 %% no_thm_proofs prf2
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	283	\| no_thm_proofs a = a;
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	284
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	285
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	286	(*** XML data representation ***)
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	287
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	288	(* encode *)
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	289
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	290	local
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	291
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	292	open XML.Encode Term_XML.Encode;
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	293
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	294	fun proof prf = prf \|> variant
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	295	[fn MinProof => ([], []),
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	296	fn PBound a => ([int_atom a], []),
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	297	fn Abst (a, b, c) => ([a], pair (option typ) proof (b, c)),
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	298	fn AbsP (a, b, c) => ([a], pair (option term) proof (b, c)),
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	299	fn a % b => ([], pair proof (option term) (a, b)),
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	300	fn a %% b => ([], pair proof proof (a, b)),
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	301	fn Hyp a => ([], term a),
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	302	fn PAxm (a, b, c) => ([a], pair term (option (list typ)) (b, c)),
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	303	fn OfClass (a, b) => ([b], typ a),
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	304	fn Oracle (a, b, c) => ([a], pair term (option (list typ)) (b, c)),
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	305	fn Promise (a, b, c) => ([int_atom a], pair term (list typ) (b, c)),
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	306	fn PThm (a, ((b, c, d), body)) =>
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	307	([int_atom a, b], triple term (option (list typ)) proof_body (c, d, Future.join body))]
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	308	and proof_body (PBody {oracles, thms, proof = prf}) =
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	309	triple (list (pair string term)) (list pthm) proof (oracles, thms, prf)
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	310	and pthm (a, (b, c, body)) =
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	311	pair int (triple string term proof_body) (a, (b, c, Future.join body));
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	312
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	313	in
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	314
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	315	val encode = proof;
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	316	val encode_body = proof_body;
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	317
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	318	end;
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	319
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	320
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	321	(* decode *)
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	322
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	323	local
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	324
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	325	open XML.Decode Term_XML.Decode;
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	326
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	327	fun proof prf = prf \|> variant
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	328	[fn ([], []) => MinProof,
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	329	fn ([a], []) => PBound (int_atom a),
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	330	fn ([a], b) => let val (c, d) = pair (option typ) proof b in Abst (a, c, d) end,
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	331	fn ([a], b) => let val (c, d) = pair (option term) proof b in AbsP (a, c, d) end,
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	332	fn ([], a) => op % (pair proof (option term) a),
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	333	fn ([], a) => op %% (pair proof proof a),
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	334	fn ([], a) => Hyp (term a),
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	335	fn ([a], b) => let val (c, d) = pair term (option (list typ)) b in PAxm (a, c, d) end,
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	336	fn ([b], a) => OfClass (typ a, b),
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	337	fn ([a], b) => let val (c, d) = pair term (option (list typ)) b in Oracle (a, c, d) end,
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	338	fn ([a], b) => let val (c, d) = pair term (list typ) b in Promise (int_atom a, c, d) end,
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	339	fn ([a, b], c) =>
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	340	let val (d, e, f) = triple term (option (list typ)) proof_body c
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	341	in PThm (int_atom a, ((b, d, e), Future.value f)) end]
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	342	and proof_body x =
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	343	let val (a, b, c) = triple (list (pair string term)) (list pthm) proof x
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	344	in PBody {oracles = a, thms = b, proof = c} end
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	345	and pthm x =
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	346	let val (a, (b, c, d)) = pair int (triple string term proof_body) x
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	347	in (a, (b, c, Future.value d)) end;
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	348
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	349	in
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	350
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	351	val decode = proof;
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	352	val decode_body = proof_body;
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	353
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	354	end;
77075c576d4c support for XML data representation of proof terms; wenzelm parents: 51700 diff changeset	355
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	356
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	357	(*** proof objects with different levels of detail ***)
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	358
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	359	fun (prf %> t) = prf % SOME t;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	360
15570 8d8c70b41bab Move towards standard functions. skalberg parents: 15531 diff changeset	361	val proof_combt = Library.foldl (op %>);
8d8c70b41bab Move towards standard functions. skalberg parents: 15531 diff changeset	362	val proof_combt' = Library.foldl (op %);
8d8c70b41bab Move towards standard functions. skalberg parents: 15531 diff changeset	363	val proof_combP = Library.foldl (op %%);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	364
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 20853 diff changeset	365	fun strip_combt prf =
11615 ca7be12b2cbc - Exchanged % and %%. berghofe parents: 11543 diff changeset	366	let fun stripc (prf % t, ts) = stripc (prf, t::ts)
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 20853 diff changeset	367	\| stripc x = x
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	368	in stripc (prf, []) end;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	369
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 20853 diff changeset	370	fun strip_combP prf =
11615 ca7be12b2cbc - Exchanged % and %%. berghofe parents: 11543 diff changeset	371	let fun stripc (prf %% prf', prfs) = stripc (prf, prf'::prfs)
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	372	\| stripc x = x
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	373	in stripc (prf, []) end;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	374
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	375	fun strip_thm (body as PBody {proof, ...}) =
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	376	(case strip_combt (fst (strip_combP proof)) of
29635 31d14e9fa0da proof_body: turned lazy into future -- ensures that body is fulfilled eventually, without explicit force; wenzelm parents: 29270 diff changeset	377	(PThm (_, (_, body')), _) => Future.join body'
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	378	\| _ => body);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	379
23178 07ba6b58b3d2 simplified/unified list fold; wenzelm parents: 22846 diff changeset	380	val mk_Abst = fold_rev (fn (s, T:typ) => fn prf => Abst (s, NONE, prf));
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	381	fun mk_AbsP (i, prf) = funpow i (fn prf => AbsP ("H", NONE, prf)) prf;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	382
36620 e6bb250402b5 simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant; wenzelm parents: 36619 diff changeset	383	fun map_proof_same term typ ofclass =
20000 2fa767ab91aa added map_proof_terms_option; wenzelm parents: 19908 diff changeset	384	let
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	385	val typs = Same.map typ;
20000 2fa767ab91aa added map_proof_terms_option; wenzelm parents: 19908 diff changeset	386
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	387	fun proof (Abst (s, T, prf)) =
a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	388	(Abst (s, Same.map_option typ T, Same.commit proof prf)
a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	389	handle Same.SAME => Abst (s, T, proof prf))
a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	390	\| proof (AbsP (s, t, prf)) =
a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	391	(AbsP (s, Same.map_option term t, Same.commit proof prf)
a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	392	handle Same.SAME => AbsP (s, t, proof prf))
a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	393	\| proof (prf % t) =
a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	394	(proof prf % Same.commit (Same.map_option term) t
a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	395	handle Same.SAME => prf % Same.map_option term t)
a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	396	\| proof (prf1 %% prf2) =
a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	397	(proof prf1 %% Same.commit proof prf2
a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	398	handle Same.SAME => prf1 %% proof prf2)
a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	399	\| proof (PAxm (a, prop, SOME Ts)) = PAxm (a, prop, SOME (typs Ts))
36620 e6bb250402b5 simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant; wenzelm parents: 36619 diff changeset	400	\| proof (OfClass T_c) = ofclass T_c
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	401	\| proof (Oracle (a, prop, SOME Ts)) = Oracle (a, prop, SOME (typs Ts))
a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	402	\| proof (Promise (i, prop, Ts)) = Promise (i, prop, typs Ts)
32057 371aacbbd6ef tuned; wenzelm parents: 32054 diff changeset	403	\| proof (PThm (i, ((a, prop, SOME Ts), body))) =
371aacbbd6ef tuned; wenzelm parents: 32054 diff changeset	404	PThm (i, ((a, prop, SOME (typs Ts)), body))
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	405	\| proof _ = raise Same.SAME;
36620 e6bb250402b5 simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant; wenzelm parents: 36619 diff changeset	406	in proof end;
e6bb250402b5 simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant; wenzelm parents: 36619 diff changeset	407
e6bb250402b5 simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant; wenzelm parents: 36619 diff changeset	408	fun map_proof_terms_same term typ = map_proof_same term typ (fn (T, c) => OfClass (typ T, c));
e6bb250402b5 simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant; wenzelm parents: 36619 diff changeset	409	fun map_proof_types_same typ = map_proof_terms_same (Term_Subst.map_types_same typ) typ;
20000 2fa767ab91aa added map_proof_terms_option; wenzelm parents: 19908 diff changeset	410
22662 3e492ba59355 canonical merge operations haftmann parents: 21646 diff changeset	411	fun same eq f x =
11715 592923615f77 Tuned several functions to improve sharing of unchanged subproofs. berghofe parents: 11652 diff changeset	412	let val x' = f x
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	413	in if eq (x, x') then raise Same.SAME else x' end;
11715 592923615f77 Tuned several functions to improve sharing of unchanged subproofs. berghofe parents: 11652 diff changeset	414
36620 e6bb250402b5 simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant; wenzelm parents: 36619 diff changeset	415	fun map_proof_terms f g = Same.commit (map_proof_terms_same (same (op =) f) (same (op =) g));
e6bb250402b5 simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant; wenzelm parents: 36619 diff changeset	416	fun map_proof_types f = Same.commit (map_proof_types_same (same (op =) f));
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	417
20147 7aa076a45cb4 fold_proof_terms: canonical arguments; wenzelm parents: 20071 diff changeset	418	fun fold_proof_terms f g (Abst (_, SOME T, prf)) = g T #> fold_proof_terms f g prf
7aa076a45cb4 fold_proof_terms: canonical arguments; wenzelm parents: 20071 diff changeset	419	\| fold_proof_terms f g (Abst (_, NONE, prf)) = fold_proof_terms f g prf
7aa076a45cb4 fold_proof_terms: canonical arguments; wenzelm parents: 20071 diff changeset	420	\| fold_proof_terms f g (AbsP (_, SOME t, prf)) = f t #> fold_proof_terms f g prf
7aa076a45cb4 fold_proof_terms: canonical arguments; wenzelm parents: 20071 diff changeset	421	\| fold_proof_terms f g (AbsP (_, NONE, prf)) = fold_proof_terms f g prf
7aa076a45cb4 fold_proof_terms: canonical arguments; wenzelm parents: 20071 diff changeset	422	\| fold_proof_terms f g (prf % SOME t) = fold_proof_terms f g prf #> f t
7aa076a45cb4 fold_proof_terms: canonical arguments; wenzelm parents: 20071 diff changeset	423	\| fold_proof_terms f g (prf % NONE) = fold_proof_terms f g prf
7aa076a45cb4 fold_proof_terms: canonical arguments; wenzelm parents: 20071 diff changeset	424	\| fold_proof_terms f g (prf1 %% prf2) =
7aa076a45cb4 fold_proof_terms: canonical arguments; wenzelm parents: 20071 diff changeset	425	fold_proof_terms f g prf1 #> fold_proof_terms f g prf2
20159 93a561cf000c tuned; wenzelm parents: 20147 diff changeset	426	\| fold_proof_terms _ g (PAxm (_, _, SOME Ts)) = fold g Ts
31943 5e960a0780a2 renamed inclass/Inclass to of_class/OfClass, in accordance to of_sort; wenzelm parents: 31903 diff changeset	427	\| fold_proof_terms _ g (OfClass (T, _)) = g T
28828 c25dd83a6f9f unified treatment of PAxm/Oracle/Promise in basic proof term operations; wenzelm parents: 28815 diff changeset	428	\| fold_proof_terms _ g (Oracle (_, _, SOME Ts)) = fold g Ts
c25dd83a6f9f unified treatment of PAxm/Oracle/Promise in basic proof term operations; wenzelm parents: 28815 diff changeset	429	\| fold_proof_terms _ g (Promise (_, _, Ts)) = fold g Ts
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	430	\| fold_proof_terms _ g (PThm (_, ((_, _, SOME Ts), _))) = fold g Ts
20147 7aa076a45cb4 fold_proof_terms: canonical arguments; wenzelm parents: 20071 diff changeset	431	\| fold_proof_terms _ _ _ = I;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	432
20300 963bf056e8f7 replaced maxidx_of_proof by maxidx_proof; wenzelm parents: 20159 diff changeset	433	fun maxidx_proof prf = fold_proof_terms Term.maxidx_term Term.maxidx_typ prf;
12868 cdf338ef5fad New function maxidx_of_proof. berghofe parents: 12497 diff changeset	434
13744 2241191a3c54 Added size_of_proof. berghofe parents: 13662 diff changeset	435	fun size_of_proof (Abst (_, _, prf)) = 1 + size_of_proof prf
13749 6844c38d74df size_of_proof no longer includes size_of_term berghofe parents: 13744 diff changeset	436	\| size_of_proof (AbsP (_, t, prf)) = 1 + size_of_proof prf
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	437	\| size_of_proof (prf % _) = 1 + size_of_proof prf
13744 2241191a3c54 Added size_of_proof. berghofe parents: 13662 diff changeset	438	\| size_of_proof (prf1 %% prf2) = size_of_proof prf1 + size_of_proof prf2
2241191a3c54 Added size_of_proof. berghofe parents: 13662 diff changeset	439	\| size_of_proof _ = 1;
2241191a3c54 Added size_of_proof. berghofe parents: 13662 diff changeset	440
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	441	fun change_type opTs (PAxm (name, prop, _)) = PAxm (name, prop, opTs)
31943 5e960a0780a2 renamed inclass/Inclass to of_class/OfClass, in accordance to of_sort; wenzelm parents: 31903 diff changeset	442	\| change_type (SOME [T]) (OfClass (_, c)) = OfClass (T, c)
12907 27e6d344d724 New function change_type for changing type assignments of theorems, berghofe parents: 12890 diff changeset	443	\| change_type opTs (Oracle (name, prop, _)) = Oracle (name, prop, opTs)
36879 201a4afd8533 raise Fail uniformly for proofterm errors, which appear to be rather low-level; wenzelm parents: 36878 diff changeset	444	\| change_type opTs (Promise _) = raise Fail "change_type: unexpected promise"
32057 371aacbbd6ef tuned; wenzelm parents: 32054 diff changeset	445	\| change_type opTs (PThm (i, ((name, prop, _), body))) =
371aacbbd6ef tuned; wenzelm parents: 32054 diff changeset	446	PThm (i, ((name, prop, opTs), body))
12907 27e6d344d724 New function change_type for changing type assignments of theorems, berghofe parents: 12890 diff changeset	447	\| change_type _ prf = prf;
27e6d344d724 New function change_type for changing type assignments of theorems, berghofe parents: 12890 diff changeset	448
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	449
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	450	(*** utilities ***)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	451
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	452	fun strip_abs (_::Ts) (Abs (_, _, t)) = strip_abs Ts t
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	453	\| strip_abs _ t = t;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	454
15570 8d8c70b41bab Move towards standard functions. skalberg parents: 15531 diff changeset	455	fun mk_abs Ts t = Library.foldl (fn (t', T) => Abs ("", T, t')) (t, Ts);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	456
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	457
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 20853 diff changeset	458	(*Abstraction of a proof term over its occurrences of v,
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	459	which must contain no loose bound variables.
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	460	The resulting proof term is ready to become the body of an Abst.*)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	461
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	462	fun prf_abstract_over v =
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	463	let
11715 592923615f77 Tuned several functions to improve sharing of unchanged subproofs. berghofe parents: 11652 diff changeset	464	fun abst' lev u = if v aconv u then Bound lev else
592923615f77 Tuned several functions to improve sharing of unchanged subproofs. berghofe parents: 11652 diff changeset	465	(case u of
592923615f77 Tuned several functions to improve sharing of unchanged subproofs. berghofe parents: 11652 diff changeset	466	Abs (a, T, t) => Abs (a, T, abst' (lev + 1) t)
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	467	\| f $ t => (abst' lev f $ absth' lev t handle Same.SAME => f $ abst' lev t)
827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	468	\| _ => raise Same.SAME)
827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	469	and absth' lev t = (abst' lev t handle Same.SAME => t);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	470
11715 592923615f77 Tuned several functions to improve sharing of unchanged subproofs. berghofe parents: 11652 diff changeset	471	fun abst lev (AbsP (a, t, prf)) =
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	472	(AbsP (a, Same.map_option (abst' lev) t, absth lev prf)
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	473	handle Same.SAME => AbsP (a, t, abst lev prf))
11715 592923615f77 Tuned several functions to improve sharing of unchanged subproofs. berghofe parents: 11652 diff changeset	474	\| abst lev (Abst (a, T, prf)) = Abst (a, T, abst (lev + 1) prf)
592923615f77 Tuned several functions to improve sharing of unchanged subproofs. berghofe parents: 11652 diff changeset	475	\| abst lev (prf1 %% prf2) = (abst lev prf1 %% absth lev prf2
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	476	handle Same.SAME => prf1 %% abst lev prf2)
15570 8d8c70b41bab Move towards standard functions. skalberg parents: 15531 diff changeset	477	\| abst lev (prf % t) = (abst lev prf % Option.map (absth' lev) t
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	478	handle Same.SAME => prf % Same.map_option (abst' lev) t)
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	479	\| abst _ _ = raise Same.SAME
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	480	and absth lev prf = (abst lev prf handle Same.SAME => prf);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	481
11715 592923615f77 Tuned several functions to improve sharing of unchanged subproofs. berghofe parents: 11652 diff changeset	482	in absth 0 end;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	483
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	484
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	485	(*increments a proof term's non-local bound variables
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	486	required when moving a proof term within abstractions
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	487	inc is increment for bound variables
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	488	lev is level at which a bound variable is considered 'loose'*)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	489
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	490	fun incr_bv' inct tlev t = incr_bv (inct, tlev, t);
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	491
11715 592923615f77 Tuned several functions to improve sharing of unchanged subproofs. berghofe parents: 11652 diff changeset	492	fun prf_incr_bv' incP inct Plev tlev (PBound i) =
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	493	if i >= Plev then PBound (i+incP) else raise Same.SAME
11715 592923615f77 Tuned several functions to improve sharing of unchanged subproofs. berghofe parents: 11652 diff changeset	494	\| prf_incr_bv' incP inct Plev tlev (AbsP (a, t, body)) =
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	495	(AbsP (a, Same.map_option (same (op =) (incr_bv' inct tlev)) t,
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	496	prf_incr_bv incP inct (Plev+1) tlev body) handle Same.SAME =>
11715 592923615f77 Tuned several functions to improve sharing of unchanged subproofs. berghofe parents: 11652 diff changeset	497	AbsP (a, t, prf_incr_bv' incP inct (Plev+1) tlev body))
592923615f77 Tuned several functions to improve sharing of unchanged subproofs. berghofe parents: 11652 diff changeset	498	\| prf_incr_bv' incP inct Plev tlev (Abst (a, T, body)) =
592923615f77 Tuned several functions to improve sharing of unchanged subproofs. berghofe parents: 11652 diff changeset	499	Abst (a, T, prf_incr_bv' incP inct Plev (tlev+1) body)
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 20853 diff changeset	500	\| prf_incr_bv' incP inct Plev tlev (prf %% prf') =
11715 592923615f77 Tuned several functions to improve sharing of unchanged subproofs. berghofe parents: 11652 diff changeset	501	(prf_incr_bv' incP inct Plev tlev prf %% prf_incr_bv incP inct Plev tlev prf'
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	502	handle Same.SAME => prf %% prf_incr_bv' incP inct Plev tlev prf')
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 20853 diff changeset	503	\| prf_incr_bv' incP inct Plev tlev (prf % t) =
15570 8d8c70b41bab Move towards standard functions. skalberg parents: 15531 diff changeset	504	(prf_incr_bv' incP inct Plev tlev prf % Option.map (incr_bv' inct tlev) t
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	505	handle Same.SAME => prf % Same.map_option (same (op =) (incr_bv' inct tlev)) t)
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	506	\| prf_incr_bv' _ _ _ _ _ = raise Same.SAME
11715 592923615f77 Tuned several functions to improve sharing of unchanged subproofs. berghofe parents: 11652 diff changeset	507	and prf_incr_bv incP inct Plev tlev prf =
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	508	(prf_incr_bv' incP inct Plev tlev prf handle Same.SAME => prf);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	509
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	510	fun incr_pboundvars 0 0 prf = prf
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	511	\| incr_pboundvars incP inct prf = prf_incr_bv incP inct 0 0 prf;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	512
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	513
11615 ca7be12b2cbc - Exchanged % and %%. berghofe parents: 11543 diff changeset	514	fun prf_loose_bvar1 (prf1 %% prf2) k = prf_loose_bvar1 prf1 k orelse prf_loose_bvar1 prf2 k
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	515	\| prf_loose_bvar1 (prf % SOME t) k = prf_loose_bvar1 prf k orelse loose_bvar1 (t, k)
08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	516	\| prf_loose_bvar1 (_ % NONE) _ = true
08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	517	\| prf_loose_bvar1 (AbsP (_, SOME t, prf)) k = loose_bvar1 (t, k) orelse prf_loose_bvar1 prf k
08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	518	\| prf_loose_bvar1 (AbsP (_, NONE, _)) k = true
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	519	\| prf_loose_bvar1 (Abst (_, _, prf)) k = prf_loose_bvar1 prf (k+1)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	520	\| prf_loose_bvar1 _ _ = false;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	521
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	522	fun prf_loose_Pbvar1 (PBound i) k = i = k
11615 ca7be12b2cbc - Exchanged % and %%. berghofe parents: 11543 diff changeset	523	\| prf_loose_Pbvar1 (prf1 %% prf2) k = prf_loose_Pbvar1 prf1 k orelse prf_loose_Pbvar1 prf2 k
ca7be12b2cbc - Exchanged % and %%. berghofe parents: 11543 diff changeset	524	\| prf_loose_Pbvar1 (prf % _) k = prf_loose_Pbvar1 prf k
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	525	\| prf_loose_Pbvar1 (AbsP (_, _, prf)) k = prf_loose_Pbvar1 prf (k+1)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	526	\| prf_loose_Pbvar1 (Abst (_, _, prf)) k = prf_loose_Pbvar1 prf k
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	527	\| prf_loose_Pbvar1 _ _ = false;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	528
12279 dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	529	fun prf_add_loose_bnos plev tlev (PBound i) (is, js) =
17492 714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	530	if i < plev then (is, js) else (insert (op =) (i-plev) is, js)
12279 dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	531	\| prf_add_loose_bnos plev tlev (prf1 %% prf2) p =
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	532	prf_add_loose_bnos plev tlev prf2
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	533	(prf_add_loose_bnos plev tlev prf1 p)
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	534	\| prf_add_loose_bnos plev tlev (prf % opt) (is, js) =
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	535	prf_add_loose_bnos plev tlev prf (case opt of
17492 714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	536	NONE => (is, insert (op =) ~1 js)
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	537	\| SOME t => (is, add_loose_bnos (t, tlev, js)))
12279 dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	538	\| prf_add_loose_bnos plev tlev (AbsP (_, opt, prf)) (is, js) =
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	539	prf_add_loose_bnos (plev+1) tlev prf (case opt of
17492 714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	540	NONE => (is, insert (op =) ~1 js)
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	541	\| SOME t => (is, add_loose_bnos (t, tlev, js)))
12279 dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	542	\| prf_add_loose_bnos plev tlev (Abst (_, _, prf)) p =
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	543	prf_add_loose_bnos plev (tlev+1) prf p
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	544	\| prf_add_loose_bnos _ _ _ _ = ([], []);
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	545
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	546
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	547	(** substitutions **)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	548
31977 e03059ae2d82 renamed structure TermSubst to Term_Subst; wenzelm parents: 31943 diff changeset	549	fun del_conflicting_tvars envT T = Term_Subst.instantiateT
19482 9f11af8f7ef9 tuned basic list operators (flat, maps, map_filter); wenzelm parents: 19357 diff changeset	550	(map_filter (fn ixnS as (_, S) =>
26328 b2d6f520172c Type.lookup now curried haftmann parents: 23780 diff changeset	551	(Type.lookup envT ixnS; NONE) handle TYPE _ =>
44118 69e29cf993c0 avoid OldTerm operations -- with subtle changes of semantics; wenzelm parents: 44116 diff changeset	552	SOME (ixnS, TFree ("'dummy", S))) (Term.add_tvarsT T [])) T;
18316 4b62e0cb3aa8 Improved norm_proof to handle proofs containing term (type) variables berghofe parents: 18030 diff changeset	553
31977 e03059ae2d82 renamed structure TermSubst to Term_Subst; wenzelm parents: 31943 diff changeset	554	fun del_conflicting_vars env t = Term_Subst.instantiate
19482 9f11af8f7ef9 tuned basic list operators (flat, maps, map_filter); wenzelm parents: 19357 diff changeset	555	(map_filter (fn ixnS as (_, S) =>
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	556	(Type.lookup (Envir.type_env env) ixnS; NONE) handle TYPE _ =>
44118 69e29cf993c0 avoid OldTerm operations -- with subtle changes of semantics; wenzelm parents: 44116 diff changeset	557	SOME (ixnS, TFree ("'dummy", S))) (Term.add_tvars t []),
69e29cf993c0 avoid OldTerm operations -- with subtle changes of semantics; wenzelm parents: 44116 diff changeset	558	map_filter (fn (ixnT as (_, T)) =>
51700 c8f2bad67dbb tuned signature; wenzelm parents: 51100 diff changeset	559	(Envir.lookup env ixnT; NONE) handle TYPE _ =>
44118 69e29cf993c0 avoid OldTerm operations -- with subtle changes of semantics; wenzelm parents: 44116 diff changeset	560	SOME (ixnT, Free ("dummy", T))) (Term.add_vars t [])) t;
18316 4b62e0cb3aa8 Improved norm_proof to handle proofs containing term (type) variables berghofe parents: 18030 diff changeset	561
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	562	fun norm_proof env =
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	563	let
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	564	val envT = Envir.type_env env;
18316 4b62e0cb3aa8 Improved norm_proof to handle proofs containing term (type) variables berghofe parents: 18030 diff changeset	565	fun msg s = warning ("type conflict in norm_proof:\n" ^ s);
4b62e0cb3aa8 Improved norm_proof to handle proofs containing term (type) variables berghofe parents: 18030 diff changeset	566	fun htype f t = f env t handle TYPE (s, _, _) =>
4b62e0cb3aa8 Improved norm_proof to handle proofs containing term (type) variables berghofe parents: 18030 diff changeset	567	(msg s; f env (del_conflicting_vars env t));
4b62e0cb3aa8 Improved norm_proof to handle proofs containing term (type) variables berghofe parents: 18030 diff changeset	568	fun htypeT f T = f envT T handle TYPE (s, _, _) =>
4b62e0cb3aa8 Improved norm_proof to handle proofs containing term (type) variables berghofe parents: 18030 diff changeset	569	(msg s; f envT (del_conflicting_tvars envT T));
4b62e0cb3aa8 Improved norm_proof to handle proofs containing term (type) variables berghofe parents: 18030 diff changeset	570	fun htypeTs f Ts = f envT Ts handle TYPE (s, _, _) =>
4b62e0cb3aa8 Improved norm_proof to handle proofs containing term (type) variables berghofe parents: 18030 diff changeset	571	(msg s; f envT (map (del_conflicting_tvars envT) Ts));
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	572
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	573	fun norm (Abst (s, T, prf)) =
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	574	(Abst (s, Same.map_option (htypeT Envir.norm_type_same) T, Same.commit norm prf)
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	575	handle Same.SAME => Abst (s, T, norm prf))
827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	576	\| norm (AbsP (s, t, prf)) =
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	577	(AbsP (s, Same.map_option (htype Envir.norm_term_same) t, Same.commit norm prf)
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	578	handle Same.SAME => AbsP (s, t, norm prf))
827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	579	\| norm (prf % t) =
827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	580	(norm prf % Option.map (htype Envir.norm_term) t
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	581	handle Same.SAME => prf % Same.map_option (htype Envir.norm_term_same) t)
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	582	\| norm (prf1 %% prf2) =
827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	583	(norm prf1 %% Same.commit norm prf2
827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	584	handle Same.SAME => prf1 %% norm prf2)
827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	585	\| norm (PAxm (s, prop, Ts)) =
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	586	PAxm (s, prop, Same.map_option (htypeTs Envir.norm_types_same) Ts)
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	587	\| norm (OfClass (T, c)) =
827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	588	OfClass (htypeT Envir.norm_type_same T, c)
827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	589	\| norm (Oracle (s, prop, Ts)) =
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	590	Oracle (s, prop, Same.map_option (htypeTs Envir.norm_types_same) Ts)
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	591	\| norm (Promise (i, prop, Ts)) =
827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	592	Promise (i, prop, htypeTs Envir.norm_types_same Ts)
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	593	\| norm (PThm (i, ((s, t, Ts), body))) =
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	594	PThm (i, ((s, t, Same.map_option (htypeTs Envir.norm_types_same) Ts), body))
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	595	\| norm _ = raise Same.SAME;
827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	596	in Same.commit norm end;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	597
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	598
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	599	(*** Remove some types in proof term (to save space) ***)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	600
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	601	fun remove_types (Abs (s, _, t)) = Abs (s, dummyT, remove_types t)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	602	\| remove_types (t $ u) = remove_types t $ remove_types u
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	603	\| remove_types (Const (s, _)) = Const (s, dummyT)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	604	\| remove_types t = t;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	605
32032 a6a6e8031c14 tuned/modernized Envir operations; wenzelm parents: 32027 diff changeset	606	fun remove_types_env (Envir.Envir {maxidx, tenv, tyenv}) =
39020 ac0f24f850c9 replaced Table.map' by Table.map haftmann parents: 37297 diff changeset	607	Envir.Envir {maxidx = maxidx, tenv = Vartab.map (K (apsnd remove_types)) tenv, tyenv = tyenv};
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	608
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	609	fun norm_proof' env prf = norm_proof (remove_types_env env) prf;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	610
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	611
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	612	(** substitution of bound variables **)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	613
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	614	fun prf_subst_bounds args prf =
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	615	let
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	616	val n = length args;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	617	fun subst' lev (Bound i) =
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	618	(if i<lev then raise Same.SAME (var is locally bound)
30146 a77fc0209723 eliminated NJ's List.nth; wenzelm parents: 29642 diff changeset	619	else incr_boundvars lev (nth args (i-lev))
43278 1fbdcebb364b more robust exception pattern General.Subscript; wenzelm parents: 41699 diff changeset	620	handle General.Subscript => Bound (i-n)) (loose: change it)
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	621	\| subst' lev (Abs (a, T, body)) = Abs (a, T, subst' (lev+1) body)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	622	\| subst' lev (f $ t) = (subst' lev f $ substh' lev t
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	623	handle Same.SAME => f $ subst' lev t)
827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	624	\| subst' _ _ = raise Same.SAME
827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	625	and substh' lev t = (subst' lev t handle Same.SAME => t);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	626
32057 371aacbbd6ef tuned; wenzelm parents: 32054 diff changeset	627	fun subst lev (AbsP (a, t, body)) =
371aacbbd6ef tuned; wenzelm parents: 32054 diff changeset	628	(AbsP (a, Same.map_option (subst' lev) t, substh lev body)
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	629	handle Same.SAME => AbsP (a, t, subst lev body))
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	630	\| subst lev (Abst (a, T, body)) = Abst (a, T, subst (lev+1) body)
11615 ca7be12b2cbc - Exchanged % and %%. berghofe parents: 11543 diff changeset	631	\| subst lev (prf %% prf') = (subst lev prf %% substh lev prf'
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	632	handle Same.SAME => prf %% subst lev prf')
15570 8d8c70b41bab Move towards standard functions. skalberg parents: 15531 diff changeset	633	\| subst lev (prf % t) = (subst lev prf % Option.map (substh' lev) t
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	634	handle Same.SAME => prf % Same.map_option (subst' lev) t)
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	635	\| subst _ _ = raise Same.SAME
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	636	and substh lev prf = (subst lev prf handle Same.SAME => prf);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	637	in case args of [] => prf \| _ => substh 0 prf end;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	638
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	639	fun prf_subst_pbounds args prf =
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	640	let
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	641	val n = length args;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	642	fun subst (PBound i) Plev tlev =
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	643	(if i < Plev then raise Same.SAME (var is locally bound)
30146 a77fc0209723 eliminated NJ's List.nth; wenzelm parents: 29642 diff changeset	644	else incr_pboundvars Plev tlev (nth args (i-Plev))
43278 1fbdcebb364b more robust exception pattern General.Subscript; wenzelm parents: 41699 diff changeset	645	handle General.Subscript => PBound (i-n) (loose: change it))
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	646	\| subst (AbsP (a, t, body)) Plev tlev = AbsP (a, t, subst body (Plev+1) tlev)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	647	\| subst (Abst (a, T, body)) Plev tlev = Abst (a, T, subst body Plev (tlev+1))
11615 ca7be12b2cbc - Exchanged % and %%. berghofe parents: 11543 diff changeset	648	\| subst (prf %% prf') Plev tlev = (subst prf Plev tlev %% substh prf' Plev tlev
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	649	handle Same.SAME => prf %% subst prf' Plev tlev)
11615 ca7be12b2cbc - Exchanged % and %%. berghofe parents: 11543 diff changeset	650	\| subst (prf % t) Plev tlev = subst prf Plev tlev % t
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	651	\| subst prf _ _ = raise Same.SAME
827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	652	and substh prf Plev tlev = (subst prf Plev tlev handle Same.SAME => prf)
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	653	in case args of [] => prf \| _ => substh prf 0 0 end;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	654
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	655
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	656	(** Freezing and thawing of variables in proof terms **)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	657
44101 202d2f56560c misc tuning and clarification; wenzelm parents: 44100 diff changeset	658	local
202d2f56560c misc tuning and clarification; wenzelm parents: 44100 diff changeset	659
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	660	fun frzT names =
44101 202d2f56560c misc tuning and clarification; wenzelm parents: 44100 diff changeset	661	map_type_tvar (fn (ixn, S) => TFree (the (AList.lookup (op =) names ixn), S));
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	662
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	663	fun thawT names =
44101 202d2f56560c misc tuning and clarification; wenzelm parents: 44100 diff changeset	664	map_type_tfree (fn (a, S) =>
202d2f56560c misc tuning and clarification; wenzelm parents: 44100 diff changeset	665	(case AList.lookup (op =) names a of
202d2f56560c misc tuning and clarification; wenzelm parents: 44100 diff changeset	666	NONE => TFree (a, S)
202d2f56560c misc tuning and clarification; wenzelm parents: 44100 diff changeset	667	\| SOME ixn => TVar (ixn, S)));
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	668
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	669	fun freeze names names' (t $ u) =
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	670	freeze names names' t $ freeze names names' u
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	671	\| freeze names names' (Abs (s, T, t)) =
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	672	Abs (s, frzT names' T, freeze names names' t)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	673	\| freeze names names' (Const (s, T)) = Const (s, frzT names' T)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	674	\| freeze names names' (Free (s, T)) = Free (s, frzT names' T)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	675	\| freeze names names' (Var (ixn, T)) =
44101 202d2f56560c misc tuning and clarification; wenzelm parents: 44100 diff changeset	676	Free (the (AList.lookup (op =) names ixn), frzT names' T)
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	677	\| freeze names names' t = t;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	678
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	679	fun thaw names names' (t $ u) =
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	680	thaw names names' t $ thaw names names' u
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	681	\| thaw names names' (Abs (s, T, t)) =
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	682	Abs (s, thawT names' T, thaw names names' t)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	683	\| thaw names names' (Const (s, T)) = Const (s, thawT names' T)
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 20853 diff changeset	684	\| thaw names names' (Free (s, T)) =
44101 202d2f56560c misc tuning and clarification; wenzelm parents: 44100 diff changeset	685	let val T' = thawT names' T in
202d2f56560c misc tuning and clarification; wenzelm parents: 44100 diff changeset	686	(case AList.lookup (op =) names s of
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	687	NONE => Free (s, T')
44101 202d2f56560c misc tuning and clarification; wenzelm parents: 44100 diff changeset	688	\| SOME ixn => Var (ixn, T'))
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	689	end
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	690	\| thaw names names' (Var (ixn, T)) = Var (ixn, thawT names' T)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	691	\| thaw names names' t = t;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	692
44101 202d2f56560c misc tuning and clarification; wenzelm parents: 44100 diff changeset	693	in
202d2f56560c misc tuning and clarification; wenzelm parents: 44100 diff changeset	694
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	695	fun freeze_thaw_prf prf =
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	696	let
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	697	val (fs, Tfs, vs, Tvs) = fold_proof_terms
20147 7aa076a45cb4 fold_proof_terms: canonical arguments; wenzelm parents: 20071 diff changeset	698	(fn t => fn (fs, Tfs, vs, Tvs) =>
29261 7ee78cc8ef2c freeze_thaw: canonical Term.add_XXX operations; wenzelm parents: 28971 diff changeset	699	(Term.add_free_names t fs, Term.add_tfree_names t Tfs,
7ee78cc8ef2c freeze_thaw: canonical Term.add_XXX operations; wenzelm parents: 28971 diff changeset	700	Term.add_var_names t vs, Term.add_tvar_names t Tvs))
20147 7aa076a45cb4 fold_proof_terms: canonical arguments; wenzelm parents: 20071 diff changeset	701	(fn T => fn (fs, Tfs, vs, Tvs) =>
29261 7ee78cc8ef2c freeze_thaw: canonical Term.add_XXX operations; wenzelm parents: 28971 diff changeset	702	(fs, Term.add_tfree_namesT T Tfs,
7ee78cc8ef2c freeze_thaw: canonical Term.add_XXX operations; wenzelm parents: 28971 diff changeset	703	vs, Term.add_tvar_namesT T Tvs))
20147 7aa076a45cb4 fold_proof_terms: canonical arguments; wenzelm parents: 20071 diff changeset	704	prf ([], [], [], []);
29261 7ee78cc8ef2c freeze_thaw: canonical Term.add_XXX operations; wenzelm parents: 28971 diff changeset	705	val names = vs ~~ Name.variant_list fs (map fst vs);
20071 8f3e1ddb50e6 replaced Term.variant(list) by Name.variant(_list); wenzelm parents: 20000 diff changeset	706	val names' = Tvs ~~ Name.variant_list Tfs (map fst Tvs);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	707	val rnames = map swap names;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	708	val rnames' = map swap names';
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	709	in
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	710	(map_proof_terms (freeze names names') (frzT names') prf,
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	711	map_proof_terms (thaw rnames rnames') (thawT rnames'))
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	712	end;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	713
44101 202d2f56560c misc tuning and clarification; wenzelm parents: 44100 diff changeset	714	end;
202d2f56560c misc tuning and clarification; wenzelm parents: 44100 diff changeset	715
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	716
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	717	(*** implication introduction ***)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	718
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	719	fun gen_implies_intr_proof f h prf =
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	720	let
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	721	fun abshyp i (Hyp t) = if h aconv t then PBound i else raise Same.SAME
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	722	\| abshyp i (Abst (s, T, prf)) = Abst (s, T, abshyp i prf)
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	723	\| abshyp i (AbsP (s, t, prf)) = AbsP (s, t, abshyp (i + 1) prf)
11615 ca7be12b2cbc - Exchanged % and %%. berghofe parents: 11543 diff changeset	724	\| abshyp i (prf % t) = abshyp i prf % t
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	725	\| abshyp i (prf1 %% prf2) =
a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	726	(abshyp i prf1 %% abshyph i prf2
a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	727	handle Same.SAME => prf1 %% abshyp i prf2)
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	728	\| abshyp _ _ = raise Same.SAME
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	729	and abshyph i prf = (abshyp i prf handle Same.SAME => prf);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	730	in
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	731	AbsP ("H", f h, abshyph 0 prf)
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	732	end;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	733
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	734	val implies_intr_proof = gen_implies_intr_proof (K NONE);
e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	735	val implies_intr_proof' = gen_implies_intr_proof SOME;
e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	736
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	737
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	738	(*** forall introduction ***)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	739
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	740	fun forall_intr_proof x a prf = Abst (a, NONE, prf_abstract_over x prf);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	741
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	742	fun forall_intr_proof' t prf =
e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	743	let val (a, T) = (case t of Var ((a, _), T) => (a, T) \| Free p => p)
e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	744	in Abst (a, SOME T, prf_abstract_over t prf) end;
e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	745
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	746
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	747	(*** varify ***)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	748
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	749	fun varify_proof t fixed prf =
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	750	let
19304 15f001295a7b remove (op =); wenzelm parents: 19222 diff changeset	751	val fs = Term.fold_types (Term.fold_atyps
15f001295a7b remove (op =); wenzelm parents: 19222 diff changeset	752	(fn TFree v => if member (op =) fixed v then I else insert (op =) v \| _ => I)) t [];
29261 7ee78cc8ef2c freeze_thaw: canonical Term.add_XXX operations; wenzelm parents: 28971 diff changeset	753	val used = Name.context
7ee78cc8ef2c freeze_thaw: canonical Term.add_XXX operations; wenzelm parents: 28971 diff changeset	754	\|> fold_types (fold_atyps (fn TVar ((a, _), _) => Name.declare a \| _ => I)) t;
43326 47cf4bc789aa simplified Name.variant -- discontinued builtin fold_map; wenzelm parents: 43324 diff changeset	755	val fmap = fs ~~ #1 (fold_map Name.variant (map fst fs) used);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	756	fun thaw (f as (a, S)) =
17314 04e21a27c0ad introduces some modern-style AList operations haftmann parents: 17221 diff changeset	757	(case AList.lookup (op =) fmap f of
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	758	NONE => TFree f
08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	759	\| SOME b => TVar ((b, 0), S));
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	760	in map_proof_terms (map_types (map_type_tfree thaw)) (map_type_tfree thaw) prf end;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	761
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	762
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	763	local
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	764
44116 c70257b4cb7e avoid OldTerm operations -- with subtle changes of semantics; wenzelm parents: 44113 diff changeset	765	fun new_name ix (pairs, used) =
43324 2b47822868e4 discontinued Name.variant to emphasize that this is old-style / indirect; wenzelm parents: 43278 diff changeset	766	let val v = singleton (Name.variant_list used) (string_of_indexname ix)
44116 c70257b4cb7e avoid OldTerm operations -- with subtle changes of semantics; wenzelm parents: 44113 diff changeset	767	in ((ix, v) :: pairs, v :: used) end;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	768
44116 c70257b4cb7e avoid OldTerm operations -- with subtle changes of semantics; wenzelm parents: 44113 diff changeset	769	fun freeze_one alist (ix, sort) =
c70257b4cb7e avoid OldTerm operations -- with subtle changes of semantics; wenzelm parents: 44113 diff changeset	770	(case AList.lookup (op =) alist ix of
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	771	NONE => TVar (ix, sort)
08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	772	\| SOME name => TFree (name, sort));
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	773
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	774	in
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	775
36619 deadcd0ec431 renamed Proofterm.freezeT to Proofterm.legacy_freezeT (cf. 88756a5a92fc); wenzelm parents: 35851 diff changeset	776	fun legacy_freezeT t prf =
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	777	let
44116 c70257b4cb7e avoid OldTerm operations -- with subtle changes of semantics; wenzelm parents: 44113 diff changeset	778	val used = Term.add_tfree_names t [];
c70257b4cb7e avoid OldTerm operations -- with subtle changes of semantics; wenzelm parents: 44113 diff changeset	779	val (alist, _) = fold_rev new_name (map #1 (Term.add_tvars t [])) ([], used);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	780	in
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	781	(case alist of
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	782	[] => prf (nothing to do!)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	783	\| _ =>
44116 c70257b4cb7e avoid OldTerm operations -- with subtle changes of semantics; wenzelm parents: 44113 diff changeset	784	let val frzT = map_type_tvar (freeze_one alist)
c70257b4cb7e avoid OldTerm operations -- with subtle changes of semantics; wenzelm parents: 44113 diff changeset	785	in map_proof_terms (map_types frzT) frzT prf end)
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	786	end;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	787
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	788	end;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	789
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	790
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	791	(*** rotate assumptions ***)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	792
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	793	fun rotate_proof Bs Bi m prf =
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	794	let
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	795	val params = Term.strip_all_vars Bi;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	796	val asms = Logic.strip_imp_prems (Term.strip_all_body Bi);
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	797	val i = length asms;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	798	val j = length Bs;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	799	in
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	800	mk_AbsP (j+1, proof_combP (prf, map PBound
23178 07ba6b58b3d2 simplified/unified list fold; wenzelm parents: 22846 diff changeset	801	(j downto 1) @ [mk_Abst params (mk_AbsP (i,
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	802	proof_combP (proof_combt (PBound i, map Bound ((length params - 1) downto 0)),
23178 07ba6b58b3d2 simplified/unified list fold; wenzelm parents: 22846 diff changeset	803	map PBound (((i-m-1) downto 0) @ ((i-1) downto (i-m))))))]))
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	804	end;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	805
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	806
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	807	(*** permute premises ***)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	808
36742 6f8bbe9ca8a2 tuned signature; wenzelm parents: 36741 diff changeset	809	fun permute_prems_proof prems j k prf =
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	810	let val n = length prems
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	811	in mk_AbsP (n, proof_combP (prf,
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	812	map PBound ((n-1 downto n-j) @ (k-1 downto 0) @ (n-j-1 downto k))))
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	813	end;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	814
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	815
19908 f035261fb5b9 added generalize rule; wenzelm parents: 19502 diff changeset	816	(*** generalization ***)
f035261fb5b9 added generalize rule; wenzelm parents: 19502 diff changeset	817
20000 2fa767ab91aa added map_proof_terms_option; wenzelm parents: 19908 diff changeset	818	fun generalize (tfrees, frees) idx =
36620 e6bb250402b5 simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant; wenzelm parents: 36619 diff changeset	819	Same.commit (map_proof_terms_same
e6bb250402b5 simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant; wenzelm parents: 36619 diff changeset	820	(Term_Subst.generalize_same (tfrees, frees) idx)
e6bb250402b5 simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant; wenzelm parents: 36619 diff changeset	821	(Term_Subst.generalizeT_same tfrees idx));
19908 f035261fb5b9 added generalize rule; wenzelm parents: 19502 diff changeset	822
f035261fb5b9 added generalize rule; wenzelm parents: 19502 diff changeset	823
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	824	(*** instantiation ***)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	825
20000 2fa767ab91aa added map_proof_terms_option; wenzelm parents: 19908 diff changeset	826	fun instantiate (instT, inst) =
36620 e6bb250402b5 simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant; wenzelm parents: 36619 diff changeset	827	Same.commit (map_proof_terms_same
e6bb250402b5 simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant; wenzelm parents: 36619 diff changeset	828	(Term_Subst.instantiate_same (instT, map (apsnd remove_types) inst))
e6bb250402b5 simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant; wenzelm parents: 36619 diff changeset	829	(Term_Subst.instantiateT_same instT));
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	830
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	831
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	832	(*** lifting ***)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	833
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	834	fun lift_proof Bi inc prop prf =
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	835	let
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	836	fun lift'' Us Ts t =
59787 6e2a20486897 local fixes may depend on goal params; wenzelm parents: 59058 diff changeset	837	strip_abs Ts (Logic.incr_indexes ([], Us, inc) (mk_abs Ts t));
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	838
11715 592923615f77 Tuned several functions to improve sharing of unchanged subproofs. berghofe parents: 11652 diff changeset	839	fun lift' Us Ts (Abst (s, T, prf)) =
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	840	(Abst (s, Same.map_option (Logic.incr_tvar_same inc) T, lifth' Us (dummyT::Ts) prf)
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	841	handle Same.SAME => Abst (s, T, lift' Us (dummyT::Ts) prf))
11715 592923615f77 Tuned several functions to improve sharing of unchanged subproofs. berghofe parents: 11652 diff changeset	842	\| lift' Us Ts (AbsP (s, t, prf)) =
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	843	(AbsP (s, Same.map_option (same (op =) (lift'' Us Ts)) t, lifth' Us Ts prf)
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	844	handle Same.SAME => AbsP (s, t, lift' Us Ts prf))
15570 8d8c70b41bab Move towards standard functions. skalberg parents: 15531 diff changeset	845	\| lift' Us Ts (prf % t) = (lift' Us Ts prf % Option.map (lift'' Us Ts) t
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	846	handle Same.SAME => prf % Same.map_option (same (op =) (lift'' Us Ts)) t)
11715 592923615f77 Tuned several functions to improve sharing of unchanged subproofs. berghofe parents: 11652 diff changeset	847	\| lift' Us Ts (prf1 %% prf2) = (lift' Us Ts prf1 %% lifth' Us Ts prf2
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	848	handle Same.SAME => prf1 %% lift' Us Ts prf2)
11715 592923615f77 Tuned several functions to improve sharing of unchanged subproofs. berghofe parents: 11652 diff changeset	849	\| lift' _ _ (PAxm (s, prop, Ts)) =
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	850	PAxm (s, prop, (Same.map_option o Same.map) (Logic.incr_tvar_same inc) Ts)
31943 5e960a0780a2 renamed inclass/Inclass to of_class/OfClass, in accordance to of_sort; wenzelm parents: 31903 diff changeset	851	\| lift' _ _ (OfClass (T, c)) =
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	852	OfClass (Logic.incr_tvar_same inc T, c)
28828 c25dd83a6f9f unified treatment of PAxm/Oracle/Promise in basic proof term operations; wenzelm parents: 28815 diff changeset	853	\| lift' _ _ (Oracle (s, prop, Ts)) =
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	854	Oracle (s, prop, (Same.map_option o Same.map) (Logic.incr_tvar_same inc) Ts)
28828 c25dd83a6f9f unified treatment of PAxm/Oracle/Promise in basic proof term operations; wenzelm parents: 28815 diff changeset	855	\| lift' _ _ (Promise (i, prop, Ts)) =
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	856	Promise (i, prop, Same.map (Logic.incr_tvar_same inc) Ts)
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	857	\| lift' _ _ (PThm (i, ((s, prop, Ts), body))) =
32024 a5e7c8e60c85 tuned map_proof_terms_option; wenzelm parents: 32019 diff changeset	858	PThm (i, ((s, prop, (Same.map_option o Same.map) (Logic.incr_tvar inc) Ts), body))
32019 827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	859	\| lift' _ _ _ = raise Same.SAME
827a8ebb3b2c use structure Same; wenzelm parents: 31977 diff changeset	860	and lifth' Us Ts prf = (lift' Us Ts prf handle Same.SAME => prf);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	861
18030 5dadabde8fe4 Logic.lift_all; wenzelm parents: 17756 diff changeset	862	val ps = map (Logic.lift_all inc Bi) (Logic.strip_imp_prems prop);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	863	val k = length ps;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	864
23178 07ba6b58b3d2 simplified/unified list fold; wenzelm parents: 22846 diff changeset	865	fun mk_app b (i, j, prf) =
11615 ca7be12b2cbc - Exchanged % and %%. berghofe parents: 11543 diff changeset	866	if b then (i-1, j, prf %% PBound i) else (i, j-1, prf %> Bound j);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	867
56245 84fc7dfa3cd4 more qualified names; wenzelm parents: 52696 diff changeset	868	fun lift Us bs i j (Const ("Pure.imp", _) $ A $ B) =
20147 7aa076a45cb4 fold_proof_terms: canonical arguments; wenzelm parents: 20071 diff changeset	869	AbsP ("H", NONE (A), lift Us (true::bs) (i+1) j B)
56245 84fc7dfa3cd4 more qualified names; wenzelm parents: 52696 diff changeset	870	\| lift Us bs i j (Const ("Pure.all", _) $ Abs (a, T, t)) =
20147 7aa076a45cb4 fold_proof_terms: canonical arguments; wenzelm parents: 20071 diff changeset	871	Abst (a, NONE (T), lift (T::Us) (false::bs) i (j+1) t)
11715 592923615f77 Tuned several functions to improve sharing of unchanged subproofs. berghofe parents: 11652 diff changeset	872	\| lift Us bs i j _ = proof_combP (lifth' (rev Us) [] prf,
23178 07ba6b58b3d2 simplified/unified list fold; wenzelm parents: 22846 diff changeset	873	map (fn k => (#3 (fold_rev mk_app bs (i-1, j-1, PBound k))))
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	874	(i + k - 1 downto i));
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	875	in
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	876	mk_AbsP (k, lift [] [] 0 0 Bi)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	877	end;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	878
32027 9dd548810ed1 tuned incr_indexes; wenzelm parents: 32024 diff changeset	879	fun incr_indexes i =
36620 e6bb250402b5 simplified/unified fundamental operations on types/terms/proofterms -- prefer Same.operation over "option" variant; wenzelm parents: 36619 diff changeset	880	Same.commit (map_proof_terms_same
59787 6e2a20486897 local fixes may depend on goal params; wenzelm parents: 59058 diff changeset	881	(Logic.incr_indexes_same ([], [], i)) (Logic.incr_tvar_same i));
32027 9dd548810ed1 tuned incr_indexes; wenzelm parents: 32024 diff changeset	882
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	883
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	884	(*** proof by assumption ***)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	885
23296 25f28f9c28a3 Adapted Proofterm.bicompose_proof to Larry's changes in berghofe parents: 23178 diff changeset	886	fun mk_asm_prf t i m =
25f28f9c28a3 Adapted Proofterm.bicompose_proof to Larry's changes in berghofe parents: 23178 diff changeset	887	let
25f28f9c28a3 Adapted Proofterm.bicompose_proof to Larry's changes in berghofe parents: 23178 diff changeset	888	fun imp_prf _ i 0 = PBound i
56245 84fc7dfa3cd4 more qualified names; wenzelm parents: 52696 diff changeset	889	\| imp_prf (Const ("Pure.imp", _) $ A $ B) i m = AbsP ("H", NONE (A), imp_prf B (i+1) (m-1))
23296 25f28f9c28a3 Adapted Proofterm.bicompose_proof to Larry's changes in berghofe parents: 23178 diff changeset	890	\| imp_prf _ i _ = PBound i;
56245 84fc7dfa3cd4 more qualified names; wenzelm parents: 52696 diff changeset	891	fun all_prf (Const ("Pure.all", _) $ Abs (a, T, t)) = Abst (a, NONE (T), all_prf t)
23296 25f28f9c28a3 Adapted Proofterm.bicompose_proof to Larry's changes in berghofe parents: 23178 diff changeset	892	\| all_prf t = imp_prf t (~i) m
25f28f9c28a3 Adapted Proofterm.bicompose_proof to Larry's changes in berghofe parents: 23178 diff changeset	893	in all_prf t end;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	894
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	895	fun assumption_proof Bs Bi n prf =
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	896	mk_AbsP (length Bs, proof_combP (prf,
23296 25f28f9c28a3 Adapted Proofterm.bicompose_proof to Larry's changes in berghofe parents: 23178 diff changeset	897	map PBound (length Bs - 1 downto 0) @ [mk_asm_prf Bi n ~1]));
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	898
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	899
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	900	(*** Composition of object rule with proof state ***)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	901
56245 84fc7dfa3cd4 more qualified names; wenzelm parents: 52696 diff changeset	902	fun flatten_params_proof i j n (Const ("Pure.imp", _) $ A $ B, k) =
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	903	AbsP ("H", NONE (A), flatten_params_proof (i+1) j n (B, k))
56245 84fc7dfa3cd4 more qualified names; wenzelm parents: 52696 diff changeset	904	\| flatten_params_proof i j n (Const ("Pure.all", _) $ Abs (a, T, t), k) =
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	905	Abst (a, NONE (T), flatten_params_proof i (j+1) n (t, k))
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	906	\| flatten_params_proof i j n (_, k) = proof_combP (proof_combt (PBound (k+i),
19304 15f001295a7b remove (op =); wenzelm parents: 19222 diff changeset	907	map Bound (j-1 downto 0)), map PBound (remove (op =) (i-n) (i-1 downto 0)));
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	908
23296 25f28f9c28a3 Adapted Proofterm.bicompose_proof to Larry's changes in berghofe parents: 23178 diff changeset	909	fun bicompose_proof flatten Bs oldAs newAs A n m rprf sprf =
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	910	let
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	911	val la = length newAs;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	912	val lb = length Bs;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	913	in
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	914	mk_AbsP (lb+la, proof_combP (sprf,
11615 ca7be12b2cbc - Exchanged % and %%. berghofe parents: 11543 diff changeset	915	map PBound (lb + la - 1 downto la)) %%
23296 25f28f9c28a3 Adapted Proofterm.bicompose_proof to Larry's changes in berghofe parents: 23178 diff changeset	916	proof_combP (rprf, (if n>0 then [mk_asm_prf (the A) n m] else []) @
18485 5959295f82d3 bicompose_proof: no_flatten; wenzelm parents: 18316 diff changeset	917	map (if flatten then flatten_params_proof 0 0 n else PBound o snd)
5959295f82d3 bicompose_proof: no_flatten; wenzelm parents: 18316 diff changeset	918	(oldAs ~~ (la - 1 downto 0))))
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	919	end;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	920
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	921
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	922	(*** axioms for equality ***)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	923
14854 61bdf2ae4dc5 removed obsolete sort 'logic'; wenzelm parents: 14787 diff changeset	924	val aT = TFree ("'a", []);
61bdf2ae4dc5 removed obsolete sort 'logic'; wenzelm parents: 14787 diff changeset	925	val bT = TFree ("'b", []);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	926	val x = Free ("x", aT);
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	927	val y = Free ("y", aT);
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	928	val z = Free ("z", aT);
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	929	val A = Free ("A", propT);
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	930	val B = Free ("B", propT);
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	931	val f = Free ("f", aT --> bT);
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	932	val g = Free ("g", aT --> bT);
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	933
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	934	val equality_axms =
35851 5c5f08f6d6e4 do not open ML structures; wenzelm parents: 35845 diff changeset	935	[("reflexive", Logic.mk_equals (x, x)),
5c5f08f6d6e4 do not open ML structures; wenzelm parents: 35845 diff changeset	936	("symmetric", Logic.mk_implies (Logic.mk_equals (x, y), Logic.mk_equals (y, x))),
5c5f08f6d6e4 do not open ML structures; wenzelm parents: 35845 diff changeset	937	("transitive",
5c5f08f6d6e4 do not open ML structures; wenzelm parents: 35845 diff changeset	938	Logic.list_implies ([Logic.mk_equals (x, y), Logic.mk_equals (y, z)], Logic.mk_equals (x, z))),
5c5f08f6d6e4 do not open ML structures; wenzelm parents: 35845 diff changeset	939	("equal_intr",
5c5f08f6d6e4 do not open ML structures; wenzelm parents: 35845 diff changeset	940	Logic.list_implies ([Logic.mk_implies (A, B), Logic.mk_implies (B, A)], Logic.mk_equals (A, B))),
5c5f08f6d6e4 do not open ML structures; wenzelm parents: 35845 diff changeset	941	("equal_elim", Logic.list_implies ([Logic.mk_equals (A, B), A], B)),
5c5f08f6d6e4 do not open ML structures; wenzelm parents: 35845 diff changeset	942	("abstract_rule",
5c5f08f6d6e4 do not open ML structures; wenzelm parents: 35845 diff changeset	943	Logic.mk_implies
5c5f08f6d6e4 do not open ML structures; wenzelm parents: 35845 diff changeset	944	(Logic.all x
5c5f08f6d6e4 do not open ML structures; wenzelm parents: 35845 diff changeset	945	(Logic.mk_equals (f $ x, g $ x)), Logic.mk_equals (lambda x (f $ x), lambda x (g $ x)))),
5c5f08f6d6e4 do not open ML structures; wenzelm parents: 35845 diff changeset	946	("combination", Logic.list_implies
5c5f08f6d6e4 do not open ML structures; wenzelm parents: 35845 diff changeset	947	([Logic.mk_equals (f, g), Logic.mk_equals (x, y)], Logic.mk_equals (f $ x, g $ y)))];
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	948
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	949	val [reflexive_axm, symmetric_axm, transitive_axm, equal_intr_axm,
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	950	equal_elim_axm, abstract_rule_axm, combination_axm] =
35851 5c5f08f6d6e4 do not open ML structures; wenzelm parents: 35845 diff changeset	951	map (fn (s, t) => PAxm ("Pure." ^ s, Logic.varify_global t, NONE)) equality_axms;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	952
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	953	val reflexive = reflexive_axm % NONE;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	954
26424 a6cad32a27b0 eliminated theory ProtoPure; wenzelm parents: 26328 diff changeset	955	fun symmetric (prf as PAxm ("Pure.reflexive", _, _) % _) = prf
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	956	\| symmetric prf = symmetric_axm % NONE % NONE %% prf;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	957
26424 a6cad32a27b0 eliminated theory ProtoPure; wenzelm parents: 26328 diff changeset	958	fun transitive _ _ (PAxm ("Pure.reflexive", _, _) % _) prf2 = prf2
a6cad32a27b0 eliminated theory ProtoPure; wenzelm parents: 26328 diff changeset	959	\| transitive _ _ prf1 (PAxm ("Pure.reflexive", _, _) % _) = prf1
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	960	\| transitive u (Type ("prop", [])) prf1 prf2 =
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	961	transitive_axm % NONE % SOME (remove_types u) % NONE %% prf1 %% prf2
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	962	\| transitive u T prf1 prf2 =
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	963	transitive_axm % NONE % NONE % NONE %% prf1 %% prf2;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	964
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	965	fun abstract_rule x a prf =
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	966	abstract_rule_axm % NONE % NONE %% forall_intr_proof x a prf;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	967
26424 a6cad32a27b0 eliminated theory ProtoPure; wenzelm parents: 26328 diff changeset	968	fun check_comb (PAxm ("Pure.combination", _, _) % f % g % _ % _ %% prf %% _) =
19502 369cde91963d tuned; wenzelm parents: 19482 diff changeset	969	is_some f orelse check_comb prf
26424 a6cad32a27b0 eliminated theory ProtoPure; wenzelm parents: 26328 diff changeset	970	\| check_comb (PAxm ("Pure.transitive", _, _) % _ % _ % _ %% prf1 %% prf2) =
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	971	check_comb prf1 andalso check_comb prf2
26424 a6cad32a27b0 eliminated theory ProtoPure; wenzelm parents: 26328 diff changeset	972	\| check_comb (PAxm ("Pure.symmetric", _, _) % _ % _ %% prf) = check_comb prf
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	973	\| check_comb _ = false;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	974
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	975	fun combination f g t u (Type (_, [T, U])) prf1 prf2 =
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	976	let
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	977	val f = Envir.beta_norm f;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	978	val g = Envir.beta_norm g;
44100 2cf62c4e6c7a tuned whitespace; wenzelm parents: 43795 diff changeset	979	val prf =
2cf62c4e6c7a tuned whitespace; wenzelm parents: 43795 diff changeset	980	if check_comb prf1 then
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	981	combination_axm % NONE % NONE
44100 2cf62c4e6c7a tuned whitespace; wenzelm parents: 43795 diff changeset	982	else
2cf62c4e6c7a tuned whitespace; wenzelm parents: 43795 diff changeset	983	(case prf1 of
26424 a6cad32a27b0 eliminated theory ProtoPure; wenzelm parents: 26328 diff changeset	984	PAxm ("Pure.reflexive", _, _) % _ =>
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	985	combination_axm %> remove_types f % NONE
11615 ca7be12b2cbc - Exchanged % and %%. berghofe parents: 11543 diff changeset	986	\| _ => combination_axm %> remove_types f %> remove_types g)
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	987	in
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	988	(case T of
44100 2cf62c4e6c7a tuned whitespace; wenzelm parents: 43795 diff changeset	989	Type ("fun", _) => prf %
2cf62c4e6c7a tuned whitespace; wenzelm parents: 43795 diff changeset	990	(case head_of f of
2cf62c4e6c7a tuned whitespace; wenzelm parents: 43795 diff changeset	991	Abs _ => SOME (remove_types t)
2cf62c4e6c7a tuned whitespace; wenzelm parents: 43795 diff changeset	992	\| Var _ => SOME (remove_types t)
2cf62c4e6c7a tuned whitespace; wenzelm parents: 43795 diff changeset	993	\| _ => NONE) %
2cf62c4e6c7a tuned whitespace; wenzelm parents: 43795 diff changeset	994	(case head_of g of
2cf62c4e6c7a tuned whitespace; wenzelm parents: 43795 diff changeset	995	Abs _ => SOME (remove_types u)
2cf62c4e6c7a tuned whitespace; wenzelm parents: 43795 diff changeset	996	\| Var _ => SOME (remove_types u)
2cf62c4e6c7a tuned whitespace; wenzelm parents: 43795 diff changeset	997	\| _ => NONE) %% prf1 %% prf2
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	998	\| _ => prf % NONE % NONE %% prf1 %% prf2)
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	999	end;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1000
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1001	fun equal_intr A B prf1 prf2 =
11615 ca7be12b2cbc - Exchanged % and %%. berghofe parents: 11543 diff changeset	1002	equal_intr_axm %> remove_types A %> remove_types B %% prf1 %% prf2;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1003
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1004	fun equal_elim A B prf1 prf2 =
11615 ca7be12b2cbc - Exchanged % and %%. berghofe parents: 11543 diff changeset	1005	equal_elim_axm %> remove_types A %> remove_types B %% prf1 %% prf2;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1006
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1007
36740 6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1008	(** type classes **)
36621 2fd4e2c76636 proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences: wenzelm parents: 36620 diff changeset	1009
2fd4e2c76636 proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences: wenzelm parents: 36620 diff changeset	1010	fun strip_shyps_proof algebra present witnessed extra_sorts prf =
2fd4e2c76636 proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences: wenzelm parents: 36620 diff changeset	1011	let
2fd4e2c76636 proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences: wenzelm parents: 36620 diff changeset	1012	fun get S2 (T, S1) = if Sorts.sort_le algebra (S1, S2) then SOME T else NONE;
36732 9c2ee10809b2 strip_shyps_proof: dummy TFrees are called "'dummy" as in del_conflicting_tvars below; wenzelm parents: 36621 diff changeset	1013	val extra = map (fn S => (TFree ("'dummy", S), S)) extra_sorts;
36621 2fd4e2c76636 proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences: wenzelm parents: 36620 diff changeset	1014	val replacements = present @ extra @ witnessed;
2fd4e2c76636 proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences: wenzelm parents: 36620 diff changeset	1015	fun replace T =
2fd4e2c76636 proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences: wenzelm parents: 36620 diff changeset	1016	if exists (fn (T', _) => T' = T) present then raise Same.SAME
2fd4e2c76636 proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences: wenzelm parents: 36620 diff changeset	1017	else
2fd4e2c76636 proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences: wenzelm parents: 36620 diff changeset	1018	(case get_first (get (Type.sort_of_atyp T)) replacements of
2fd4e2c76636 proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences: wenzelm parents: 36620 diff changeset	1019	SOME T' => T'
2fd4e2c76636 proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences: wenzelm parents: 36620 diff changeset	1020	\| NONE => raise Fail "strip_shyps_proof: bad type variable in proof term");
2fd4e2c76636 proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences: wenzelm parents: 36620 diff changeset	1021	in Same.commit (map_proof_types_same (Term_Subst.map_atypsT_same replace)) prf end;
2fd4e2c76636 proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences: wenzelm parents: 36620 diff changeset	1022
2fd4e2c76636 proof terms for strip_shyps, based on the version by krauss/schropp with some notable differences: wenzelm parents: 36620 diff changeset	1023
36740 6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1024	local
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1025
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1026	type axclass_proofs =
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1027	{classrel_proof: theory -> class * class -> proof,
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1028	arity_proof: theory -> string * sort list * class -> proof};
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1029
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1030	val axclass_proofs: axclass_proofs Single_Assignment.var =
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1031	Single_Assignment.var "Proofterm.axclass_proofs";
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1032
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1033	fun axclass_proof which thy x =
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1034	(case Single_Assignment.peek axclass_proofs of
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1035	NONE => raise Fail "Axclass proof operations not installed"
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1036	\| SOME prfs => which prfs thy x);
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1037
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1038	in
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1039
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1040	val classrel_proof = axclass_proof #classrel_proof;
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1041	val arity_proof = axclass_proof #arity_proof;
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1042
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1043	fun install_axclass_proofs prfs = Single_Assignment.assign axclass_proofs prfs;
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1044
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1045	end;
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1046
6248aa22c694 back-patching of axclass proofs; wenzelm parents: 36732 diff changeset	1047
36741 d65ed9d7275e added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance; wenzelm parents: 36740 diff changeset	1048	local
d65ed9d7275e added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance; wenzelm parents: 36740 diff changeset	1049
d65ed9d7275e added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance; wenzelm parents: 36740 diff changeset	1050	fun canonical_instance typs =
d65ed9d7275e added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance; wenzelm parents: 36740 diff changeset	1051	let
43329 84472e198515 tuned signature: Name.invent and Name.invent_names; wenzelm parents: 43326 diff changeset	1052	val names = Name.invent Name.context Name.aT (length typs);
36741 d65ed9d7275e added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance; wenzelm parents: 36740 diff changeset	1053	val instT = map2 (fn a => fn T => (((a, 0), []), Type.strip_sorts T)) names typs;
d65ed9d7275e added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance; wenzelm parents: 36740 diff changeset	1054	in instantiate (instT, []) end;
d65ed9d7275e added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance; wenzelm parents: 36740 diff changeset	1055
d65ed9d7275e added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance; wenzelm parents: 36740 diff changeset	1056	in
d65ed9d7275e added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance; wenzelm parents: 36740 diff changeset	1057
d65ed9d7275e added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance; wenzelm parents: 36740 diff changeset	1058	fun of_sort_proof thy hyps =
d65ed9d7275e added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance; wenzelm parents: 36740 diff changeset	1059	Sorts.of_sort_derivation (Sign.classes_of thy)
d65ed9d7275e added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance; wenzelm parents: 36740 diff changeset	1060	{class_relation = fn typ => fn (prf, c1) => fn c2 =>
d65ed9d7275e added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance; wenzelm parents: 36740 diff changeset	1061	if c1 = c2 then prf
d65ed9d7275e added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance; wenzelm parents: 36740 diff changeset	1062	else canonical_instance [typ] (classrel_proof thy (c1, c2)) %% prf,
d65ed9d7275e added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance; wenzelm parents: 36740 diff changeset	1063	type_constructor = fn (a, typs) => fn dom => fn c =>
d65ed9d7275e added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance; wenzelm parents: 36740 diff changeset	1064	let val Ss = map (map snd) dom and prfs = maps (map fst) dom
d65ed9d7275e added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance; wenzelm parents: 36740 diff changeset	1065	in proof_combP (canonical_instance typs (arity_proof thy (a, Ss, c)), prfs) end,
d65ed9d7275e added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance; wenzelm parents: 36740 diff changeset	1066	type_variable = fn typ => map (fn c => (hyps (typ, c), c)) (Type.sort_of_atyp typ)};
d65ed9d7275e added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance; wenzelm parents: 36740 diff changeset	1067
d65ed9d7275e added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance; wenzelm parents: 36740 diff changeset	1068	end;
d65ed9d7275e added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance; wenzelm parents: 36740 diff changeset	1069
d65ed9d7275e added of_sort_proof according to krauss/schropp, with slightly more direct canonical_instance; wenzelm parents: 36740 diff changeset	1070
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1071	(*** axioms and theorems ***)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1072
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1073	val proofs = Unsynchronized.ref 2;
48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1074	fun proofs_enabled () = ! proofs >= 2;
48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1075
28812 413695e07bd4 Frees in PThms are now quantified in the order of their appearance in the berghofe parents: 28803 diff changeset	1076	fun vars_of t = map Var (rev (Term.add_vars t []));
413695e07bd4 Frees in PThms are now quantified in the order of their appearance in the berghofe parents: 28803 diff changeset	1077	fun frees_of t = map Free (rev (Term.add_frees t []));
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1078
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1079	fun test_args _ [] = true
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1080	\| test_args is (Bound i :: ts) =
17492 714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1081	not (member (op =) is i) andalso test_args (i :: is) ts
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1082	\| test_args _ _ = false;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1083
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1084	fun is_fun (Type ("fun", _)) = true
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1085	\| is_fun (TVar _) = true
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1086	\| is_fun _ = false;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1087
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1088	fun add_funvars Ts (vs, t) =
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1089	if is_fun (fastype_of1 (Ts, t)) then
33042 ddf1f03a9ad9 curried union as canonical list operation haftmann parents: 33038 diff changeset	1090	union (op =) vs (map_filter (fn Var (ixn, T) =>
33037 b22e44496dc2 replaced old_style infixes eq_set, subset, union, inter and variants by generic versions haftmann parents: 32810 diff changeset	1091	if is_fun T then SOME ixn else NONE \| _ => NONE) (vars_of t))
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1092	else vs;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1093
56245 84fc7dfa3cd4 more qualified names; wenzelm parents: 52696 diff changeset	1094	fun add_npvars q p Ts (vs, Const ("Pure.imp", _) $ t $ u) =
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1095	add_npvars q p Ts (add_npvars q (not p) Ts (vs, t), u)
56245 84fc7dfa3cd4 more qualified names; wenzelm parents: 52696 diff changeset	1096	\| add_npvars q p Ts (vs, Const ("Pure.all", Type (_, [Type (_, [T, _]), _])) $ t) =
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1097	add_npvars q p Ts (vs, if p andalso q then betapply (t, Var (("",0), T)) else t)
12041 27214c16ebe4 Fixed bug in function add_npvars. berghofe parents: 11999 diff changeset	1098	\| add_npvars q p Ts (vs, Abs (_, T, t)) = add_npvars q p (T::Ts) (vs, t)
27214c16ebe4 Fixed bug in function add_npvars. berghofe parents: 11999 diff changeset	1099	\| add_npvars _ _ Ts (vs, t) = add_npvars' Ts (vs, t)
27214c16ebe4 Fixed bug in function add_npvars. berghofe parents: 11999 diff changeset	1100	and add_npvars' Ts (vs, t) = (case strip_comb t of
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1101	(Var (ixn, _), ts) => if test_args [] ts then vs
17314 04e21a27c0ad introduces some modern-style AList operations haftmann parents: 17221 diff changeset	1102	else Library.foldl (add_npvars' Ts)
04e21a27c0ad introduces some modern-style AList operations haftmann parents: 17221 diff changeset	1103	(AList.update (op =) (ixn,
04e21a27c0ad introduces some modern-style AList operations haftmann parents: 17221 diff changeset	1104	Library.foldl (add_funvars Ts) ((these ooo AList.lookup) (op =) vs ixn, ts)) vs, ts)
15570 8d8c70b41bab Move towards standard functions. skalberg parents: 15531 diff changeset	1105	\| (Abs (_, T, u), ts) => Library.foldl (add_npvars' (T::Ts)) (vs, u :: ts)
8d8c70b41bab Move towards standard functions. skalberg parents: 15531 diff changeset	1106	\| (_, ts) => Library.foldl (add_npvars' Ts) (vs, ts));
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1107
56245 84fc7dfa3cd4 more qualified names; wenzelm parents: 52696 diff changeset	1108	fun prop_vars (Const ("Pure.imp", _) $ P $ Q) = union (op =) (prop_vars P) (prop_vars Q)
84fc7dfa3cd4 more qualified names; wenzelm parents: 52696 diff changeset	1109	\| prop_vars (Const ("Pure.all", _) $ Abs (_, _, t)) = prop_vars t
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1110	\| prop_vars t = (case strip_comb t of
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1111	(Var (ixn, _), _) => [ixn] \| _ => []);
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1112
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1113	fun is_proj t =
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1114	let
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1115	fun is_p i t = (case strip_comb t of
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1116	(Bound j, []) => false
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1117	\| (Bound j, ts) => j >= i orelse exists (is_p i) ts
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1118	\| (Abs (_, _, u), _) => is_p (i+1) u
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1119	\| (_, ts) => exists (is_p i) ts)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1120	in (case strip_abs_body t of
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1121	Bound _ => true
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1122	\| t' => is_p 0 t')
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1123	end;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1124
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 20853 diff changeset	1125	fun needed_vars prop =
33042 ddf1f03a9ad9 curried union as canonical list operation haftmann parents: 33038 diff changeset	1126	union (op =) (Library.foldl (uncurry (union (op =)))
ddf1f03a9ad9 curried union as canonical list operation haftmann parents: 33038 diff changeset	1127	([], map (uncurry (insert (op =))) (add_npvars true true [] ([], prop))))
ddf1f03a9ad9 curried union as canonical list operation haftmann parents: 33038 diff changeset	1128	(prop_vars prop);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1129
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1130	fun gen_axm_proof c name prop =
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1131	let
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1132	val nvs = needed_vars prop;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1133	val args = map (fn (v as Var (ixn, _)) =>
17492 714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1134	if member (op =) nvs ixn then SOME v else NONE) (vars_of prop) @
28812 413695e07bd4 Frees in PThms are now quantified in the order of their appearance in the berghofe parents: 28803 diff changeset	1135	map SOME (frees_of prop);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1136	in
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	1137	proof_combt' (c (name, prop, NONE), args)
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1138	end;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1139
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1140	val axm_proof = gen_axm_proof PAxm;
17017 fa8e32209734 - Tuned handling of oracles berghofe parents: 16983 diff changeset	1141
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1142	fun oracle_proof name prop =
48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1143	if ! proofs = 0 then ((name, Term.dummy), Oracle (name, Term.dummy, NONE))
30716 2ee706293eb5 removed misleading make_proof_body, make_oracles, make_thms, which essentially assume a full proof; wenzelm parents: 30712 diff changeset	1144	else ((name, prop), gen_axm_proof Oracle name prop);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1145
43795 ca5896a836ba recovered some runtime sharing from d6b6c74a8bcf, without the global memory bottleneck; wenzelm parents: 43761 diff changeset	1146	fun shrink_proof thy =
17492 714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1147	let
714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1148	fun shrink ls lev (prf as Abst (a, T, body)) =
714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1149	let val (b, is, ch, body') = shrink ls (lev+1) body
51100 18daa3380ff7 discontinued home-made sharing for proof terms -- leave memory management to the Poly/ML RTS; wenzelm parents: 51047 diff changeset	1150	in (b, is, ch, if ch then Abst (a, T, body') else prf) end
17492 714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1151	\| shrink ls lev (prf as AbsP (a, t, body)) =
714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1152	let val (b, is, ch, body') = shrink (lev::ls) lev body
19482 9f11af8f7ef9 tuned basic list operators (flat, maps, map_filter); wenzelm parents: 19357 diff changeset	1153	in (b orelse member (op =) is 0, map_filter (fn 0 => NONE \| i => SOME (i-1)) is,
51100 18daa3380ff7 discontinued home-made sharing for proof terms -- leave memory management to the Poly/ML RTS; wenzelm parents: 51047 diff changeset	1154	ch, if ch then AbsP (a, t, body') else prf)
17492 714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1155	end
714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1156	\| shrink ls lev prf =
714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1157	let val (is, ch, _, prf') = shrink' ls lev [] [] prf
714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1158	in (false, is, ch, prf') end
714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1159	and shrink' ls lev ts prfs (prf as prf1 %% prf2) =
714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1160	let
714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1161	val p as (_, is', ch', prf') = shrink ls lev prf2;
714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1162	val (is, ch, ts', prf'') = shrink' ls lev ts (p::prfs) prf1
33042 ddf1f03a9ad9 curried union as canonical list operation haftmann parents: 33038 diff changeset	1163	in (union (op =) is is', ch orelse ch', ts',
17492 714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1164	if ch orelse ch' then prf'' %% prf' else prf)
714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1165	end
714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1166	\| shrink' ls lev ts prfs (prf as prf1 % t) =
714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1167	let val (is, ch, (ch', t')::ts', prf') = shrink' ls lev (t::ts) prfs prf1
714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1168	in (is, ch orelse ch', ts',
51100 18daa3380ff7 discontinued home-made sharing for proof terms -- leave memory management to the Poly/ML RTS; wenzelm parents: 51047 diff changeset	1169	if ch orelse ch' then prf' % t' else prf) end
17492 714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1170	\| shrink' ls lev ts prfs (prf as PBound i) =
30146 a77fc0209723 eliminated NJ's List.nth; wenzelm parents: 29642 diff changeset	1171	(if exists (fn SOME (Bound j) => lev-j <= nth ls i \| _ => true) ts
18928 042608ffa2ec subsituted gen_duplicates / has_duplicates for duplicates whenever appropriate haftmann parents: 18485 diff changeset	1172	orelse has_duplicates (op =)
042608ffa2ec subsituted gen_duplicates / has_duplicates for duplicates whenever appropriate haftmann parents: 18485 diff changeset	1173	(Library.foldl (fn (js, SOME (Bound j)) => j :: js \| (js, _) => js) ([], ts))
17492 714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1174	orelse exists #1 prfs then [i] else [], false, map (pair false) ts, prf)
51100 18daa3380ff7 discontinued home-made sharing for proof terms -- leave memory management to the Poly/ML RTS; wenzelm parents: 51047 diff changeset	1175	\| shrink' ls lev ts prfs (Hyp t) = ([], false, map (pair false) ts, Hyp t)
31903 c5221dbc40f6 added pro-forma proof constructor Inclass; wenzelm parents: 30716 diff changeset	1176	\| shrink' ls lev ts prfs (prf as MinProof) = ([], false, map (pair false) ts, prf)
31943 5e960a0780a2 renamed inclass/Inclass to of_class/OfClass, in accordance to of_sort; wenzelm parents: 31903 diff changeset	1177	\| shrink' ls lev ts prfs (prf as OfClass _) = ([], false, map (pair false) ts, prf)
17492 714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1178	\| shrink' ls lev ts prfs prf =
714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1179	let
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1180	val prop =
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1181	(case prf of
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1182	PAxm (_, prop, _) => prop
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1183	\| Oracle (_, prop, _) => prop
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1184	\| Promise (_, prop, _) => prop
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1185	\| PThm (_, ((_, prop, _), _)) => prop
36879 201a4afd8533 raise Fail uniformly for proofterm errors, which appear to be rather low-level; wenzelm parents: 36878 diff changeset	1186	\| _ => raise Fail "shrink: proof not in normal form");
17492 714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1187	val vs = vars_of prop;
19012 2577ac76cdc6 tuned; wenzelm parents: 18928 diff changeset	1188	val (ts', ts'') = chop (length vs) ts;
33957 e9afca2118d4 normalized uncurry take/drop haftmann parents: 33955 diff changeset	1189	val insts = take (length ts') (map (fst o dest_Var) vs) ~~ ts';
17492 714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1190	val nvs = Library.foldl (fn (ixns', (ixn, ixns)) =>
714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1191	insert (op =) ixn (case AList.lookup (op =) insts ixn of
33042 ddf1f03a9ad9 curried union as canonical list operation haftmann parents: 33038 diff changeset	1192	SOME (SOME t) => if is_proj t then union (op =) ixns ixns' else ixns'
ddf1f03a9ad9 curried union as canonical list operation haftmann parents: 33038 diff changeset	1193	\| _ => union (op =) ixns ixns'))
17492 714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1194	(needed prop ts'' prfs, add_npvars false true [] ([], prop));
714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1195	val insts' = map
714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1196	(fn (ixn, x as SOME _) => if member (op =) nvs ixn then (false, x) else (true, NONE)
714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1197	\| (_, x) => (false, x)) insts
714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1198	in ([], false, insts' @ map (pair false) ts'', prf) end
56245 84fc7dfa3cd4 more qualified names; wenzelm parents: 52696 diff changeset	1199	and needed (Const ("Pure.imp", _) $ t $ u) ts ((b, _, _, _)::prfs) =
33042 ddf1f03a9ad9 curried union as canonical list operation haftmann parents: 33038 diff changeset	1200	union (op =) (if b then map (fst o dest_Var) (vars_of t) else []) (needed u ts prfs)
17492 714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1201	\| needed (Var (ixn, _)) (_::_) _ = [ixn]
714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1202	\| needed _ _ _ = [];
714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1203	in shrink end;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1204
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1205
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1206	(** Simple first order matching functions for terms and proofs **)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1207
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1208	exception PMatch;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1209
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1210	( see pattern.ML )
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1211
33317 b4534348b8fd standardized filter/filter_out; wenzelm parents: 33042 diff changeset	1212	fun flt (i: int) = filter (fn n => n < i);
12279 dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1213
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1214	fun fomatch Ts tymatch j instsp p =
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1215	let
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1216	fun mtch (instsp as (tyinsts, insts)) = fn
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1217	(Var (ixn, T), t) =>
12279 dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1218	if j>0 andalso not (null (flt j (loose_bnos t)))
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1219	then raise PMatch
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1220	else (tymatch (tyinsts, fn () => (T, fastype_of1 (Ts, t))),
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1221	(ixn, t) :: insts)
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1222	\| (Free (a, T), Free (b, U)) =>
20147 7aa076a45cb4 fold_proof_terms: canonical arguments; wenzelm parents: 20071 diff changeset	1223	if a=b then (tymatch (tyinsts, K (T, U)), insts) else raise PMatch
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1224	\| (Const (a, T), Const (b, U)) =>
20147 7aa076a45cb4 fold_proof_terms: canonical arguments; wenzelm parents: 20071 diff changeset	1225	if a=b then (tymatch (tyinsts, K (T, U)), insts) else raise PMatch
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1226	\| (f $ t, g $ u) => mtch (mtch instsp (f, g)) (t, u)
12279 dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1227	\| (Bound i, Bound j) => if i=j then instsp else raise PMatch
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1228	\| _ => raise PMatch
59058 a78612c67ec0 renamed "pairself" to "apply2", in accordance to @{apply 2}; wenzelm parents: 56245 diff changeset	1229	in mtch instsp (apply2 Envir.beta_eta_contract p) end;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1230
12279 dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1231	fun match_proof Ts tymatch =
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1232	let
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	1233	fun optmatch _ inst (NONE, _) = inst
08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	1234	\| optmatch _ _ (SOME _, NONE) = raise PMatch
08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	1235	\| optmatch mtch inst (SOME x, SOME y) = mtch inst (x, y)
12279 dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1236
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1237	fun matcht Ts j (pinst, tinst) (t, u) =
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1238	(pinst, fomatch Ts tymatch j tinst (t, Envir.beta_norm u));
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1239	fun matchT (pinst, (tyinsts, insts)) p =
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1240	(pinst, (tymatch (tyinsts, K p), insts));
15570 8d8c70b41bab Move towards standard functions. skalberg parents: 15531 diff changeset	1241	fun matchTs inst (Ts, Us) = Library.foldl (uncurry matchT) (inst, Ts ~~ Us);
12279 dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1242
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1243	fun mtch Ts i j (pinst, tinst) (Hyp (Var (ixn, _)), prf) =
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1244	if i = 0 andalso j = 0 then ((ixn, prf) :: pinst, tinst)
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1245	else (case apfst (flt i) (apsnd (flt j)
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1246	(prf_add_loose_bnos 0 0 prf ([], []))) of
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1247	([], []) => ((ixn, incr_pboundvars (~i) (~j) prf) :: pinst, tinst)
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1248	\| ([], _) => if j = 0 then
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1249	((ixn, incr_pboundvars (~i) (~j) prf) :: pinst, tinst)
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1250	else raise PMatch
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1251	\| _ => raise PMatch)
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1252	\| mtch Ts i j inst (prf1 % opt1, prf2 % opt2) =
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1253	optmatch (matcht Ts j) (mtch Ts i j inst (prf1, prf2)) (opt1, opt2)
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1254	\| mtch Ts i j inst (prf1 %% prf2, prf1' %% prf2') =
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1255	mtch Ts i j (mtch Ts i j inst (prf1, prf1')) (prf2, prf2')
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1256	\| mtch Ts i j inst (Abst (_, opT, prf1), Abst (_, opU, prf2)) =
18485 5959295f82d3 bicompose_proof: no_flatten; wenzelm parents: 18316 diff changeset	1257	mtch (the_default dummyT opU :: Ts) i (j+1)
12279 dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1258	(optmatch matchT inst (opT, opU)) (prf1, prf2)
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1259	\| mtch Ts i j inst (prf1, Abst (_, opU, prf2)) =
18485 5959295f82d3 bicompose_proof: no_flatten; wenzelm parents: 18316 diff changeset	1260	mtch (the_default dummyT opU :: Ts) i (j+1) inst
12279 dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1261	(incr_pboundvars 0 1 prf1 %> Bound 0, prf2)
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1262	\| mtch Ts i j inst (AbsP (_, opt, prf1), AbsP (_, opu, prf2)) =
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1263	mtch Ts (i+1) j (optmatch (matcht Ts j) inst (opt, opu)) (prf1, prf2)
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1264	\| mtch Ts i j inst (prf1, AbsP (_, _, prf2)) =
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1265	mtch Ts (i+1) j inst (incr_pboundvars 1 0 prf1 %% PBound 0, prf2)
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1266	\| mtch Ts i j inst (PAxm (s1, _, opTs), PAxm (s2, _, opUs)) =
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1267	if s1 = s2 then optmatch matchTs inst (opTs, opUs)
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1268	else raise PMatch
31943 5e960a0780a2 renamed inclass/Inclass to of_class/OfClass, in accordance to of_sort; wenzelm parents: 31903 diff changeset	1269	\| mtch Ts i j inst (OfClass (T1, c1), OfClass (T2, c2)) =
31903 c5221dbc40f6 added pro-forma proof constructor Inclass; wenzelm parents: 30716 diff changeset	1270	if c1 = c2 then matchT inst (T1, T2)
c5221dbc40f6 added pro-forma proof constructor Inclass; wenzelm parents: 30716 diff changeset	1271	else raise PMatch
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1272	\| mtch Ts i j inst (PThm (_, ((name1, prop1, opTs), _)), PThm (_, ((name2, prop2, opUs), _))) =
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1273	if name1 = name2 andalso prop1 = prop2 then
12279 dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1274	optmatch matchTs inst (opTs, opUs)
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1275	else raise PMatch
12279 dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1276	\| mtch _ _ _ inst (PBound i, PBound j) = if i = j then inst else raise PMatch
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1277	\| mtch _ _ _ _ _ = raise PMatch
dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1278	in mtch Ts 0 0 end;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1279
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1280	fun prf_subst (pinst, (tyinsts, insts)) =
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1281	let
32049 d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1282	val substT = Envir.subst_type_same tyinsts;
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1283	val substTs = Same.map substT;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1284
32049 d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1285	fun subst' lev (Var (xi, _)) =
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1286	(case AList.lookup (op =) insts xi of
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1287	NONE => raise Same.SAME
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	1288	\| SOME u => incr_boundvars lev u)
32049 d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1289	\| subst' _ (Const (s, T)) = Const (s, substT T)
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1290	\| subst' _ (Free (s, T)) = Free (s, substT T)
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1291	\| subst' lev (Abs (a, T, body)) =
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1292	(Abs (a, substT T, Same.commit (subst' (lev + 1)) body)
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1293	handle Same.SAME => Abs (a, T, subst' (lev + 1) body))
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1294	\| subst' lev (f $ t) =
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1295	(subst' lev f $ Same.commit (subst' lev) t
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1296	handle Same.SAME => f $ subst' lev t)
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1297	\| subst' _ _ = raise Same.SAME;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1298
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1299	fun subst plev tlev (AbsP (a, t, body)) =
32049 d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1300	(AbsP (a, Same.map_option (subst' tlev) t, Same.commit (subst (plev + 1) tlev) body)
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1301	handle Same.SAME => AbsP (a, t, subst (plev + 1) tlev body))
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1302	\| subst plev tlev (Abst (a, T, body)) =
32049 d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1303	(Abst (a, Same.map_option substT T, Same.commit (subst plev (tlev + 1)) body)
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1304	handle Same.SAME => Abst (a, T, subst plev (tlev + 1) body))
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1305	\| subst plev tlev (prf %% prf') =
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1306	(subst plev tlev prf %% Same.commit (subst plev tlev) prf'
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1307	handle Same.SAME => prf %% subst plev tlev prf')
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1308	\| subst plev tlev (prf % t) =
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1309	(subst plev tlev prf % Same.commit (Same.map_option (subst' tlev)) t
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1310	handle Same.SAME => prf % Same.map_option (subst' tlev) t)
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1311	\| subst plev tlev (Hyp (Var (xi, _))) =
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1312	(case AList.lookup (op =) pinst xi of
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1313	NONE => raise Same.SAME
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1314	\| SOME prf' => incr_pboundvars plev tlev prf')
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1315	\| subst _ _ (PAxm (id, prop, Ts)) = PAxm (id, prop, Same.map_option substTs Ts)
31943 5e960a0780a2 renamed inclass/Inclass to of_class/OfClass, in accordance to of_sort; wenzelm parents: 31903 diff changeset	1316	\| subst _ _ (OfClass (T, c)) = OfClass (substT T, c)
32049 d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1317	\| subst _ _ (Oracle (id, prop, Ts)) = Oracle (id, prop, Same.map_option substTs Ts)
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1318	\| subst _ _ (Promise (i, prop, Ts)) = Promise (i, prop, substTs Ts)
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1319	\| subst _ _ (PThm (i, ((id, prop, Ts), body))) =
32049 d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1320	PThm (i, ((id, prop, Same.map_option substTs Ts), body))
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1321	\| subst _ _ _ = raise Same.SAME;
d6065a237059 tuned prf_subst: use structure Same; wenzelm parents: 32035 diff changeset	1322	in fn t => subst 0 0 t handle Same.SAME => t end;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1323
21646 c07b5b0e8492 thm/prf: separate official name vs. additional tags; wenzelm parents: 20853 diff changeset	1324	(*A fast unification filter: true unless the two terms cannot be unified.
12871 21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1325	Terms must be NORMAL. Treats all Vars as distinct. *)
21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1326	fun could_unify prf1 prf2 =
21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1327	let
21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1328	fun matchrands (prf1 %% prf2) (prf1' %% prf2') =
21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1329	could_unify prf2 prf2' andalso matchrands prf1 prf1'
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	1330	\| matchrands (prf % SOME t) (prf' % SOME t') =
12871 21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1331	Term.could_unify (t, t') andalso matchrands prf prf'
21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1332	\| matchrands (prf % _) (prf' % _) = matchrands prf prf'
21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1333	\| matchrands _ _ = true
21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1334
21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1335	fun head_of (prf %% _) = head_of prf
21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1336	\| head_of (prf % _) = head_of prf
21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1337	\| head_of prf = prf
21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1338
21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1339	in case (head_of prf1, head_of prf2) of
21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1340	(_, Hyp (Var _)) => true
21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1341	\| (Hyp (Var _), _) => true
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1342	\| (PAxm (a, _, _), PAxm (b, _, _)) => a = b andalso matchrands prf1 prf2
31943 5e960a0780a2 renamed inclass/Inclass to of_class/OfClass, in accordance to of_sort; wenzelm parents: 31903 diff changeset	1343	\| (OfClass (_, c), OfClass (_, d)) => c = d andalso matchrands prf1 prf2
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1344	\| (PThm (_, ((a, propa, _), _)), PThm (_, ((b, propb, _), _))) =>
12871 21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1345	a = b andalso propa = propb andalso matchrands prf1 prf2
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1346	\| (PBound i, PBound j) => i = j andalso matchrands prf1 prf2
12871 21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1347	\| (AbsP _, _) => true (because of possible eta equality)
21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1348	\| (Abst _, _) => true
21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1349	\| (_, AbsP _) => true
21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1350	\| (_, Abst _) => true
21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1351	\| _ => false
21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1352	end;
21486a0557d1 Added function could_unify to speed up rewriting of proof terms. berghofe parents: 12868 diff changeset	1353
28329 e6a5fa9f1e41 added conditional add_oracles, keep oracles_of_proof private; wenzelm parents: 28319 diff changeset	1354
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1355	(** rewriting on proof terms **)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1356
33722 e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	1357	val no_skel = PBound 0;
e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	1358	val normal_skel = Hyp (Var ((Name.uu, 0), propT));
13102 b6f8aae5f152 Added skeletons to speed up rewriting on proof terms. berghofe parents: 12923 diff changeset	1359
12279 dc3020e938e2 Extended match_proof to handle abstractions. berghofe parents: 12233 diff changeset	1360	fun rewrite_prf tymatch (rules, procs) prf =
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1361	let
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1362	fun rew _ _ (Abst (_, _, body) % SOME t) = SOME (prf_subst_bounds [t] body, no_skel)
e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1363	\| rew _ _ (AbsP (_, _, body) %% prf) = SOME (prf_subst_pbounds [prf] body, no_skel)
e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1364	\| rew Ts hs prf =
e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1365	(case get_first (fn r => r Ts hs prf) procs of
33722 e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	1366	NONE => get_first (fn (prf1, prf2) => SOME (prf_subst
e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	1367	(match_proof Ts tymatch ([], (Vartab.empty, [])) (prf1, prf)) prf2, prf2)
e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	1368	handle PMatch => NONE) (filter (could_unify prf o fst) rules)
e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	1369	\| some => some);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1370
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1371	fun rew0 Ts hs (prf as AbsP (_, _, prf' %% PBound 0)) =
e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1372	if prf_loose_Pbvar1 prf' 0 then rew Ts hs prf
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1373	else
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1374	let val prf'' = incr_pboundvars (~1) 0 prf'
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1375	in SOME (the_default (prf'', no_skel) (rew Ts hs prf'')) end
e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1376	\| rew0 Ts hs (prf as Abst (_, _, prf' % SOME (Bound 0))) =
e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1377	if prf_loose_bvar1 prf' 0 then rew Ts hs prf
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1378	else
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1379	let val prf'' = incr_pboundvars 0 (~1) prf'
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1380	in SOME (the_default (prf'', no_skel) (rew Ts hs prf'')) end
e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1381	\| rew0 Ts hs prf = rew Ts hs prf;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1382
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1383	fun rew1 _ _ (Hyp (Var _)) _ = NONE
e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1384	\| rew1 Ts hs skel prf = (case rew2 Ts hs skel prf of
e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1385	SOME prf1 => (case rew0 Ts hs prf1 of
e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1386	SOME (prf2, skel') => SOME (the_default prf2 (rew1 Ts hs skel' prf2))
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	1387	\| NONE => SOME prf1)
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1388	\| NONE => (case rew0 Ts hs prf of
e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1389	SOME (prf1, skel') => SOME (the_default prf1 (rew1 Ts hs skel' prf1))
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	1390	\| NONE => NONE))
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1391
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1392	and rew2 Ts hs skel (prf % SOME t) = (case prf of
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1393	Abst (_, _, body) =>
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1394	let val prf' = prf_subst_bounds [t] body
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1395	in SOME (the_default prf' (rew2 Ts hs no_skel prf')) end
e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1396	\| _ => (case rew1 Ts hs (case skel of skel' % _ => skel' \| _ => no_skel) prf of
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	1397	SOME prf' => SOME (prf' % SOME t)
08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	1398	\| NONE => NONE))
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1399	\| rew2 Ts hs skel (prf % NONE) = Option.map (fn prf' => prf' % NONE)
e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1400	(rew1 Ts hs (case skel of skel' % _ => skel' \| _ => no_skel) prf)
e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1401	\| rew2 Ts hs skel (prf1 %% prf2) = (case prf1 of
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1402	AbsP (_, _, body) =>
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1403	let val prf' = prf_subst_pbounds [prf2] body
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1404	in SOME (the_default prf' (rew2 Ts hs no_skel prf')) end
13102 b6f8aae5f152 Added skeletons to speed up rewriting on proof terms. berghofe parents: 12923 diff changeset	1405	\| _ =>
b6f8aae5f152 Added skeletons to speed up rewriting on proof terms. berghofe parents: 12923 diff changeset	1406	let val (skel1, skel2) = (case skel of
b6f8aae5f152 Added skeletons to speed up rewriting on proof terms. berghofe parents: 12923 diff changeset	1407	skel1 %% skel2 => (skel1, skel2)
33722 e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	1408	\| _ => (no_skel, no_skel))
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1409	in case rew1 Ts hs skel1 prf1 of
e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1410	SOME prf1' => (case rew1 Ts hs skel2 prf2 of
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	1411	SOME prf2' => SOME (prf1' %% prf2')
08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	1412	\| NONE => SOME (prf1' %% prf2))
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1413	\| NONE => (case rew1 Ts hs skel2 prf2 of
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	1414	SOME prf2' => SOME (prf1 %% prf2')
08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	1415	\| NONE => NONE)
13102 b6f8aae5f152 Added skeletons to speed up rewriting on proof terms. berghofe parents: 12923 diff changeset	1416	end)
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1417	\| rew2 Ts hs skel (Abst (s, T, prf)) = (case rew1 (the_default dummyT T :: Ts) hs
33722 e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	1418	(case skel of Abst (_, _, skel') => skel' \| _ => no_skel) prf of
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	1419	SOME prf' => SOME (Abst (s, T, prf'))
08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	1420	\| NONE => NONE)
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1421	\| rew2 Ts hs skel (AbsP (s, t, prf)) = (case rew1 Ts (t :: hs)
33722 e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	1422	(case skel of AbsP (_, _, skel') => skel' \| _ => no_skel) prf of
15531 08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	1423	SOME prf' => SOME (AbsP (s, t, prf'))
08c8dad8e399 Deleted Library.option type. skalberg parents: 15030 diff changeset	1424	\| NONE => NONE)
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1425	\| rew2 _ _ _ _ = NONE;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1426
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1427	in the_default prf (rew1 [] [] no_skel prf) end;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1428
17203 29b2563f5c11 refer to theory instead of low-level tsig; wenzelm parents: 17017 diff changeset	1429	fun rewrite_proof thy = rewrite_prf (fn (tyenv, f) =>
29b2563f5c11 refer to theory instead of low-level tsig; wenzelm parents: 17017 diff changeset	1430	Sign.typ_match thy (f ()) tyenv handle Type.TYPE_MATCH => raise PMatch);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1431
11715 592923615f77 Tuned several functions to improve sharing of unchanged subproofs. berghofe parents: 11652 diff changeset	1432	fun rewrite_proof_notypes rews = rewrite_prf fst rews;
11615 ca7be12b2cbc - Exchanged % and %%. berghofe parents: 11543 diff changeset	1433
16940 d14ec6f2d29b adapted Type.typ_match; wenzelm parents: 16880 diff changeset	1434
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1435	(** theory data **)
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1436
37216 3165bc303f66 modernized some structure names, keeping a few legacy aliases; wenzelm parents: 36883 diff changeset	1437	structure Data = Theory_Data
22846 fb79144af9a3 simplified DataFun interfaces; wenzelm parents: 22662 diff changeset	1438	(
33722 e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	1439	type T =
e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	1440	(stamp * (proof * proof)) list *
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1441	(stamp * (typ list -> term option list -> proof -> (proof * proof) option)) list;
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1442
12233 3348aa8061d1 - Fixed bug in shrink berghofe parents: 12123 diff changeset	1443	val empty = ([], []);
16458 4c6fd0c01d28 accomodate change of TheoryDataFun; wenzelm parents: 15797 diff changeset	1444	val extend = I;
33522 737589bb9bb8 adapted Theory_Data; wenzelm parents: 33414 diff changeset	1445	fun merge ((rules1, procs1), (rules2, procs2)) : T =
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1446	(AList.merge (op =) (K true) (rules1, rules2),
22662 3e492ba59355 canonical merge operations haftmann parents: 21646 diff changeset	1447	AList.merge (op =) (K true) (procs1, procs2));
22846 fb79144af9a3 simplified DataFun interfaces; wenzelm parents: 22662 diff changeset	1448	);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1449
37216 3165bc303f66 modernized some structure names, keeping a few legacy aliases; wenzelm parents: 36883 diff changeset	1450	fun get_data thy = let val (rules, procs) = Data.get thy in (map #2 rules, map #2 procs) end;
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1451	fun rew_proof thy = rewrite_prf fst (get_data thy);
23780 a0e7305dd0cb Added function rew_proof (for pre-normalizing proofs). berghofe parents: 23296 diff changeset	1452
37216 3165bc303f66 modernized some structure names, keeping a few legacy aliases; wenzelm parents: 36883 diff changeset	1453	fun add_prf_rrule r = (Data.map o apfst) (cons (stamp (), r));
3165bc303f66 modernized some structure names, keeping a few legacy aliases; wenzelm parents: 36883 diff changeset	1454	fun add_prf_rproc p = (Data.map o apsnd) (cons (stamp (), p));
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1455
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1456
28828 c25dd83a6f9f unified treatment of PAxm/Oracle/Promise in basic proof term operations; wenzelm parents: 28815 diff changeset	1457	(*** promises ***)
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1458
28828 c25dd83a6f9f unified treatment of PAxm/Oracle/Promise in basic proof term operations; wenzelm parents: 28815 diff changeset	1459	fun promise_proof thy i prop =
c25dd83a6f9f unified treatment of PAxm/Oracle/Promise in basic proof term operations; wenzelm parents: 28815 diff changeset	1460	let
c25dd83a6f9f unified treatment of PAxm/Oracle/Promise in basic proof term operations; wenzelm parents: 28815 diff changeset	1461	val _ = prop \|> Term.exists_subterm (fn t =>
c25dd83a6f9f unified treatment of PAxm/Oracle/Promise in basic proof term operations; wenzelm parents: 28815 diff changeset	1462	(Term.is_Free t orelse Term.is_Var t) andalso
36879 201a4afd8533 raise Fail uniformly for proofterm errors, which appear to be rather low-level; wenzelm parents: 36878 diff changeset	1463	raise Fail ("promise_proof: illegal variable " ^ Syntax.string_of_term_global thy t));
28828 c25dd83a6f9f unified treatment of PAxm/Oracle/Promise in basic proof term operations; wenzelm parents: 28815 diff changeset	1464	val _ = prop \|> Term.exists_type (Term.exists_subtype
36879 201a4afd8533 raise Fail uniformly for proofterm errors, which appear to be rather low-level; wenzelm parents: 36878 diff changeset	1465	(fn TFree (a, _) => raise Fail ("promise_proof: illegal type variable " ^ quote a)
28828 c25dd83a6f9f unified treatment of PAxm/Oracle/Promise in basic proof term operations; wenzelm parents: 28815 diff changeset	1466	\| _ => false));
c25dd83a6f9f unified treatment of PAxm/Oracle/Promise in basic proof term operations; wenzelm parents: 28815 diff changeset	1467	in Promise (i, prop, map TVar (Term.add_tvars prop [])) end;
c25dd83a6f9f unified treatment of PAxm/Oracle/Promise in basic proof term operations; wenzelm parents: 28815 diff changeset	1468
33722 e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	1469	fun fulfill_norm_proof thy ps body0 =
e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	1470	let
e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	1471	val PBody {oracles = oracles0, thms = thms0, proof = proof0} = body0;
44334 605381e7c7c5 more direct balanced version Ord_List.unions; wenzelm parents: 44333 diff changeset	1472	val oracles =
605381e7c7c5 more direct balanced version Ord_List.unions; wenzelm parents: 44333 diff changeset	1473	unions_oracles
605381e7c7c5 more direct balanced version Ord_List.unions; wenzelm parents: 44333 diff changeset	1474	(fold (fn (_, PBody {oracles, ...}) => not (null oracles) ? cons oracles) ps [oracles0]);
605381e7c7c5 more direct balanced version Ord_List.unions; wenzelm parents: 44333 diff changeset	1475	val thms =
605381e7c7c5 more direct balanced version Ord_List.unions; wenzelm parents: 44333 diff changeset	1476	unions_thms (fold (fn (_, PBody {thms, ...}) => not (null thms) ? cons thms) ps [thms0]);
33722 e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	1477	val proofs = fold (fn (i, PBody {proof, ...}) => Inttab.update (i, proof)) ps Inttab.empty;
28875 c1c0e23ed063 eliminated finish_proof, keep pre/post normalization of results separate; wenzelm parents: 28846 diff changeset	1478
33722 e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	1479	fun fill (Promise (i, prop, Ts)) =
e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	1480	(case Inttab.lookup proofs i of
e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	1481	NONE => NONE
e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	1482	\| SOME prf => SOME (instantiate (Term.add_tvars prop [] ~~ Ts, []) prf, normal_skel))
e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	1483	\| fill _ = NONE;
e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	1484	val (rules, procs) = get_data thy;
37231 e5419ecf92b7 - outer_constraints with original variable names, to ensure that argsP is consistent with args berghofe parents: 36883 diff changeset	1485	val proof = rewrite_prf fst (rules, K (K fill) :: procs) proof0;
33722 e588744f14da generalized procs for rewrite_proof: allow skeleton; wenzelm parents: 33522 diff changeset	1486	in PBody {oracles = oracles, thms = thms, proof = proof} end;
28828 c25dd83a6f9f unified treatment of PAxm/Oracle/Promise in basic proof term operations; wenzelm parents: 28815 diff changeset	1487
51047 2ad5c46bcd04 avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task; wenzelm parents: 50763 diff changeset	1488	fun fulfill_proof_future thy promises postproc body =
2ad5c46bcd04 avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task; wenzelm parents: 50763 diff changeset	1489	let
2ad5c46bcd04 avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task; wenzelm parents: 50763 diff changeset	1490	fun fulfill () =
2ad5c46bcd04 avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task; wenzelm parents: 50763 diff changeset	1491	postproc (fulfill_norm_proof thy (map (apsnd Future.join) promises) (Future.join body));
2ad5c46bcd04 avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task; wenzelm parents: 50763 diff changeset	1492	in
2ad5c46bcd04 avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task; wenzelm parents: 50763 diff changeset	1493	if null promises then Future.map postproc body
2ad5c46bcd04 avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task; wenzelm parents: 50763 diff changeset	1494	else if Future.is_finished body andalso length promises = 1 then
2ad5c46bcd04 avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task; wenzelm parents: 50763 diff changeset	1495	Future.map (fn _ => fulfill ()) (snd (hd promises))
2ad5c46bcd04 avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task; wenzelm parents: 50763 diff changeset	1496	else
2ad5c46bcd04 avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task; wenzelm parents: 50763 diff changeset	1497	(singleton o Future.forks)
2ad5c46bcd04 avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task; wenzelm parents: 50763 diff changeset	1498	{name = "Proofterm.fulfill_proof_future", group = NONE,
2ad5c46bcd04 avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task; wenzelm parents: 50763 diff changeset	1499	deps = Future.task_of body :: map (Future.task_of o snd) promises, pri = 0,
2ad5c46bcd04 avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task; wenzelm parents: 50763 diff changeset	1500	interrupts = true}
2ad5c46bcd04 avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task; wenzelm parents: 50763 diff changeset	1501	fulfill
2ad5c46bcd04 avoid extra fork for fulfill_proof_future whenever possible -- without proof terms it merely doubles the number of proof tasks redundantly, by piggy-backing another 10 microseconds task; wenzelm parents: 50763 diff changeset	1502	end;
29642 be22ba214475 thm_proof: recovered single-threaded version; wenzelm parents: 29636 diff changeset	1503
28828 c25dd83a6f9f unified treatment of PAxm/Oracle/Promise in basic proof term operations; wenzelm parents: 28815 diff changeset	1504
36878 5caff17a28cd unconstrainT operations on proofs, according to krauss/schropp; wenzelm parents: 36877 diff changeset	1505	(*** abstraction over sort constraints ***)
5caff17a28cd unconstrainT operations on proofs, according to krauss/schropp; wenzelm parents: 36877 diff changeset	1506
36882 f33760bb8ca0 conditionally unconstrain thm proofs -- loosely based on the version by krauss/schropp; wenzelm parents: 36880 diff changeset	1507	fun unconstrainT_prf thy (atyp_map, constraints) =
36878 5caff17a28cd unconstrainT operations on proofs, according to krauss/schropp; wenzelm parents: 36877 diff changeset	1508	let
5caff17a28cd unconstrainT operations on proofs, according to krauss/schropp; wenzelm parents: 36877 diff changeset	1509	fun hyp_map hyp =
5caff17a28cd unconstrainT operations on proofs, according to krauss/schropp; wenzelm parents: 36877 diff changeset	1510	(case AList.lookup (op =) constraints hyp of
5caff17a28cd unconstrainT operations on proofs, according to krauss/schropp; wenzelm parents: 36877 diff changeset	1511	SOME t => Hyp t
36882 f33760bb8ca0 conditionally unconstrain thm proofs -- loosely based on the version by krauss/schropp; wenzelm parents: 36880 diff changeset	1512	\| NONE => raise Fail "unconstrainT_prf: missing constraint");
36878 5caff17a28cd unconstrainT operations on proofs, according to krauss/schropp; wenzelm parents: 36877 diff changeset	1513
36882 f33760bb8ca0 conditionally unconstrain thm proofs -- loosely based on the version by krauss/schropp; wenzelm parents: 36880 diff changeset	1514	val typ = Term_Subst.map_atypsT_same (Type.strip_sorts o atyp_map);
36878 5caff17a28cd unconstrainT operations on proofs, according to krauss/schropp; wenzelm parents: 36877 diff changeset	1515	fun ofclass (ty, c) =
5caff17a28cd unconstrainT operations on proofs, according to krauss/schropp; wenzelm parents: 36877 diff changeset	1516	let val ty' = Term.map_atyps atyp_map ty;
5caff17a28cd unconstrainT operations on proofs, according to krauss/schropp; wenzelm parents: 36877 diff changeset	1517	in the_single (of_sort_proof thy hyp_map (ty', [c])) end;
5caff17a28cd unconstrainT operations on proofs, according to krauss/schropp; wenzelm parents: 36877 diff changeset	1518	in
5caff17a28cd unconstrainT operations on proofs, according to krauss/schropp; wenzelm parents: 36877 diff changeset	1519	Same.commit (map_proof_same (Term_Subst.map_types_same typ) typ ofclass)
5caff17a28cd unconstrainT operations on proofs, according to krauss/schropp; wenzelm parents: 36877 diff changeset	1520	#> fold_rev (implies_intr_proof o snd) constraints
5caff17a28cd unconstrainT operations on proofs, according to krauss/schropp; wenzelm parents: 36877 diff changeset	1521	end;
5caff17a28cd unconstrainT operations on proofs, according to krauss/schropp; wenzelm parents: 36877 diff changeset	1522
36882 f33760bb8ca0 conditionally unconstrain thm proofs -- loosely based on the version by krauss/schropp; wenzelm parents: 36880 diff changeset	1523	fun unconstrainT_body thy constrs (PBody {oracles, thms, proof}) =
36878 5caff17a28cd unconstrainT operations on proofs, according to krauss/schropp; wenzelm parents: 36877 diff changeset	1524	PBody
36883 4ed0d72def50 added Proofterm.unconstrain_thm_proof for Thm.unconstrainT -- loosely based on the version by krauss/schropp; wenzelm parents: 36882 diff changeset	1525	{oracles = oracles, (* FIXME merge (!), unconstrain (!?!) *)
4ed0d72def50 added Proofterm.unconstrain_thm_proof for Thm.unconstrainT -- loosely based on the version by krauss/schropp; wenzelm parents: 36882 diff changeset	1526	thms = thms, (* FIXME merge (!) *)
36882 f33760bb8ca0 conditionally unconstrain thm proofs -- loosely based on the version by krauss/schropp; wenzelm parents: 36880 diff changeset	1527	proof = unconstrainT_prf thy constrs proof};
36878 5caff17a28cd unconstrainT operations on proofs, according to krauss/schropp; wenzelm parents: 36877 diff changeset	1528
5caff17a28cd unconstrainT operations on proofs, according to krauss/schropp; wenzelm parents: 36877 diff changeset	1529
28828 c25dd83a6f9f unified treatment of PAxm/Oracle/Promise in basic proof term operations; wenzelm parents: 28815 diff changeset	1530	(*** theorems ***)
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1531
37297 a1acd424645a always unconstrain thm proofs; wenzelm parents: 37251 diff changeset	1532	fun prepare_thm_proof thy name shyps hyps concl promises body =
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1533	let
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1534	val PBody {oracles = oracles0, thms = thms0, proof = prf} = body;
32810 f3466a5645fa back to simple fold_body_thms and fulfill_proof/thm_proof (reverting a900d3cd47cc) -- the cycle check is implicit in the future computation of join_proofs; wenzelm parents: 32785 diff changeset	1535	val prop = Logic.list_implies (hyps, concl);
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1536	val nvs = needed_vars prop;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1537	val args = map (fn (v as Var (ixn, _)) =>
17492 714c95aab8bc shrink: compress terms and types; wenzelm parents: 17412 diff changeset	1538	if member (op =) nvs ixn then SOME v else NONE) (vars_of prop) @
28812 413695e07bd4 Frees in PThms are now quantified in the order of their appearance in the berghofe parents: 28803 diff changeset	1539	map SOME (frees_of prop);
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1540
37297 a1acd424645a always unconstrain thm proofs; wenzelm parents: 37251 diff changeset	1541	val ((atyp_map, constraints, outer_constraints), prop1) = Logic.unconstrainT shyps prop;
a1acd424645a always unconstrain thm proofs; wenzelm parents: 37251 diff changeset	1542	val postproc = unconstrainT_body thy (atyp_map, constraints);
a1acd424645a always unconstrain thm proofs; wenzelm parents: 37251 diff changeset	1543	val args1 =
a1acd424645a always unconstrain thm proofs; wenzelm parents: 37251 diff changeset	1544	(map o Option.map o Term.map_types o Term.map_atyps)
a1acd424645a always unconstrain thm proofs; wenzelm parents: 37251 diff changeset	1545	(Type.strip_sorts o atyp_map) args;
a1acd424645a always unconstrain thm proofs; wenzelm parents: 37251 diff changeset	1546	val argsP = map OfClass outer_constraints @ map Hyp hyps;
36882 f33760bb8ca0 conditionally unconstrain thm proofs -- loosely based on the version by krauss/schropp; wenzelm parents: 36880 diff changeset	1547
37251 72c7e636067b normalize and postprocess proof body in a separate future, taking care of platforms without multithreading (greately improves parallelization in general without the overhead of promised proofs, cf. usedir -q 0); wenzelm parents: 37236 diff changeset	1548	fun make_body0 proof0 = PBody {oracles = oracles0, thms = thms0, proof = proof0};
72c7e636067b normalize and postprocess proof body in a separate future, taking care of platforms without multithreading (greately improves parallelization in general without the overhead of promised proofs, cf. usedir -q 0); wenzelm parents: 37236 diff changeset	1549	val body0 =
52487 48bc24467008 backout dedd7952a62c: static "proofs" value within theory prevents later inferencing with different configuration; wenzelm parents: 52470 diff changeset	1550	if not (proofs_enabled ()) then Future.value (make_body0 MinProof)
41673 1c191a39549f support named tasks, for improved tracing; wenzelm parents: 41672 diff changeset	1551	else
44331 aa9c1e9ef2ce clarified fulfill_norm_proof: no join_thms yet; wenzelm parents: 44330 diff changeset	1552	(singleton o Future.cond_forks)
44302 0a1934c5c104 tuned; wenzelm parents: 44118 diff changeset	1553	{name = "Proofterm.prepare_thm_proof", group = NONE,
44332 e10f6b873f88 tuned future priorities (again); wenzelm parents: 44331 diff changeset	1554	deps = [], pri = 0, interrupts = true}
52696 38466f4f3483 immutable theory values with full stamp record of every update (increase of stamp size for HOL: 20000 -> 100000, JinjaThreads: 65000 -> 300000) -- minimal measurable impact on inference kernel performance; wenzelm parents: 52487 diff changeset	1555	(fn () =>
38466f4f3483 immutable theory values with full stamp record of every update (increase of stamp size for HOL: 20000 -> 100000, JinjaThreads: 65000 -> 300000) -- minimal measurable impact on inference kernel performance; wenzelm parents: 52487 diff changeset	1556	make_body0
38466f4f3483 immutable theory values with full stamp record of every update (increase of stamp size for HOL: 20000 -> 100000, JinjaThreads: 65000 -> 300000) -- minimal measurable impact on inference kernel performance; wenzelm parents: 52487 diff changeset	1557	(#4 (shrink_proof thy [] 0 (rew_proof thy (fold_rev implies_intr_proof hyps prf)))));
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1558
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: 44332 diff changeset	1559	fun new_prf () = (serial (), fulfill_proof_future thy promises postproc body0);
36880 49d3cc859a12 avoid redundant rebinding of name/prop -- probably introduced accidentally in 80bb72a0f577; wenzelm parents: 36879 diff changeset	1560	val (i, body') =
41699 21492e1c2b5a tuned comments; wenzelm parents: 41698 diff changeset	1561	(non-deterministic, depends on unknown promises)
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1562	(case strip_combt (fst (strip_combP prf)) of
d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1563	(PThm (i, ((old_name, prop', NONE), body')), args') =>
36882 f33760bb8ca0 conditionally unconstrain thm proofs -- loosely based on the version by krauss/schropp; wenzelm parents: 36880 diff changeset	1564	if (old_name = "" orelse old_name = name) andalso prop1 = prop' andalso args = args'
36880 49d3cc859a12 avoid redundant rebinding of name/prop -- probably introduced accidentally in 80bb72a0f577; wenzelm parents: 36879 diff changeset	1565	then (i, body')
28803 d90258bbb18f reworked type proof: MinProof is vacous, added Promise, refined PThm (with serial); wenzelm parents: 28329 diff changeset	1566	else new_prf ()
28815 80bb72a0f577 proof_body/pthm: removed redundant types field; wenzelm parents: 28812 diff changeset	1567	\| _ => new_prf ());
36882 f33760bb8ca0 conditionally unconstrain thm proofs -- loosely based on the version by krauss/schropp; wenzelm parents: 36880 diff changeset	1568	val head = PThm (i, ((name, prop1, NONE), body'));
36883 4ed0d72def50 added Proofterm.unconstrain_thm_proof for Thm.unconstrainT -- loosely based on the version by krauss/schropp; wenzelm parents: 36882 diff changeset	1569	in ((i, (name, prop1, body')), head, args, argsP, args1) end;
4ed0d72def50 added Proofterm.unconstrain_thm_proof for Thm.unconstrainT -- loosely based on the version by krauss/schropp; wenzelm parents: 36882 diff changeset	1570
4ed0d72def50 added Proofterm.unconstrain_thm_proof for Thm.unconstrainT -- loosely based on the version by krauss/schropp; wenzelm parents: 36882 diff changeset	1571	fun thm_proof thy name shyps hyps concl promises body =
37297 a1acd424645a always unconstrain thm proofs; wenzelm parents: 37251 diff changeset	1572	let val (pthm, head, args, argsP, _) = prepare_thm_proof thy name shyps hyps concl promises body
36883 4ed0d72def50 added Proofterm.unconstrain_thm_proof for Thm.unconstrainT -- loosely based on the version by krauss/schropp; wenzelm parents: 36882 diff changeset	1573	in (pthm, proof_combP (proof_combt' (head, args), argsP)) end;
4ed0d72def50 added Proofterm.unconstrain_thm_proof for Thm.unconstrainT -- loosely based on the version by krauss/schropp; wenzelm parents: 36882 diff changeset	1574
4ed0d72def50 added Proofterm.unconstrain_thm_proof for Thm.unconstrainT -- loosely based on the version by krauss/schropp; wenzelm parents: 36882 diff changeset	1575	fun unconstrain_thm_proof thy shyps concl promises body =
4ed0d72def50 added Proofterm.unconstrain_thm_proof for Thm.unconstrainT -- loosely based on the version by krauss/schropp; wenzelm parents: 36882 diff changeset	1576	let
37297 a1acd424645a always unconstrain thm proofs; wenzelm parents: 37251 diff changeset	1577	val (pthm, head, _, _, args) = prepare_thm_proof thy "" shyps [] concl promises body
36883 4ed0d72def50 added Proofterm.unconstrain_thm_proof for Thm.unconstrainT -- loosely based on the version by krauss/schropp; wenzelm parents: 36882 diff changeset	1578	in (pthm, proof_combt' (head, args)) end;
4ed0d72def50 added Proofterm.unconstrain_thm_proof for Thm.unconstrainT -- loosely based on the version by krauss/schropp; wenzelm parents: 36882 diff changeset	1579
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1580
37297 a1acd424645a always unconstrain thm proofs; wenzelm parents: 37251 diff changeset	1581	fun get_name shyps hyps prop prf =
36877 7699f7fafde7 added Proofterm.get_name variants according to krauss/schropp; wenzelm parents: 36742 diff changeset	1582	let val (_, prop) = Logic.unconstrainT shyps (Logic.list_implies (hyps, prop)) in
7699f7fafde7 added Proofterm.get_name variants according to krauss/schropp; wenzelm parents: 36742 diff changeset	1583	(case strip_combt (fst (strip_combP prf)) of
7699f7fafde7 added Proofterm.get_name variants according to krauss/schropp; wenzelm parents: 36742 diff changeset	1584	(PThm (_, ((name, prop', _), _)), _) => if prop = prop' then name else ""
7699f7fafde7 added Proofterm.get_name variants according to krauss/schropp; wenzelm parents: 36742 diff changeset	1585	\| _ => "")
7699f7fafde7 added Proofterm.get_name variants according to krauss/schropp; wenzelm parents: 36742 diff changeset	1586	end;
7699f7fafde7 added Proofterm.get_name variants according to krauss/schropp; wenzelm parents: 36742 diff changeset	1587
7699f7fafde7 added Proofterm.get_name variants according to krauss/schropp; wenzelm parents: 36742 diff changeset	1588	fun guess_name (PThm (_, ((name, _, _), _))) = name
7699f7fafde7 added Proofterm.get_name variants according to krauss/schropp; wenzelm parents: 36742 diff changeset	1589	\| guess_name (prf %% Hyp _) = guess_name prf
7699f7fafde7 added Proofterm.get_name variants according to krauss/schropp; wenzelm parents: 36742 diff changeset	1590	\| guess_name (prf %% OfClass _) = guess_name prf
7699f7fafde7 added Proofterm.get_name variants according to krauss/schropp; wenzelm parents: 36742 diff changeset	1591	\| guess_name (prf % NONE) = guess_name prf
7699f7fafde7 added Proofterm.get_name variants according to krauss/schropp; wenzelm parents: 36742 diff changeset	1592	\| guess_name (prf % SOME (Var _)) = guess_name prf
7699f7fafde7 added Proofterm.get_name variants according to krauss/schropp; wenzelm parents: 36742 diff changeset	1593	\| guess_name _ = "";
7699f7fafde7 added Proofterm.get_name variants according to krauss/schropp; wenzelm parents: 36742 diff changeset	1594
11519 0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1595	end;
0c96830636a1 New implementation of LF style proof terms. berghofe parents: diff changeset	1596
32094 89b9210c7506 prefer simultaneous join -- for improved scheduling; wenzelm parents: 32057 diff changeset	1597	structure Basic_Proofterm : BASIC_PROOFTERM = Proofterm;
89b9210c7506 prefer simultaneous join -- for improved scheduling; wenzelm parents: 32057 diff changeset	1598	open Basic_Proofterm;

author	wenzelm
	Tue, 08 Mar 2016 11:18:21 +0100
changeset 62555	fd6e64133684
parent 59787	6e2a20486897
child 62538	85ebb645b1a3
permissions	-rw-r--r--