isabelle: src/HOL/Tools/BNF/bnf_fp_def_sugar.ML@1c4842b32bfb (annotated)

55061 a0adf838e2d1 adjusted comments blanchet parents: 55060 diff changeset	1	(* Title: HOL/Tools/BNF/bnf_fp_def_sugar.ML
49112 4de4635d8f93 started work on sugared "(co)data" commands blanchet parents: diff changeset	2	Author: Jasmin Blanchette, TU Muenchen
57668 09d2b853b20c tuning blanchet parents: 57665 diff changeset	3	Author: Martin Desharnais, TU Muenchen
09d2b853b20c tuning blanchet parents: 57665 diff changeset	4	Copyright 2012, 2013, 2014
49112 4de4635d8f93 started work on sugared "(co)data" commands blanchet parents: diff changeset	5
49389 da621dc65146 tuning blanchet parents: 49381 diff changeset	6	Sugared datatype and codatatype constructions.
49112 4de4635d8f93 started work on sugared "(co)data" commands blanchet parents: diff changeset	7	*)
4de4635d8f93 started work on sugared "(co)data" commands blanchet parents: diff changeset	8
49636 b7256a88a84b renamed ML file in preparation for next step blanchet parents: 49633 diff changeset	9	signature BNF_FP_DEF_SUGAR =
49112 4de4635d8f93 started work on sugared "(co)data" commands blanchet parents: diff changeset	10	sig
58460 a88eb33058f7 refactor fp_sugar move theorems desharna parents: 58459 diff changeset	11	type fp_ctr_sugar =
a88eb33058f7 refactor fp_sugar move theorems desharna parents: 58459 diff changeset	12	{ctrXs_Tss: typ list list,
62321 1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	13	ctor_iff_dtor: thm,
58460 a88eb33058f7 refactor fp_sugar move theorems desharna parents: 58459 diff changeset	14	ctr_defs: thm list,
58569 3f61adcc1fc9 add 'ctr_transfers' to 'fp_sugar' desharna parents: 58568 diff changeset	15	ctr_sugar: Ctr_Sugar.ctr_sugar,
58570 a3434015faf0 add 'case_transfers' to 'fp_sugar' desharna parents: 58569 diff changeset	16	ctr_transfers: thm list,
58571 d78b00f98de8 add 'disc_transfers' to 'fp_sugar' desharna parents: 58570 diff changeset	17	case_transfers: thm list,
58676 cdf84b6e1297 generate 'sel_transfer' for (co)datatypes desharna parents: 58675 diff changeset	18	disc_transfers: thm list,
cdf84b6e1297 generate 'sel_transfer' for (co)datatypes desharna parents: 58675 diff changeset	19	sel_transfers: thm list}
58458 0c9d59cb3af9 refactor fp_sugar move theorems desharna parents: 58457 diff changeset	20
0c9d59cb3af9 refactor fp_sugar move theorems desharna parents: 58457 diff changeset	21	type fp_bnf_sugar =
58462 b46874f2090f refactor fp_sugar move theorems desharna parents: 58461 diff changeset	22	{map_thms: thm list,
58560 ee502a9b38aa add 'map_disc_iffs' to 'fp_sugar' desharna parents: 58507 diff changeset	23	map_disc_iffs: thm list,
58672 3f0d612ebd8e preserve the structure of 'map_sel' theorem in ML desharna parents: 58671 diff changeset	24	map_selss: thm list list,
58462 b46874f2090f refactor fp_sugar move theorems desharna parents: 58461 diff changeset	25	rel_injects: thm list,
58562 e94cd4f71d0c add 'rel_sels' to 'fp_sugar' desharna parents: 58561 diff changeset	26	rel_distincts: thm list,
58563 f5019700efa5 add 'rel_intros' to 'fp_sugar' desharna parents: 58562 diff changeset	27	rel_sels: thm list,
58564 778a80674112 add 'rel_cases' to 'fp_sugar' desharna parents: 58563 diff changeset	28	rel_intros: thm list,
58565 97cefa5ef0be add 'set_thms' to 'fp_sugar' desharna parents: 58564 diff changeset	29	rel_cases: thm list,
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	30	pred_injects: thm list,
58566 62aa83edad7e add 'set_sels' to 'fp_sugar' desharna parents: 58565 diff changeset	31	set_thms: thm list,
58671 4cc24f1e52d5 preserve the structure of 'set_sel' theorem in ML desharna parents: 58659 diff changeset	32	set_selssss: thm list list list list,
58673 add1a78da098 preserve the structure of 'set_intros' theorem in ML desharna parents: 58672 diff changeset	33	set_introssss: thm list list list list,
58568 727e014c6dbd add 'set_cases' to 'fp_sugar' desharna parents: 58567 diff changeset	34	set_cases: thm list}
58458 0c9d59cb3af9 refactor fp_sugar move theorems desharna parents: 58457 diff changeset	35
58459 f70bffabd7cf refactor fp_sugar move theorems desharna parents: 58458 diff changeset	36	type fp_co_induct_sugar =
58461 75ee8d49c724 refactor fp_sugar move theorems desharna parents: 58460 diff changeset	37	{co_rec: term,
75ee8d49c724 refactor fp_sugar move theorems desharna parents: 58460 diff changeset	38	common_co_inducts: thm list,
75ee8d49c724 refactor fp_sugar move theorems desharna parents: 58460 diff changeset	39	co_inducts: thm list,
75ee8d49c724 refactor fp_sugar move theorems desharna parents: 58460 diff changeset	40	co_rec_def: thm,
58459 f70bffabd7cf refactor fp_sugar move theorems desharna parents: 58458 diff changeset	41	co_rec_thms: thm list,
f70bffabd7cf refactor fp_sugar move theorems desharna parents: 58458 diff changeset	42	co_rec_discs: thm list,
58572 2e0cf67fa89f add 'co_rec_disc_iffs' to 'fp_sugar' desharna parents: 58571 diff changeset	43	co_rec_disc_iffs: thm list,
58573 04f5d23cd9e5 add 'co_rec_transfers' to 'fp_sugar' desharna parents: 58572 diff changeset	44	co_rec_selss: thm list list,
04f5d23cd9e5 add 'co_rec_transfers' to 'fp_sugar' desharna parents: 58572 diff changeset	45	co_rec_codes: thm list,
58574 e66ed9634a74 add 'common_rel_co_induct' to 'fp_sugar' desharna parents: 58573 diff changeset	46	co_rec_transfers: thm list,
58734 20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	47	co_rec_o_maps: thm list,
58575 629891fd8c51 add 'rel_co_inducts' to 'fp_sugar' desharna parents: 58574 diff changeset	48	common_rel_co_inducts: thm list,
58576 1f4a2d8142fe add 'common_set_inducts' to 'fp_sugar' desharna parents: 58575 diff changeset	49	rel_co_inducts: thm list,
58577 15337ad05370 add 'set_inducts' to 'fp_sugar' desharna parents: 58576 diff changeset	50	common_set_inducts: thm list,
15337ad05370 add 'set_inducts' to 'fp_sugar' desharna parents: 58576 diff changeset	51	set_inducts: thm list}
58457 01d9908477b3 refactor fp_sugar with empty substructures desharna parents: 58456 diff changeset	52
58180 95397823f39e moved code around blanchet parents: 58179 diff changeset	53	type fp_sugar =
95397823f39e moved code around blanchet parents: 58179 diff changeset	54	{T: typ,
95397823f39e moved code around blanchet parents: 58179 diff changeset	55	BT: typ,
95397823f39e moved code around blanchet parents: 58179 diff changeset	56	X: typ,
95397823f39e moved code around blanchet parents: 58179 diff changeset	57	fp: BNF_Util.fp_kind,
95397823f39e moved code around blanchet parents: 58179 diff changeset	58	fp_res_index: int,
95397823f39e moved code around blanchet parents: 58179 diff changeset	59	fp_res: BNF_FP_Util.fp_result,
95397823f39e moved code around blanchet parents: 58179 diff changeset	60	pre_bnf: BNF_Def.bnf,
58674 eb98d1971d2a add 'fp_bnf' to 'bnf_sugar' desharna parents: 58673 diff changeset	61	fp_bnf: BNF_Def.bnf,
58180 95397823f39e moved code around blanchet parents: 58179 diff changeset	62	absT_info: BNF_Comp.absT_info,
95397823f39e moved code around blanchet parents: 58179 diff changeset	63	fp_nesting_bnfs: BNF_Def.bnf list,
95397823f39e moved code around blanchet parents: 58179 diff changeset	64	live_nesting_bnfs: BNF_Def.bnf list,
58457 01d9908477b3 refactor fp_sugar with empty substructures desharna parents: 58456 diff changeset	65	fp_ctr_sugar: fp_ctr_sugar,
01d9908477b3 refactor fp_sugar with empty substructures desharna parents: 58456 diff changeset	66	fp_bnf_sugar: fp_bnf_sugar,
60152 7b051a6c9e28 tuning blanchet parents: 59948 diff changeset	67	fp_co_induct_sugar: fp_co_induct_sugar}
58180 95397823f39e moved code around blanchet parents: 58179 diff changeset	68
61348 d7215449be83 disable generation of 'case_transfer' for 'nibble', due to quadratic proof -- to make 'HOL-Proofs' happier blanchet parents: 61347 diff changeset	69	val transfer_plugin: string
d7215449be83 disable generation of 'case_transfer' for 'nibble', due to quadratic proof -- to make 'HOL-Proofs' happier blanchet parents: 61347 diff changeset	70
59276 d207455817e8 tuning blanchet parents: 59275 diff changeset	71	val co_induct_of: 'a list -> 'a
d207455817e8 tuning blanchet parents: 59275 diff changeset	72	val strong_co_induct_of: 'a list -> 'a
d207455817e8 tuning blanchet parents: 59275 diff changeset	73
58180 95397823f39e moved code around blanchet parents: 58179 diff changeset	74	val morph_fp_sugar: morphism -> fp_sugar -> fp_sugar
95397823f39e moved code around blanchet parents: 58179 diff changeset	75	val transfer_fp_sugar: theory -> fp_sugar -> fp_sugar
95397823f39e moved code around blanchet parents: 58179 diff changeset	76	val fp_sugar_of: Proof.context -> string -> fp_sugar option
95397823f39e moved code around blanchet parents: 58179 diff changeset	77	val fp_sugar_of_global: theory -> string -> fp_sugar option
95397823f39e moved code around blanchet parents: 58179 diff changeset	78	val fp_sugars_of: Proof.context -> fp_sugar list
95397823f39e moved code around blanchet parents: 58179 diff changeset	79	val fp_sugars_of_global: theory -> fp_sugar list
61760 1647bb489522 tuned whitespace blanchet parents: 61551 diff changeset	80	val fp_sugars_interpretation: string -> (fp_sugar list -> local_theory -> local_theory) ->
1647bb489522 tuned whitespace blanchet parents: 61551 diff changeset	81	theory -> theory
58188 cc71d2be4f0a introduced mechanism to filter interpretations blanchet parents: 58187 diff changeset	82	val interpret_fp_sugars: (string -> bool) -> fp_sugar list -> local_theory -> local_theory
58182 82478e6c60cb tweaked setup for datatype realizer blanchet parents: 58180 diff changeset	83	val register_fp_sugars_raw: fp_sugar list -> local_theory -> local_theory
58188 cc71d2be4f0a introduced mechanism to filter interpretations blanchet parents: 58187 diff changeset	84	val register_fp_sugars: (string -> bool) -> fp_sugar list -> local_theory -> local_theory
51852 23d938495367 refactoring blanchet parents: 51850 diff changeset	85
59276 d207455817e8 tuning blanchet parents: 59275 diff changeset	86	val mk_parametricity_goal: Proof.context -> term list -> term -> term -> term
53106 d81211f61a1b moved derivation of strong coinduction to sugar traytel parents: 53037 diff changeset	87
52868 cca9e958da5c export ML function (for primcorec) blanchet parents: 52823 diff changeset	88	val flat_corec_preds_predsss_gettersss: 'a list -> 'a list list list -> 'a list list list ->
cca9e958da5c export ML function (for primcorec) blanchet parents: 52823 diff changeset	89	'a list
59818 41f0804b7309 export more functions blanchet parents: 59794 diff changeset	90	val mk_ctor: typ list -> term -> term
41f0804b7309 export more functions blanchet parents: 59794 diff changeset	91	val mk_dtor: typ list -> term -> term
58230 61e4c96bf2b6 made code work also in the presence of deads blanchet parents: 58214 diff changeset	92	val liveness_of_fp_bnf: int -> BNF_Def.bnf -> bool list
57397 5004aca20821 tuned variable names blanchet parents: 57303 diff changeset	93	val nesting_bnfs: Proof.context -> typ list list list -> typ list -> BNF_Def.bnf list
53746 bd038e48526d have "datatype_new_compat" register induction and recursion theorems in nested case blanchet parents: 53741 diff changeset	94
58214 bd1754377965 properly note theorems for split recursors blanchet parents: 58211 diff changeset	95	type lfp_sugar_thms = (thm list * thm * Token.src list) * (thm list list * Token.src list)
53746 bd038e48526d have "datatype_new_compat" register induction and recursion theorems in nested case blanchet parents: 53741 diff changeset	96
54256 4843082be7ef added some N2M caching blanchet parents: 54253 diff changeset	97	val morph_lfp_sugar_thms: morphism -> lfp_sugar_thms -> lfp_sugar_thms
58115 bfde04fc5190 made transfer functions slightly more general blanchet parents: 58112 diff changeset	98	val transfer_lfp_sugar_thms: theory -> lfp_sugar_thms -> lfp_sugar_thms
54256 4843082be7ef added some N2M caching blanchet parents: 54253 diff changeset	99
53746 bd038e48526d have "datatype_new_compat" register induction and recursion theorems in nested case blanchet parents: 53741 diff changeset	100	type gfp_sugar_thms =
58011 bc6bced136e5 tuned signature -- moved type src to Token, without aliases; wenzelm parents: 57999 diff changeset	101	((thm list * thm) list * (Token.src list * Token.src list))
57489 8f0ba9f2d10f generate 'corec_code' theorem for codatatypes desharna parents: 57471 diff changeset	102	* thm list list
8f0ba9f2d10f generate 'corec_code' theorem for codatatypes desharna parents: 57471 diff changeset	103	* thm list list
58011 bc6bced136e5 tuned signature -- moved type src to Token, without aliases; wenzelm parents: 57999 diff changeset	104	* (thm list list * Token.src list)
bc6bced136e5 tuned signature -- moved type src to Token, without aliases; wenzelm parents: 57999 diff changeset	105	* (thm list list list * Token.src list)
53746 bd038e48526d have "datatype_new_compat" register induction and recursion theorems in nested case blanchet parents: 53741 diff changeset	106
54256 4843082be7ef added some N2M caching blanchet parents: 54253 diff changeset	107	val morph_gfp_sugar_thms: morphism -> gfp_sugar_thms -> gfp_sugar_thms
58115 bfde04fc5190 made transfer functions slightly more general blanchet parents: 58112 diff changeset	108	val transfer_gfp_sugar_thms: theory -> gfp_sugar_thms -> gfp_sugar_thms
54256 4843082be7ef added some N2M caching blanchet parents: 54253 diff changeset	109
61551 078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	110	val mk_co_recs_prelims: Proof.context -> BNF_Util.fp_kind -> typ list list list -> typ list ->
078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	111	typ list -> typ list -> typ list -> int list -> int list list -> term list ->
078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	112	term list
078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	113	* (typ list list * typ list list list list * term list list * term list list list list) option
078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	114	* (string * term list * term list list
078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	115	* (((term list list * term list list * term list list list list * term list list list list)
078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	116	* term list list list) * typ list)) option
55772 367ec44763fd correct most general type for mutual recursion when several identical types are involved blanchet parents: 55701 diff changeset	117	val repair_nullary_single_ctr: typ list list -> typ list list
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	118	val mk_corec_p_pred_types: typ list -> int list -> typ list list
79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	119	val mk_corec_fun_arg_types: typ list list list -> typ list -> typ list -> typ list -> int list ->
55803 74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	120	int list list -> term ->
74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	121	typ list list
74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	122	* (typ list list list list * typ list list list * typ list list list list * typ list)
58210 a456b2c03491 tuning blanchet parents: 58209 diff changeset	123	val define_co_rec_as: BNF_Util.fp_kind -> typ list -> typ -> binding -> term -> local_theory ->
58209 2e771e0e50ee export one more ML function blanchet parents: 58208 diff changeset	124	(term * thm) * local_theory
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	125	val define_rec:
56641 029997d3b5d8 reverted rb458558cbcc2 -- better to keep 'case' and 'rec' distinct, otherwise we lose the connection between 'ctor_rec' (the low-level recursor) and 'rec' blanchet parents: 56640 diff changeset	126	typ list list * typ list list list list * term list list * term list list list list ->
55862 b458558cbcc2 optimized simple non-recursive datatypes by reusing 'case' for 'rec' constant blanchet parents: 55861 diff changeset	127	(string -> binding) -> typ list -> typ list -> term list -> term -> Proof.context ->
55864 516ab2906e7e rationalized internals blanchet parents: 55863 diff changeset	128	(term * thm) * Proof.context
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	129	val define_corec: 'a * term list * term list list
58448 a1d4e7473c98 generate 'corec_transfer' for codatatypes desharna parents: 58446 diff changeset	130	* (((term list list * term list list * term list list list list * term list list list list)
a1d4e7473c98 generate 'corec_transfer' for codatatypes desharna parents: 58446 diff changeset	131	* term list list list) * typ list) -> (string -> binding) -> 'b list -> typ list ->
a1d4e7473c98 generate 'corec_transfer' for codatatypes desharna parents: 58446 diff changeset	132	term list -> term -> local_theory -> (term * thm) * local_theory
58214 bd1754377965 properly note theorems for split recursors blanchet parents: 58211 diff changeset	133	val mk_induct_attrs: term list list -> Token.src list
58283 71d74e641538 preserve case names in '(co)induct' theorems generated by prim(co)rec' blanchet parents: 58267 diff changeset	134	val mk_coinduct_attrs: typ list -> term list list -> term list list -> int list list ->
71d74e641538 preserve case names in '(co)induct' theorems generated by prim(co)rec' blanchet parents: 58267 diff changeset	135	Token.src list * Token.src list
58335 a5a3b576fcfb generate 'code' attribute only if 'code' plugin is enabled blanchet parents: 58332 diff changeset	136	val derive_induct_recs_thms_for_types: (string -> bool) -> BNF_Def.bnf list ->
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	137	('a * typ list list list list * term list list * 'b) option -> thm -> thm list ->
55862 b458558cbcc2 optimized simple non-recursive datatypes by reusing 'case' for 'rec' constant blanchet parents: 55861 diff changeset	138	BNF_Def.bnf list -> BNF_Def.bnf list -> typ list -> typ list -> typ list ->
b458558cbcc2 optimized simple non-recursive datatypes by reusing 'case' for 'rec' constant blanchet parents: 55861 diff changeset	139	typ list list list -> thm list -> thm list -> thm list -> term list list -> thm list list ->
55864 516ab2906e7e rationalized internals blanchet parents: 55863 diff changeset	140	term list -> thm list -> Proof.context -> lfp_sugar_thms
62395 4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	141	val derive_coinduct_thms_for_types: bool -> (term -> term) -> BNF_Def.bnf list -> thm ->
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	142	thm list -> BNF_Def.bnf list -> typ list -> typ list -> typ list list list -> int list ->
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	143	thm list -> thm list -> (thm -> thm) -> thm list list -> Ctr_Sugar.ctr_sugar list ->
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	144	Proof.context -> (thm list * thm) list
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	145	val derive_coinduct_corecs_thms_for_types: BNF_Def.bnf list ->
58448 a1d4e7473c98 generate 'corec_transfer' for codatatypes desharna parents: 58446 diff changeset	146	string * term list * term list list
a1d4e7473c98 generate 'corec_transfer' for codatatypes desharna parents: 58446 diff changeset	147	* (((term list list * term list list * term list list list list * term list list list list)
a1d4e7473c98 generate 'corec_transfer' for codatatypes desharna parents: 58446 diff changeset	148	* term list list list) * typ list) ->
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	149	thm -> thm list -> thm list -> thm list -> BNF_Def.bnf list -> typ list -> typ list ->
55803 74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	150	typ list -> typ list list list -> int list list -> int list list -> int list -> thm list ->
55864 516ab2906e7e rationalized internals blanchet parents: 55863 diff changeset	151	thm list -> (thm -> thm) -> thm list list -> Ctr_Sugar.ctr_sugar list -> term list ->
61334 8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	152	thm list -> Proof.context -> gfp_sugar_thms
55469 b19dd108f0c2 aligned the syntax for 'free_constructors' on the 'datatype_new' and 'codatatype' syntax blanchet parents: 55468 diff changeset	153
55575 a5e33e18fb5c moved 'primrec' up (for real this time) and removed temporary 'old_primrec' blanchet parents: 55573 diff changeset	154	val co_datatypes: BNF_Util.fp_kind -> (mixfix list -> binding list -> binding list ->
62324 ae44f16dcea5 make predicator a first-class bnf citizen traytel parents: 62322 diff changeset	155	binding list -> binding list list -> binding list -> (string * sort) list ->
ae44f16dcea5 make predicator a first-class bnf citizen traytel parents: 62322 diff changeset	156	typ list * typ list list -> BNF_Def.bnf list -> BNF_Comp.absT_info list -> local_theory ->
55803 74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	157	BNF_FP_Util.fp_result * local_theory) ->
58189 9d714be4f028 added 'plugins' option to control which hooks are enabled blanchet parents: 58188 diff changeset	158	Ctr_Sugar.ctr_options
57206 d9be905d6283 changed syntax of map: and rel: arguments to BNF-based datatypes blanchet parents: 57205 diff changeset	159	* ((((((binding option * (typ * sort)) list * binding) * mixfix)
62324 ae44f16dcea5 make predicator a first-class bnf citizen traytel parents: 62322 diff changeset	160	* ((binding, binding * typ) Ctr_Sugar.ctr_spec * mixfix) list) *
ae44f16dcea5 make predicator a first-class bnf citizen traytel parents: 62322 diff changeset	161	(binding * binding * binding))
57206 d9be905d6283 changed syntax of map: and rel: arguments to BNF-based datatypes blanchet parents: 57205 diff changeset	162	* term list) list ->
49297 47fbf2e3e89c provide a programmatic interface for FP sugar blanchet parents: 49287 diff changeset	163	local_theory -> local_theory
61301 484f7878ede4 export '_cmd' functions blanchet parents: 61259 diff changeset	164	val co_datatype_cmd: BNF_Util.fp_kind ->
62324 ae44f16dcea5 make predicator a first-class bnf citizen traytel parents: 62322 diff changeset	165	(mixfix list -> binding list -> binding list -> binding list -> binding list list ->
ae44f16dcea5 make predicator a first-class bnf citizen traytel parents: 62322 diff changeset	166	binding list -> (string * sort) list -> typ list * typ list list -> BNF_Def.bnf list ->
61301 484f7878ede4 export '_cmd' functions blanchet parents: 61259 diff changeset	167	BNF_Comp.absT_info list -> local_theory -> BNF_FP_Util.fp_result * Proof.context) ->
484f7878ede4 export '_cmd' functions blanchet parents: 61259 diff changeset	168	((Proof.context -> Plugin_Name.filter) * bool)
484f7878ede4 export '_cmd' functions blanchet parents: 61259 diff changeset	169	* ((((((binding option * (string * string option)) list * binding) * mixfix)
484f7878ede4 export '_cmd' functions blanchet parents: 61259 diff changeset	170	* ((binding, binding * string) Ctr_Sugar.ctr_spec * mixfix) list)
62324 ae44f16dcea5 make predicator a first-class bnf citizen traytel parents: 62322 diff changeset	171	* (binding * binding * binding)) * string list) list ->
61301 484f7878ede4 export '_cmd' functions blanchet parents: 61259 diff changeset	172	Proof.context -> local_theory
55575 a5e33e18fb5c moved 'primrec' up (for real this time) and removed temporary 'old_primrec' blanchet parents: 55573 diff changeset	173	val parse_co_datatype_cmd: BNF_Util.fp_kind -> (mixfix list -> binding list -> binding list ->
62324 ae44f16dcea5 make predicator a first-class bnf citizen traytel parents: 62322 diff changeset	174	binding list -> binding list list -> binding list -> (string * sort) list ->
ae44f16dcea5 make predicator a first-class bnf citizen traytel parents: 62322 diff changeset	175	typ list * typ list list -> BNF_Def.bnf list -> BNF_Comp.absT_info list -> local_theory ->
55803 74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	176	BNF_FP_Util.fp_result * local_theory) ->
49308 6190b701e4f4 reorganized dependencies so that the sugar does not depend on GFP -- this will be essential for bootstrapping blanchet parents: 49302 diff changeset	177	(local_theory -> local_theory) parser
49112 4de4635d8f93 started work on sugared "(co)data" commands blanchet parents: diff changeset	178	end;
4de4635d8f93 started work on sugared "(co)data" commands blanchet parents: diff changeset	179
49636 b7256a88a84b renamed ML file in preparation for next step blanchet parents: 49633 diff changeset	180	structure BNF_FP_Def_Sugar : BNF_FP_DEF_SUGAR =
49112 4de4635d8f93 started work on sugared "(co)data" commands blanchet parents: diff changeset	181	struct
4de4635d8f93 started work on sugared "(co)data" commands blanchet parents: diff changeset	182
54006 9fe1bd54d437 renamed theory file blanchet parents: 53974 diff changeset	183	open Ctr_Sugar
55571 a6153343c44f prepare two-stage 'primrec' setup blanchet parents: 55570 diff changeset	184	open BNF_FP_Rec_Sugar_Util
49119 1f605c36869c more work on FP sugar blanchet parents: 49112 diff changeset	185	open BNF_Util
53222 8b159677efb5 better error message blanchet parents: 53221 diff changeset	186	open BNF_Comp
49214 2a3cb4c71b87 construct the right iterator theorem in the recursive case blanchet parents: 49213 diff changeset	187	open BNF_Def
51850 106afdf5806c renamed a few FP-related files, to make it clear that these are not the sum of LFP + GFP but rather shared basic libraries blanchet parents: 51847 diff changeset	188	open BNF_FP_Util
49636 b7256a88a84b renamed ML file in preparation for next step blanchet parents: 49633 diff changeset	189	open BNF_FP_Def_Sugar_Tactics
49119 1f605c36869c more work on FP sugar blanchet parents: 49112 diff changeset	190
62321 1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	191	val Eq_prefix = "Eq_";
57489 8f0ba9f2d10f generate 'corec_code' theorem for codatatypes desharna parents: 57471 diff changeset	192
58093 6f37a300c82b generate 'case_transfer' for (co)datatypes desharna parents: 58044 diff changeset	193	val case_transferN = "case_transfer";
62321 1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	194	val ctor_iff_dtorN = "ctor_iff_dtor";
57999 412ec967e3b3 generate 'ctr_transfer' for (co)datatypes desharna parents: 57987 diff changeset	195	val ctr_transferN = "ctr_transfer";
58095 b280d4028443 generate 'disc_transfer' for (co)datatypes desharna parents: 58093 diff changeset	196	val disc_transferN = "disc_transfer";
58676 cdf84b6e1297 generate 'sel_transfer' for (co)datatypes desharna parents: 58675 diff changeset	197	val sel_transferN = "sel_transfer";
57489 8f0ba9f2d10f generate 'corec_code' theorem for codatatypes desharna parents: 57471 diff changeset	198	val corec_codeN = "corec_code";
58448 a1d4e7473c98 generate 'corec_transfer' for codatatypes desharna parents: 58446 diff changeset	199	val corec_transferN = "corec_transfer";
57983 6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	200	val map_disc_iffN = "map_disc_iff";
58734 20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	201	val map_o_corecN = "map_o_corec";
57983 6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	202	val map_selN = "map_sel";
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	203	val pred_injectN = "pred_inject";
58732 854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	204	val rec_o_mapN = "rec_o_map";
58446 e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	205	val rec_transferN = "rec_transfer";
57893 7bc128647d6e generate 'set_cases' theorem for (co)datatypes desharna parents: 57891 diff changeset	206	val set_casesN = "set_cases";
57891 d23a85b59dec generate 'set_intros' theorem for (co)datatypes desharna parents: 57890 diff changeset	207	val set_introsN = "set_intros";
57700 a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	208	val set_inductN = "set_induct";
57983 6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	209	val set_selN = "set_sel";
51777 48a0ae342ea0 generate proper attributes for coinduction rules blanchet parents: 51769 diff changeset	210
58460 a88eb33058f7 refactor fp_sugar move theorems desharna parents: 58459 diff changeset	211	type fp_ctr_sugar =
a88eb33058f7 refactor fp_sugar move theorems desharna parents: 58459 diff changeset	212	{ctrXs_Tss: typ list list,
62321 1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	213	ctor_iff_dtor: thm,
58460 a88eb33058f7 refactor fp_sugar move theorems desharna parents: 58459 diff changeset	214	ctr_defs: thm list,
58569 3f61adcc1fc9 add 'ctr_transfers' to 'fp_sugar' desharna parents: 58568 diff changeset	215	ctr_sugar: Ctr_Sugar.ctr_sugar,
58570 a3434015faf0 add 'case_transfers' to 'fp_sugar' desharna parents: 58569 diff changeset	216	ctr_transfers: thm list,
58571 d78b00f98de8 add 'disc_transfers' to 'fp_sugar' desharna parents: 58570 diff changeset	217	case_transfers: thm list,
58676 cdf84b6e1297 generate 'sel_transfer' for (co)datatypes desharna parents: 58675 diff changeset	218	disc_transfers: thm list,
cdf84b6e1297 generate 'sel_transfer' for (co)datatypes desharna parents: 58675 diff changeset	219	sel_transfers: thm list};
58458 0c9d59cb3af9 refactor fp_sugar move theorems desharna parents: 58457 diff changeset	220
0c9d59cb3af9 refactor fp_sugar move theorems desharna parents: 58457 diff changeset	221	type fp_bnf_sugar =
58462 b46874f2090f refactor fp_sugar move theorems desharna parents: 58461 diff changeset	222	{map_thms: thm list,
58560 ee502a9b38aa add 'map_disc_iffs' to 'fp_sugar' desharna parents: 58507 diff changeset	223	map_disc_iffs: thm list,
58672 3f0d612ebd8e preserve the structure of 'map_sel' theorem in ML desharna parents: 58671 diff changeset	224	map_selss: thm list list,
58462 b46874f2090f refactor fp_sugar move theorems desharna parents: 58461 diff changeset	225	rel_injects: thm list,
58562 e94cd4f71d0c add 'rel_sels' to 'fp_sugar' desharna parents: 58561 diff changeset	226	rel_distincts: thm list,
58563 f5019700efa5 add 'rel_intros' to 'fp_sugar' desharna parents: 58562 diff changeset	227	rel_sels: thm list,
58564 778a80674112 add 'rel_cases' to 'fp_sugar' desharna parents: 58563 diff changeset	228	rel_intros: thm list,
58565 97cefa5ef0be add 'set_thms' to 'fp_sugar' desharna parents: 58564 diff changeset	229	rel_cases: thm list,
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	230	pred_injects: thm list,
58566 62aa83edad7e add 'set_sels' to 'fp_sugar' desharna parents: 58565 diff changeset	231	set_thms: thm list,
58671 4cc24f1e52d5 preserve the structure of 'set_sel' theorem in ML desharna parents: 58659 diff changeset	232	set_selssss: thm list list list list,
58673 add1a78da098 preserve the structure of 'set_intros' theorem in ML desharna parents: 58672 diff changeset	233	set_introssss: thm list list list list,
58568 727e014c6dbd add 'set_cases' to 'fp_sugar' desharna parents: 58567 diff changeset	234	set_cases: thm list};
58458 0c9d59cb3af9 refactor fp_sugar move theorems desharna parents: 58457 diff changeset	235
58459 f70bffabd7cf refactor fp_sugar move theorems desharna parents: 58458 diff changeset	236	type fp_co_induct_sugar =
58461 75ee8d49c724 refactor fp_sugar move theorems desharna parents: 58460 diff changeset	237	{co_rec: term,
75ee8d49c724 refactor fp_sugar move theorems desharna parents: 58460 diff changeset	238	common_co_inducts: thm list,
75ee8d49c724 refactor fp_sugar move theorems desharna parents: 58460 diff changeset	239	co_inducts: thm list,
75ee8d49c724 refactor fp_sugar move theorems desharna parents: 58460 diff changeset	240	co_rec_def: thm,
58459 f70bffabd7cf refactor fp_sugar move theorems desharna parents: 58458 diff changeset	241	co_rec_thms: thm list,
f70bffabd7cf refactor fp_sugar move theorems desharna parents: 58458 diff changeset	242	co_rec_discs: thm list,
58572 2e0cf67fa89f add 'co_rec_disc_iffs' to 'fp_sugar' desharna parents: 58571 diff changeset	243	co_rec_disc_iffs: thm list,
58573 04f5d23cd9e5 add 'co_rec_transfers' to 'fp_sugar' desharna parents: 58572 diff changeset	244	co_rec_selss: thm list list,
04f5d23cd9e5 add 'co_rec_transfers' to 'fp_sugar' desharna parents: 58572 diff changeset	245	co_rec_codes: thm list,
58574 e66ed9634a74 add 'common_rel_co_induct' to 'fp_sugar' desharna parents: 58573 diff changeset	246	co_rec_transfers: thm list,
58734 20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	247	co_rec_o_maps: thm list,
58575 629891fd8c51 add 'rel_co_inducts' to 'fp_sugar' desharna parents: 58574 diff changeset	248	common_rel_co_inducts: thm list,
58576 1f4a2d8142fe add 'common_set_inducts' to 'fp_sugar' desharna parents: 58575 diff changeset	249	rel_co_inducts: thm list,
58577 15337ad05370 add 'set_inducts' to 'fp_sugar' desharna parents: 58576 diff changeset	250	common_set_inducts: thm list,
15337ad05370 add 'set_inducts' to 'fp_sugar' desharna parents: 58576 diff changeset	251	set_inducts: thm list};
58457 01d9908477b3 refactor fp_sugar with empty substructures desharna parents: 58456 diff changeset	252
58180 95397823f39e moved code around blanchet parents: 58179 diff changeset	253	type fp_sugar =
95397823f39e moved code around blanchet parents: 58179 diff changeset	254	{T: typ,
95397823f39e moved code around blanchet parents: 58179 diff changeset	255	BT: typ,
95397823f39e moved code around blanchet parents: 58179 diff changeset	256	X: typ,
95397823f39e moved code around blanchet parents: 58179 diff changeset	257	fp: fp_kind,
95397823f39e moved code around blanchet parents: 58179 diff changeset	258	fp_res_index: int,
95397823f39e moved code around blanchet parents: 58179 diff changeset	259	fp_res: fp_result,
95397823f39e moved code around blanchet parents: 58179 diff changeset	260	pre_bnf: bnf,
58674 eb98d1971d2a add 'fp_bnf' to 'bnf_sugar' desharna parents: 58673 diff changeset	261	fp_bnf: bnf,
58180 95397823f39e moved code around blanchet parents: 58179 diff changeset	262	absT_info: absT_info,
95397823f39e moved code around blanchet parents: 58179 diff changeset	263	fp_nesting_bnfs: bnf list,
95397823f39e moved code around blanchet parents: 58179 diff changeset	264	live_nesting_bnfs: bnf list,
58457 01d9908477b3 refactor fp_sugar with empty substructures desharna parents: 58456 diff changeset	265	fp_ctr_sugar: fp_ctr_sugar,
01d9908477b3 refactor fp_sugar with empty substructures desharna parents: 58456 diff changeset	266	fp_bnf_sugar: fp_bnf_sugar,
01d9908477b3 refactor fp_sugar with empty substructures desharna parents: 58456 diff changeset	267	fp_co_induct_sugar: fp_co_induct_sugar};
58180 95397823f39e moved code around blanchet parents: 58179 diff changeset	268
61348 d7215449be83 disable generation of 'case_transfer' for 'nibble', due to quadratic proof -- to make 'HOL-Proofs' happier blanchet parents: 61347 diff changeset	269	val transfer_plugin = Plugin_Name.declare_setup @{binding transfer};
d7215449be83 disable generation of 'case_transfer' for 'nibble', due to quadratic proof -- to make 'HOL-Proofs' happier blanchet parents: 61347 diff changeset	270
59276 d207455817e8 tuning blanchet parents: 59275 diff changeset	271	fun co_induct_of (i :: _) = i;
d207455817e8 tuning blanchet parents: 59275 diff changeset	272	fun strong_co_induct_of [_, s] = s;
d207455817e8 tuning blanchet parents: 59275 diff changeset	273
58672 3f0d612ebd8e preserve the structure of 'map_sel' theorem in ML desharna parents: 58671 diff changeset	274	fun morph_fp_bnf_sugar phi ({map_thms, map_disc_iffs, map_selss, rel_injects, rel_distincts,
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	275	rel_sels, rel_intros, rel_cases, pred_injects, set_thms, set_selssss, set_introssss,
58673 add1a78da098 preserve the structure of 'set_intros' theorem in ML desharna parents: 58672 diff changeset	276	set_cases} : fp_bnf_sugar) =
58462 b46874f2090f refactor fp_sugar move theorems desharna parents: 58461 diff changeset	277	{map_thms = map (Morphism.thm phi) map_thms,
58560 ee502a9b38aa add 'map_disc_iffs' to 'fp_sugar' desharna parents: 58507 diff changeset	278	map_disc_iffs = map (Morphism.thm phi) map_disc_iffs,
58672 3f0d612ebd8e preserve the structure of 'map_sel' theorem in ML desharna parents: 58671 diff changeset	279	map_selss = map (map (Morphism.thm phi)) map_selss,
58462 b46874f2090f refactor fp_sugar move theorems desharna parents: 58461 diff changeset	280	rel_injects = map (Morphism.thm phi) rel_injects,
58562 e94cd4f71d0c add 'rel_sels' to 'fp_sugar' desharna parents: 58561 diff changeset	281	rel_distincts = map (Morphism.thm phi) rel_distincts,
58563 f5019700efa5 add 'rel_intros' to 'fp_sugar' desharna parents: 58562 diff changeset	282	rel_sels = map (Morphism.thm phi) rel_sels,
58564 778a80674112 add 'rel_cases' to 'fp_sugar' desharna parents: 58563 diff changeset	283	rel_intros = map (Morphism.thm phi) rel_intros,
58565 97cefa5ef0be add 'set_thms' to 'fp_sugar' desharna parents: 58564 diff changeset	284	rel_cases = map (Morphism.thm phi) rel_cases,
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	285	pred_injects = map (Morphism.thm phi) pred_injects,
58566 62aa83edad7e add 'set_sels' to 'fp_sugar' desharna parents: 58565 diff changeset	286	set_thms = map (Morphism.thm phi) set_thms,
58671 4cc24f1e52d5 preserve the structure of 'set_sel' theorem in ML desharna parents: 58659 diff changeset	287	set_selssss = map (map (map (map (Morphism.thm phi)))) set_selssss,
58673 add1a78da098 preserve the structure of 'set_intros' theorem in ML desharna parents: 58672 diff changeset	288	set_introssss = map (map (map (map (Morphism.thm phi)))) set_introssss,
58568 727e014c6dbd add 'set_cases' to 'fp_sugar' desharna parents: 58567 diff changeset	289	set_cases = map (Morphism.thm phi) set_cases};
58458 0c9d59cb3af9 refactor fp_sugar move theorems desharna parents: 58457 diff changeset	290
58461 75ee8d49c724 refactor fp_sugar move theorems desharna parents: 58460 diff changeset	291	fun morph_fp_co_induct_sugar phi ({co_rec, common_co_inducts, co_inducts, co_rec_def, co_rec_thms,
58734 20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	292	co_rec_discs, co_rec_disc_iffs, co_rec_selss, co_rec_codes, co_rec_transfers, co_rec_o_maps,
58577 15337ad05370 add 'set_inducts' to 'fp_sugar' desharna parents: 58576 diff changeset	293	common_rel_co_inducts, rel_co_inducts, common_set_inducts, set_inducts} : fp_co_induct_sugar) =
58461 75ee8d49c724 refactor fp_sugar move theorems desharna parents: 58460 diff changeset	294	{co_rec = Morphism.term phi co_rec,
75ee8d49c724 refactor fp_sugar move theorems desharna parents: 58460 diff changeset	295	common_co_inducts = map (Morphism.thm phi) common_co_inducts,
75ee8d49c724 refactor fp_sugar move theorems desharna parents: 58460 diff changeset	296	co_inducts = map (Morphism.thm phi) co_inducts,
75ee8d49c724 refactor fp_sugar move theorems desharna parents: 58460 diff changeset	297	co_rec_def = Morphism.thm phi co_rec_def,
58459 f70bffabd7cf refactor fp_sugar move theorems desharna parents: 58458 diff changeset	298	co_rec_thms = map (Morphism.thm phi) co_rec_thms,
f70bffabd7cf refactor fp_sugar move theorems desharna parents: 58458 diff changeset	299	co_rec_discs = map (Morphism.thm phi) co_rec_discs,
58572 2e0cf67fa89f add 'co_rec_disc_iffs' to 'fp_sugar' desharna parents: 58571 diff changeset	300	co_rec_disc_iffs = map (Morphism.thm phi) co_rec_disc_iffs,
58573 04f5d23cd9e5 add 'co_rec_transfers' to 'fp_sugar' desharna parents: 58572 diff changeset	301	co_rec_selss = map (map (Morphism.thm phi)) co_rec_selss,
04f5d23cd9e5 add 'co_rec_transfers' to 'fp_sugar' desharna parents: 58572 diff changeset	302	co_rec_codes = map (Morphism.thm phi) co_rec_codes,
58574 e66ed9634a74 add 'common_rel_co_induct' to 'fp_sugar' desharna parents: 58573 diff changeset	303	co_rec_transfers = map (Morphism.thm phi) co_rec_transfers,
58734 20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	304	co_rec_o_maps = map (Morphism.thm phi) co_rec_o_maps,
58575 629891fd8c51 add 'rel_co_inducts' to 'fp_sugar' desharna parents: 58574 diff changeset	305	common_rel_co_inducts = map (Morphism.thm phi) common_rel_co_inducts,
58576 1f4a2d8142fe add 'common_set_inducts' to 'fp_sugar' desharna parents: 58575 diff changeset	306	rel_co_inducts = map (Morphism.thm phi) rel_co_inducts,
58577 15337ad05370 add 'set_inducts' to 'fp_sugar' desharna parents: 58576 diff changeset	307	common_set_inducts = map (Morphism.thm phi) common_set_inducts,
15337ad05370 add 'set_inducts' to 'fp_sugar' desharna parents: 58576 diff changeset	308	set_inducts = map (Morphism.thm phi) set_inducts};
58459 f70bffabd7cf refactor fp_sugar move theorems desharna parents: 58458 diff changeset	309
62321 1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	310	fun morph_fp_ctr_sugar phi ({ctrXs_Tss, ctor_iff_dtor, ctr_defs, ctr_sugar, ctr_transfers,
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	311	case_transfers, disc_transfers, sel_transfers} : fp_ctr_sugar) =
58460 a88eb33058f7 refactor fp_sugar move theorems desharna parents: 58459 diff changeset	312	{ctrXs_Tss = map (map (Morphism.typ phi)) ctrXs_Tss,
62321 1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	313	ctor_iff_dtor = Morphism.thm phi ctor_iff_dtor,
58460 a88eb33058f7 refactor fp_sugar move theorems desharna parents: 58459 diff changeset	314	ctr_defs = map (Morphism.thm phi) ctr_defs,
58569 3f61adcc1fc9 add 'ctr_transfers' to 'fp_sugar' desharna parents: 58568 diff changeset	315	ctr_sugar = morph_ctr_sugar phi ctr_sugar,
58570 a3434015faf0 add 'case_transfers' to 'fp_sugar' desharna parents: 58569 diff changeset	316	ctr_transfers = map (Morphism.thm phi) ctr_transfers,
58571 d78b00f98de8 add 'disc_transfers' to 'fp_sugar' desharna parents: 58570 diff changeset	317	case_transfers = map (Morphism.thm phi) case_transfers,
58676 cdf84b6e1297 generate 'sel_transfer' for (co)datatypes desharna parents: 58675 diff changeset	318	disc_transfers = map (Morphism.thm phi) disc_transfers,
cdf84b6e1297 generate 'sel_transfer' for (co)datatypes desharna parents: 58675 diff changeset	319	sel_transfers = map (Morphism.thm phi) sel_transfers};
58460 a88eb33058f7 refactor fp_sugar move theorems desharna parents: 58459 diff changeset	320
58674 eb98d1971d2a add 'fp_bnf' to 'bnf_sugar' desharna parents: 58673 diff changeset	321	fun morph_fp_sugar phi ({T, BT, X, fp, fp_res, fp_res_index, pre_bnf, fp_bnf, absT_info,
eb98d1971d2a add 'fp_bnf' to 'bnf_sugar' desharna parents: 58673 diff changeset	322	fp_nesting_bnfs, live_nesting_bnfs, fp_ctr_sugar, fp_bnf_sugar,
58460 a88eb33058f7 refactor fp_sugar move theorems desharna parents: 58459 diff changeset	323	fp_co_induct_sugar} : fp_sugar) =
58180 95397823f39e moved code around blanchet parents: 58179 diff changeset	324	{T = Morphism.typ phi T,
95397823f39e moved code around blanchet parents: 58179 diff changeset	325	BT = Morphism.typ phi BT,
95397823f39e moved code around blanchet parents: 58179 diff changeset	326	X = Morphism.typ phi X,
95397823f39e moved code around blanchet parents: 58179 diff changeset	327	fp = fp,
95397823f39e moved code around blanchet parents: 58179 diff changeset	328	fp_res = morph_fp_result phi fp_res,
95397823f39e moved code around blanchet parents: 58179 diff changeset	329	fp_res_index = fp_res_index,
95397823f39e moved code around blanchet parents: 58179 diff changeset	330	pre_bnf = morph_bnf phi pre_bnf,
58674 eb98d1971d2a add 'fp_bnf' to 'bnf_sugar' desharna parents: 58673 diff changeset	331	fp_bnf = morph_bnf phi fp_bnf,
58180 95397823f39e moved code around blanchet parents: 58179 diff changeset	332	absT_info = morph_absT_info phi absT_info,
95397823f39e moved code around blanchet parents: 58179 diff changeset	333	fp_nesting_bnfs = map (morph_bnf phi) fp_nesting_bnfs,
95397823f39e moved code around blanchet parents: 58179 diff changeset	334	live_nesting_bnfs = map (morph_bnf phi) live_nesting_bnfs,
58460 a88eb33058f7 refactor fp_sugar move theorems desharna parents: 58459 diff changeset	335	fp_ctr_sugar = morph_fp_ctr_sugar phi fp_ctr_sugar,
58458 0c9d59cb3af9 refactor fp_sugar move theorems desharna parents: 58457 diff changeset	336	fp_bnf_sugar = morph_fp_bnf_sugar phi fp_bnf_sugar,
58459 f70bffabd7cf refactor fp_sugar move theorems desharna parents: 58458 diff changeset	337	fp_co_induct_sugar = morph_fp_co_induct_sugar phi fp_co_induct_sugar};
58180 95397823f39e moved code around blanchet parents: 58179 diff changeset	338
95397823f39e moved code around blanchet parents: 58179 diff changeset	339	val transfer_fp_sugar = morph_fp_sugar o Morphism.transfer_morphism;
95397823f39e moved code around blanchet parents: 58179 diff changeset	340
51823 38996458bc5c create data structure for storing (co)datatype information blanchet parents: 51819 diff changeset	341	structure Data = Generic_Data
38996458bc5c create data structure for storing (co)datatype information blanchet parents: 51819 diff changeset	342	(
51840 b304fb6c5ef5 renamed records blanchet parents: 51839 diff changeset	343	type T = fp_sugar Symtab.table;
51823 38996458bc5c create data structure for storing (co)datatype information blanchet parents: 51819 diff changeset	344	val empty = Symtab.empty;
38996458bc5c create data structure for storing (co)datatype information blanchet parents: 51819 diff changeset	345	val extend = I;
55394 d5ebe055b599 more liberal merging of BNFs and constructor sugar blanchet parents: 55356 diff changeset	346	fun merge data : T = Symtab.merge (K true) data;
51823 38996458bc5c create data structure for storing (co)datatype information blanchet parents: 51819 diff changeset	347	);
38996458bc5c create data structure for storing (co)datatype information blanchet parents: 51819 diff changeset	348
58116 1a9ac371e5a0 added theory-based getters for convenience blanchet parents: 58115 diff changeset	349	fun fp_sugar_of_generic context =
61760 1647bb489522 tuned whitespace blanchet parents: 61551 diff changeset	350	Option.map (transfer_fp_sugar (Context.theory_of context)) o Symtab.lookup (Data.get context);
58116 1a9ac371e5a0 added theory-based getters for convenience blanchet parents: 58115 diff changeset	351
1a9ac371e5a0 added theory-based getters for convenience blanchet parents: 58115 diff changeset	352	fun fp_sugars_of_generic context =
1a9ac371e5a0 added theory-based getters for convenience blanchet parents: 58115 diff changeset	353	Symtab.fold (cons o transfer_fp_sugar (Context.theory_of context) o snd) (Data.get context) [];
53907 d177eb989c65 added data query function blanchet parents: 53901 diff changeset	354
58116 1a9ac371e5a0 added theory-based getters for convenience blanchet parents: 58115 diff changeset	355	val fp_sugar_of = fp_sugar_of_generic o Context.Proof;
1a9ac371e5a0 added theory-based getters for convenience blanchet parents: 58115 diff changeset	356	val fp_sugar_of_global = fp_sugar_of_generic o Context.Theory;
1a9ac371e5a0 added theory-based getters for convenience blanchet parents: 58115 diff changeset	357
1a9ac371e5a0 added theory-based getters for convenience blanchet parents: 58115 diff changeset	358	val fp_sugars_of = fp_sugars_of_generic o Context.Proof;
1a9ac371e5a0 added theory-based getters for convenience blanchet parents: 58115 diff changeset	359	val fp_sugars_of_global = fp_sugars_of_generic o Context.Theory;
51823 38996458bc5c create data structure for storing (co)datatype information blanchet parents: 51819 diff changeset	360
58659 6c9821c32dd5 Local_Interpretation is superseded by Plugin with formal Plugin_Name management, avoiding undeclared strings; wenzelm parents: 58634 diff changeset	361	structure FP_Sugar_Plugin = Plugin(type T = fp_sugar list);
56347 6edbd4d20717 added new-style (co)datatype interpretation hook blanchet parents: 56254 diff changeset	362
58659 6c9821c32dd5 Local_Interpretation is superseded by Plugin with formal Plugin_Name management, avoiding undeclared strings; wenzelm parents: 58634 diff changeset	363	fun fp_sugars_interpretation name f =
62322 d2db9719ffb8 tuning blanchet parents: 62321 diff changeset	364	FP_Sugar_Plugin.interpretation name (fn fp_sugars => fn lthy =>
d2db9719ffb8 tuning blanchet parents: 62321 diff changeset	365	f (map (transfer_fp_sugar (Proof_Context.theory_of lthy)) fp_sugars) lthy);
56376 5a93b8f928a2 added same idiomatic handling of namings for Ctr_Sugar/BNF-related interpretation hooks as for typedef and (old-style) datatypes blanchet parents: 56347 diff changeset	366
58659 6c9821c32dd5 Local_Interpretation is superseded by Plugin with formal Plugin_Name management, avoiding undeclared strings; wenzelm parents: 58634 diff changeset	367	val interpret_fp_sugars = FP_Sugar_Plugin.data;
56347 6edbd4d20717 added new-style (co)datatype interpretation hook blanchet parents: 56254 diff changeset	368
62322 d2db9719ffb8 tuning blanchet parents: 62321 diff changeset	369	val register_fp_sugars_raw =
56648 2ffa440b3074 manual merge + added 'rel_distincts' field to record for symmetry blanchet parents: 56641 diff changeset	370	fold (fn fp_sugar as {T = Type (s, _), ...} =>
62322 d2db9719ffb8 tuning blanchet parents: 62321 diff changeset	371	Local_Theory.declaration {syntax = false, pervasive = true}
d2db9719ffb8 tuning blanchet parents: 62321 diff changeset	372	(fn phi => Data.map (Symtab.update (s, morph_fp_sugar phi fp_sugar))));
58182 82478e6c60cb tweaked setup for datatype realizer blanchet parents: 58180 diff changeset	373
58189 9d714be4f028 added 'plugins' option to control which hooks are enabled blanchet parents: 58188 diff changeset	374	fun register_fp_sugars plugins fp_sugars =
9d714be4f028 added 'plugins' option to control which hooks are enabled blanchet parents: 58188 diff changeset	375	register_fp_sugars_raw fp_sugars #> interpret_fp_sugars plugins fp_sugars;
51823 38996458bc5c create data structure for storing (co)datatype information blanchet parents: 51819 diff changeset	376
58189 9d714be4f028 added 'plugins' option to control which hooks are enabled blanchet parents: 58188 diff changeset	377	fun interpret_bnfs_register_fp_sugars plugins Ts BTs Xs fp pre_bnfs absT_infos fp_nesting_bnfs
62321 1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	378	live_nesting_bnfs fp_res ctrXs_Tsss ctor_iff_dtors ctr_defss ctr_sugars co_recs co_rec_defs
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	379	map_thmss common_co_inducts co_inductss co_rec_thmss co_rec_discss co_rec_selsss rel_injectss
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	380	rel_distinctss map_disc_iffss map_selsss rel_selss rel_intross rel_casess pred_injectss
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	381	set_thmss set_selsssss set_introsssss set_casess ctr_transferss case_transferss disc_transferss
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	382	co_rec_disc_iffss co_rec_codess co_rec_transferss common_rel_co_inducts rel_co_inductss
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	383	common_set_inducts set_inductss sel_transferss co_rec_o_mapss noted =
56637 d1d55f1bbc8a invoke 'fp_sugar' interpretation hook on mutually recursive clique blanchet parents: 56523 diff changeset	384	let
d1d55f1bbc8a invoke 'fp_sugar' interpretation hook on mutually recursive clique blanchet parents: 56523 diff changeset	385	val fp_sugars =
d1d55f1bbc8a invoke 'fp_sugar' interpretation hook on mutually recursive clique blanchet parents: 56523 diff changeset	386	map_index (fn (kk, T) =>
56648 2ffa440b3074 manual merge + added 'rel_distincts' field to record for symmetry blanchet parents: 56641 diff changeset	387	{T = T, BT = nth BTs kk, X = nth Xs kk, fp = fp, fp_res = fp_res, fp_res_index = kk,
57397 5004aca20821 tuned variable names blanchet parents: 57303 diff changeset	388	pre_bnf = nth pre_bnfs kk, absT_info = nth absT_infos kk,
58674 eb98d1971d2a add 'fp_bnf' to 'bnf_sugar' desharna parents: 58673 diff changeset	389	fp_bnf = nth (#bnfs fp_res) kk,
57397 5004aca20821 tuned variable names blanchet parents: 57303 diff changeset	390	fp_nesting_bnfs = fp_nesting_bnfs, live_nesting_bnfs = live_nesting_bnfs,
58460 a88eb33058f7 refactor fp_sugar move theorems desharna parents: 58459 diff changeset	391	fp_ctr_sugar =
a88eb33058f7 refactor fp_sugar move theorems desharna parents: 58459 diff changeset	392	{ctrXs_Tss = nth ctrXs_Tsss kk,
62321 1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	393	ctor_iff_dtor = nth ctor_iff_dtors kk,
58460 a88eb33058f7 refactor fp_sugar move theorems desharna parents: 58459 diff changeset	394	ctr_defs = nth ctr_defss kk,
58569 3f61adcc1fc9 add 'ctr_transfers' to 'fp_sugar' desharna parents: 58568 diff changeset	395	ctr_sugar = nth ctr_sugars kk,
58570 a3434015faf0 add 'case_transfers' to 'fp_sugar' desharna parents: 58569 diff changeset	396	ctr_transfers = nth ctr_transferss kk,
58571 d78b00f98de8 add 'disc_transfers' to 'fp_sugar' desharna parents: 58570 diff changeset	397	case_transfers = nth case_transferss kk,
58676 cdf84b6e1297 generate 'sel_transfer' for (co)datatypes desharna parents: 58675 diff changeset	398	disc_transfers = nth disc_transferss kk,
cdf84b6e1297 generate 'sel_transfer' for (co)datatypes desharna parents: 58675 diff changeset	399	sel_transfers = nth sel_transferss kk},
58459 f70bffabd7cf refactor fp_sugar move theorems desharna parents: 58458 diff changeset	400	fp_bnf_sugar =
58462 b46874f2090f refactor fp_sugar move theorems desharna parents: 58461 diff changeset	401	{map_thms = nth map_thmss kk,
58560 ee502a9b38aa add 'map_disc_iffs' to 'fp_sugar' desharna parents: 58507 diff changeset	402	map_disc_iffs = nth map_disc_iffss kk,
58672 3f0d612ebd8e preserve the structure of 'map_sel' theorem in ML desharna parents: 58671 diff changeset	403	map_selss = nth map_selsss kk,
58462 b46874f2090f refactor fp_sugar move theorems desharna parents: 58461 diff changeset	404	rel_injects = nth rel_injectss kk,
58562 e94cd4f71d0c add 'rel_sels' to 'fp_sugar' desharna parents: 58561 diff changeset	405	rel_distincts = nth rel_distinctss kk,
58563 f5019700efa5 add 'rel_intros' to 'fp_sugar' desharna parents: 58562 diff changeset	406	rel_sels = nth rel_selss kk,
58564 778a80674112 add 'rel_cases' to 'fp_sugar' desharna parents: 58563 diff changeset	407	rel_intros = nth rel_intross kk,
58565 97cefa5ef0be add 'set_thms' to 'fp_sugar' desharna parents: 58564 diff changeset	408	rel_cases = nth rel_casess kk,
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	409	pred_injects = nth pred_injectss kk,
58566 62aa83edad7e add 'set_sels' to 'fp_sugar' desharna parents: 58565 diff changeset	410	set_thms = nth set_thmss kk,
58671 4cc24f1e52d5 preserve the structure of 'set_sel' theorem in ML desharna parents: 58659 diff changeset	411	set_selssss = nth set_selsssss kk,
58673 add1a78da098 preserve the structure of 'set_intros' theorem in ML desharna parents: 58672 diff changeset	412	set_introssss = nth set_introsssss kk,
58568 727e014c6dbd add 'set_cases' to 'fp_sugar' desharna parents: 58567 diff changeset	413	set_cases = nth set_casess kk},
58459 f70bffabd7cf refactor fp_sugar move theorems desharna parents: 58458 diff changeset	414	fp_co_induct_sugar =
58461 75ee8d49c724 refactor fp_sugar move theorems desharna parents: 58460 diff changeset	415	{co_rec = nth co_recs kk,
75ee8d49c724 refactor fp_sugar move theorems desharna parents: 58460 diff changeset	416	common_co_inducts = common_co_inducts,
75ee8d49c724 refactor fp_sugar move theorems desharna parents: 58460 diff changeset	417	co_inducts = nth co_inductss kk,
75ee8d49c724 refactor fp_sugar move theorems desharna parents: 58460 diff changeset	418	co_rec_def = nth co_rec_defs kk,
58459 f70bffabd7cf refactor fp_sugar move theorems desharna parents: 58458 diff changeset	419	co_rec_thms = nth co_rec_thmss kk,
f70bffabd7cf refactor fp_sugar move theorems desharna parents: 58458 diff changeset	420	co_rec_discs = nth co_rec_discss kk,
58572 2e0cf67fa89f add 'co_rec_disc_iffs' to 'fp_sugar' desharna parents: 58571 diff changeset	421	co_rec_disc_iffs = nth co_rec_disc_iffss kk,
58573 04f5d23cd9e5 add 'co_rec_transfers' to 'fp_sugar' desharna parents: 58572 diff changeset	422	co_rec_selss = nth co_rec_selsss kk,
04f5d23cd9e5 add 'co_rec_transfers' to 'fp_sugar' desharna parents: 58572 diff changeset	423	co_rec_codes = nth co_rec_codess kk,
58574 e66ed9634a74 add 'common_rel_co_induct' to 'fp_sugar' desharna parents: 58573 diff changeset	424	co_rec_transfers = nth co_rec_transferss kk,
58734 20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	425	co_rec_o_maps = nth co_rec_o_mapss kk,
58575 629891fd8c51 add 'rel_co_inducts' to 'fp_sugar' desharna parents: 58574 diff changeset	426	common_rel_co_inducts = common_rel_co_inducts,
58576 1f4a2d8142fe add 'common_set_inducts' to 'fp_sugar' desharna parents: 58575 diff changeset	427	rel_co_inducts = nth rel_co_inductss kk,
58577 15337ad05370 add 'set_inducts' to 'fp_sugar' desharna parents: 58576 diff changeset	428	common_set_inducts = common_set_inducts,
15337ad05370 add 'set_inducts' to 'fp_sugar' desharna parents: 58576 diff changeset	429	set_inducts = nth set_inductss kk}}
57633 4ff8c090d580 repaired named derivations blanchet parents: 57631 diff changeset	430	\|> morph_fp_sugar (substitute_noted_thm noted)) Ts;
56637 d1d55f1bbc8a invoke 'fp_sugar' interpretation hook on mutually recursive clique blanchet parents: 56523 diff changeset	431	in
58182 82478e6c60cb tweaked setup for datatype realizer blanchet parents: 58180 diff changeset	432	register_fp_sugars_raw fp_sugars
58189 9d714be4f028 added 'plugins' option to control which hooks are enabled blanchet parents: 58188 diff changeset	433	#> fold (interpret_bnf plugins) (#bnfs fp_res)
9d714be4f028 added 'plugins' option to control which hooks are enabled blanchet parents: 58188 diff changeset	434	#> interpret_fp_sugars plugins fp_sugars
56637 d1d55f1bbc8a invoke 'fp_sugar' interpretation hook on mutually recursive clique blanchet parents: 56523 diff changeset	435	end;
51824 27d073b0876c register all (co)datatypes in local data blanchet parents: 51823 diff changeset	436
49622 a93f976c3307 use a nicer scheme to indexify names blanchet parents: 49605 diff changeset	437	fun quasi_unambiguous_case_names names =
a93f976c3307 use a nicer scheme to indexify names blanchet parents: 49605 diff changeset	438	let
a93f976c3307 use a nicer scheme to indexify names blanchet parents: 49605 diff changeset	439	val ps = map (`Long_Name.base_name) names;
a93f976c3307 use a nicer scheme to indexify names blanchet parents: 49605 diff changeset	440	val dups = Library.duplicates (op =) (map fst ps);
a93f976c3307 use a nicer scheme to indexify names blanchet parents: 49605 diff changeset	441	fun underscore s =
59877 a04ea4709c8d more standard Long_Name operations; wenzelm parents: 59859 diff changeset	442	let val ss = Long_Name.explode s
a04ea4709c8d more standard Long_Name operations; wenzelm parents: 59859 diff changeset	443	in space_implode "_" (drop (length ss - 2) ss) end;
49622 a93f976c3307 use a nicer scheme to indexify names blanchet parents: 49605 diff changeset	444	in
a93f976c3307 use a nicer scheme to indexify names blanchet parents: 49605 diff changeset	445	map (fn (base, full) => if member (op =) dups base then underscore full else base) ps
58285 65720ad6dea0 avoid duplicate case names blanchet parents: 58284 diff changeset	446	\|> Name.variant_list []
49622 a93f976c3307 use a nicer scheme to indexify names blanchet parents: 49605 diff changeset	447	end;
a93f976c3307 use a nicer scheme to indexify names blanchet parents: 49605 diff changeset	448
58180 95397823f39e moved code around blanchet parents: 58179 diff changeset	449	fun zipper_map f =
95397823f39e moved code around blanchet parents: 58179 diff changeset	450	let
95397823f39e moved code around blanchet parents: 58179 diff changeset	451	fun zed _ [] = []
58686 15e5b44d5ed2 made SML/NJ happier blanchet parents: 58676 diff changeset	452	\| zed xs (y :: ys) = f (xs, y, ys) :: zed (xs @ [y]) ys;
58180 95397823f39e moved code around blanchet parents: 58179 diff changeset	453	in zed [] end;
95397823f39e moved code around blanchet parents: 58179 diff changeset	454
62383 f60085077ab0 tuning blanchet parents: 62335 diff changeset	455	fun unfla xs = fold_map (fn _ => fn (c :: cs) => (c, cs)) xs;
58686 15e5b44d5ed2 made SML/NJ happier blanchet parents: 58676 diff changeset	456	fun unflat xss = fold_map unfla xss;
15e5b44d5ed2 made SML/NJ happier blanchet parents: 58676 diff changeset	457	fun unflatt xsss = fold_map unflat xsss;
15e5b44d5ed2 made SML/NJ happier blanchet parents: 58676 diff changeset	458	fun unflattt xssss = fold_map unflatt xssss;
58671 4cc24f1e52d5 preserve the structure of 'set_sel' theorem in ML desharna parents: 58659 diff changeset	459
58675 69571f0a93df add 'kind' to 'cr_sugar' desharna parents: 58674 diff changeset	460	fun ctr_sugar_kind_of_fp_kind Least_FP = Datatype
58686 15e5b44d5ed2 made SML/NJ happier blanchet parents: 58676 diff changeset	461	\| ctr_sugar_kind_of_fp_kind Greatest_FP = Codatatype;
58675 69571f0a93df add 'kind' to 'cr_sugar' desharna parents: 58674 diff changeset	462
58265 cae4f3d14b05 prevent infinite loop when type variables are of a non-'type' sort blanchet parents: 58264 diff changeset	463	fun uncurry_thm 0 thm = thm
cae4f3d14b05 prevent infinite loop when type variables are of a non-'type' sort blanchet parents: 58264 diff changeset	464	\| uncurry_thm 1 thm = thm
cae4f3d14b05 prevent infinite loop when type variables are of a non-'type' sort blanchet parents: 58264 diff changeset	465	\| uncurry_thm n thm = rotate_prems ~1 (uncurry_thm (n - 1) (rotate_prems 1 (conjI RS thm)));
cae4f3d14b05 prevent infinite loop when type variables are of a non-'type' sort blanchet parents: 58264 diff changeset	466
58180 95397823f39e moved code around blanchet parents: 58179 diff changeset	467	fun choose_binary_fun fs AB =
95397823f39e moved code around blanchet parents: 58179 diff changeset	468	find_first (fastype_of #> binder_types #> (fn [A, B] => AB = (A, B))) fs;
95397823f39e moved code around blanchet parents: 58179 diff changeset	469	fun build_binary_fun_app fs t u =
95397823f39e moved code around blanchet parents: 58179 diff changeset	470	Option.map (rapp u o rapp t) (choose_binary_fun fs (fastype_of t, fastype_of u));
95397823f39e moved code around blanchet parents: 58179 diff changeset	471
62385 7891843d79bb tuning blanchet parents: 62383 diff changeset	472	fun build_the_rel ctxt Rs Ts A B =
7891843d79bb tuning blanchet parents: 62383 diff changeset	473	build_rel [] ctxt Ts (the o choose_binary_fun Rs) (A, B);
58180 95397823f39e moved code around blanchet parents: 58179 diff changeset	474	fun build_rel_app ctxt Rs Ts t u =
62385 7891843d79bb tuning blanchet parents: 62383 diff changeset	475	build_the_rel ctxt Rs Ts (fastype_of t) (fastype_of u) $ t $ u;
58180 95397823f39e moved code around blanchet parents: 58179 diff changeset	476
95397823f39e moved code around blanchet parents: 58179 diff changeset	477	fun mk_parametricity_goal ctxt Rs t u =
62385 7891843d79bb tuning blanchet parents: 62383 diff changeset	478	let val prem = build_the_rel ctxt Rs [] (fastype_of t) (fastype_of u) in
58180 95397823f39e moved code around blanchet parents: 58179 diff changeset	479	HOLogic.mk_Trueprop (prem $ t $ u)
95397823f39e moved code around blanchet parents: 58179 diff changeset	480	end;
95397823f39e moved code around blanchet parents: 58179 diff changeset	481
58284 f9b6af3017fd nicer case names in the N2M case, similar to those generated by the old package (e.g. 'Cons_tree' instead of just 'Cons') blanchet parents: 58283 diff changeset	482	val name_of_set = name_of_const "set function" domain_type;
58180 95397823f39e moved code around blanchet parents: 58179 diff changeset	483
55397 c2506f61fd26 generate 'fundec_cong' attribute for new-style (co)datatypes blanchet parents: 55394 diff changeset	484	val fundefcong_attrs = @{attributes [fundef_cong]};
54145 297d1c603999 make sure that registered code equations are actually equations blanchet parents: 54107 diff changeset	485	val nitpicksimp_attrs = @{attributes [nitpick_simp]};
49300 c707df2e2083 added attributes to theorems blanchet parents: 49298 diff changeset	486	val simp_attrs = @{attributes [simp]};
c707df2e2083 added attributes to theorems blanchet parents: 49298 diff changeset	487
49297 47fbf2e3e89c provide a programmatic interface for FP sugar blanchet parents: 49287 diff changeset	488	val lists_bmoc = fold (fn xs => fn t => Term.list_comb (t, xs));
49202 f493cd25737f some work towards iterator and recursor properties blanchet parents: 49201 diff changeset	489
55871 a28817253b31 removed (co)iterators from documentation blanchet parents: 55869 diff changeset	490	fun flat_corec_predss_getterss qss gss = maps (op @) (qss ~~ gss);
51829 3cc93eeac8cc signature tuning blanchet parents: 51828 diff changeset	491
55871 a28817253b31 removed (co)iterators from documentation blanchet parents: 55869 diff changeset	492	fun flat_corec_preds_predsss_gettersss [] [qss] [gss] = flat_corec_predss_getterss qss gss
a28817253b31 removed (co)iterators from documentation blanchet parents: 55869 diff changeset	493	\| flat_corec_preds_predsss_gettersss (p :: ps) (qss :: qsss) (gss :: gsss) =
a28817253b31 removed (co)iterators from documentation blanchet parents: 55869 diff changeset	494	p :: flat_corec_predss_getterss qss gss @ flat_corec_preds_predsss_gettersss ps qsss gsss;
51829 3cc93eeac8cc signature tuning blanchet parents: 51828 diff changeset	495
49585 5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	496	fun mk_flip (x, Type (_, [T1, Type (_, [T2, T3])])) =
5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	497	Abs ("x", T1, Abs ("y", T2, Var (x, T2 --> T1 --> T3) $ Bound 0 $ Bound 1));
5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	498
60784 4f590c08fd5d updated to infer_instantiate; wenzelm parents: 60737 diff changeset	499	fun flip_rels ctxt n thm =
49585 5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	500	let
59582 0fbed69ff081 tuned signature -- prefer qualified names; wenzelm parents: 59580 diff changeset	501	val Rs = Term.add_vars (Thm.prop_of thm) [];
49585 5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	502	val Rs' = rev (drop (length Rs - n) Rs);
5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	503	in
60784 4f590c08fd5d updated to infer_instantiate; wenzelm parents: 60737 diff changeset	504	infer_instantiate ctxt (map (fn f => (fst f, Thm.cterm_of ctxt (mk_flip f))) Rs') thm
49585 5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	505	end;
5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	506
49536 898aea2e7a94 started work on generation of "rel" theorems blanchet parents: 49518 diff changeset	507	fun mk_ctor_or_dtor get_T Ts t =
898aea2e7a94 started work on generation of "rel" theorems blanchet parents: 49518 diff changeset	508	let val Type (_, Ts0) = get_T (fastype_of t) in
898aea2e7a94 started work on generation of "rel" theorems blanchet parents: 49518 diff changeset	509	Term.subst_atomic_types (Ts0 ~~ Ts) t
898aea2e7a94 started work on generation of "rel" theorems blanchet parents: 49518 diff changeset	510	end;
898aea2e7a94 started work on generation of "rel" theorems blanchet parents: 49518 diff changeset	511
898aea2e7a94 started work on generation of "rel" theorems blanchet parents: 49518 diff changeset	512	val mk_ctor = mk_ctor_or_dtor range_type;
898aea2e7a94 started work on generation of "rel" theorems blanchet parents: 49518 diff changeset	513	val mk_dtor = mk_ctor_or_dtor domain_type;
898aea2e7a94 started work on generation of "rel" theorems blanchet parents: 49518 diff changeset	514
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	515	fun mk_xtor_co_recs thy fp fpTs Cs ts0 =
51911 6c425d450a8c more robust iterator construction (needed for mutualized FPs) blanchet parents: 51910 diff changeset	516	let
6c425d450a8c more robust iterator construction (needed for mutualized FPs) blanchet parents: 51910 diff changeset	517	val nn = length fpTs;
6c425d450a8c more robust iterator construction (needed for mutualized FPs) blanchet parents: 51910 diff changeset	518	val (fpTs0, Cs0) =
52207 21026c312cc3 tuning -- avoided unreadable true/false all over the place for LFP/GFP blanchet parents: 52197 diff changeset	519	map ((fp = Greatest_FP ? swap) o dest_funT o snd o strip_typeN nn o fastype_of) ts0
51911 6c425d450a8c more robust iterator construction (needed for mutualized FPs) blanchet parents: 51910 diff changeset	520	\|> split_list;
6c425d450a8c more robust iterator construction (needed for mutualized FPs) blanchet parents: 51910 diff changeset	521	val rho = tvar_subst thy (fpTs0 @ Cs0) (fpTs @ Cs);
6c425d450a8c more robust iterator construction (needed for mutualized FPs) blanchet parents: 51910 diff changeset	522	in
52170 564be617ae84 generalized "mk_co_iter" to handle mutualized (co)iterators blanchet parents: 52169 diff changeset	523	map (Term.subst_TVars rho) ts0
51911 6c425d450a8c more robust iterator construction (needed for mutualized FPs) blanchet parents: 51910 diff changeset	524	end;
51827 836257faaad5 tuned signature blanchet parents: 51824 diff changeset	525
57665 232954f7df1c tuned code blanchet parents: 57633 diff changeset	526	fun mk_set Ts t =
232954f7df1c tuned code blanchet parents: 57633 diff changeset	527	subst_nonatomic_types (snd (Term.dest_Type (domain_type (fastype_of t))) ~~ Ts) t;
232954f7df1c tuned code blanchet parents: 57633 diff changeset	528
52347 ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	529	fun liveness_of_fp_bnf n bnf =
ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	530	(case T_of_bnf bnf of
ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	531	Type (_, Ts) => map (not o member (op =) (deads_of_bnf bnf)) Ts
ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	532	\| _ => replicate n false);
ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	533
55700 cf6a029b28d8 more precise error message blanchet parents: 55699 diff changeset	534	fun cannot_merge_types fp =
cf6a029b28d8 more precise error message blanchet parents: 55699 diff changeset	535	error ("Mutually " ^ co_prefix fp ^ "recursive types must have the same type parameters");
52347 ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	536
55700 cf6a029b28d8 more precise error message blanchet parents: 55699 diff changeset	537	fun merge_type_arg fp T T' = if T = T' then T else cannot_merge_types fp;
52347 ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	538
55700 cf6a029b28d8 more precise error message blanchet parents: 55699 diff changeset	539	fun merge_type_args fp (As, As') =
cf6a029b28d8 more precise error message blanchet parents: 55699 diff changeset	540	if length As = length As' then map2 (merge_type_arg fp) As As' else cannot_merge_types fp;
52347 ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	541
57200 aab87ffa60cc use 'where' clause for selector default value syntax blanchet parents: 57199 diff changeset	542	fun type_args_named_constrained_of_spec (((((ncAs, _), _), _), _), _) = ncAs;
aab87ffa60cc use 'where' clause for selector default value syntax blanchet parents: 57199 diff changeset	543	fun type_binding_of_spec (((((_, b), _), _), _), _) = b;
57206 d9be905d6283 changed syntax of map: and rel: arguments to BNF-based datatypes blanchet parents: 57205 diff changeset	544	fun mixfix_of_spec ((((_, mx), _), _), _) = mx;
d9be905d6283 changed syntax of map: and rel: arguments to BNF-based datatypes blanchet parents: 57205 diff changeset	545	fun mixfixed_ctr_specs_of_spec (((_, mx_ctr_specs), _), _) = mx_ctr_specs;
62324 ae44f16dcea5 make predicator a first-class bnf citizen traytel parents: 62322 diff changeset	546	fun map_binding_of_spec ((_, (b, _, _)), _) = b;
ae44f16dcea5 make predicator a first-class bnf citizen traytel parents: 62322 diff changeset	547	fun rel_binding_of_spec ((_, (_, b, _)), _) = b;
ae44f16dcea5 make predicator a first-class bnf citizen traytel parents: 62322 diff changeset	548	fun pred_binding_of_spec ((_, (_, _, b)), _) = b;
57200 aab87ffa60cc use 'where' clause for selector default value syntax blanchet parents: 57199 diff changeset	549	fun sel_default_eqs_of_spec (_, ts) = ts;
52347 ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	550
57397 5004aca20821 tuned variable names blanchet parents: 57303 diff changeset	551	fun add_nesting_bnf_names Us =
52347 ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	552	let
ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	553	fun add (Type (s, Ts)) ss =
ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	554	let val (needs, ss') = fold_map add Ts ss in
ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	555	if exists I needs then (true, insert (op =) s ss') else (false, ss')
ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	556	end
ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	557	\| add T ss = (member (op =) Us T, ss);
ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	558	in snd oo add end;
ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	559
57397 5004aca20821 tuned variable names blanchet parents: 57303 diff changeset	560	fun nesting_bnfs ctxt ctr_Tsss Us =
5004aca20821 tuned variable names blanchet parents: 57303 diff changeset	561	map_filter (bnf_of ctxt) (fold (fold (fold (add_nesting_bnf_names Us))) ctr_Tsss []);
52347 ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	562
54237 7cc6e286fe28 made sugared 'coinduct' theorem construction n2m-proof blanchet parents: 54236 diff changeset	563	fun indexify proj xs f p = f (find_index (curry (op =) (proj p)) xs) p;
52347 ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	564
58346 55e83cd30873 refactoring blanchet parents: 58345 diff changeset	565	fun massage_simple_notes base =
55e83cd30873 refactoring blanchet parents: 58345 diff changeset	566	filter_out (null o #2)
55e83cd30873 refactoring blanchet parents: 58345 diff changeset	567	#> map (fn (thmN, thms, f_attrs) =>
55e83cd30873 refactoring blanchet parents: 58345 diff changeset	568	((Binding.qualify true base (Binding.name thmN), []),
55e83cd30873 refactoring blanchet parents: 58345 diff changeset	569	map_index (fn (i, thm) => ([thm], f_attrs i)) thms));
55e83cd30873 refactoring blanchet parents: 58345 diff changeset	570
55e83cd30873 refactoring blanchet parents: 58345 diff changeset	571	fun massage_multi_notes b_names Ts =
55e83cd30873 refactoring blanchet parents: 58345 diff changeset	572	maps (fn (thmN, thmss, attrs) =>
58634 9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	573	@{map 3} (fn b_name => fn Type (T_name, _) => fn thms =>
58346 55e83cd30873 refactoring blanchet parents: 58345 diff changeset	574	((Binding.qualify true b_name (Binding.name thmN), attrs T_name), [(thms, [])]))
55e83cd30873 refactoring blanchet parents: 58345 diff changeset	575	b_names Ts thmss)
55e83cd30873 refactoring blanchet parents: 58345 diff changeset	576	#> filter_out (null o fst o hd o snd);
55e83cd30873 refactoring blanchet parents: 58345 diff changeset	577
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	578	fun derive_map_set_rel_pred_thms plugins fp live As Bs C E abs_inverses ctr_defs'
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	579	fp_nesting_set_maps fp_nesting_rel_eq_onps live_nesting_map_id0s live_nesting_set_maps
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	580	live_nesting_rel_eqs live_nesting_rel_eq_onps fp_b_name fp_bnf fp_bnfs fpT ctor ctor_dtor
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	581	dtor_ctor pre_map_def pre_set_defs pre_rel_def fp_map_thm fp_set_thms fp_rel_thm ctr_Tss abs
58676 cdf84b6e1297 generate 'sel_transfer' for (co)datatypes desharna parents: 58675 diff changeset	582	({casex, case_thms, discs, selss, sel_defs, ctrs, exhaust, exhaust_discs, disc_thmss, sel_thmss,
cdf84b6e1297 generate 'sel_transfer' for (co)datatypes desharna parents: 58675 diff changeset	583	injects, distincts, distinct_discsss, ...} : ctr_sugar)
58346 55e83cd30873 refactoring blanchet parents: 58345 diff changeset	584	lthy =
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	585	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	586	val n = length ctr_Tss;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	587	val ks = 1 upto n;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	588	val ms = map length ctr_Tss;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	589
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	590	val B_ify_T = Term.typ_subst_atomic (As ~~ Bs);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	591
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	592	val fpBT = B_ify_T fpT;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	593	val live_AsBs = filter (op <>) (As ~~ Bs);
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	594	val live_As = map fst live_AsBs;
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	595	val fTs = map (op -->) live_AsBs;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	596
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	597	val ((((((((xss, yss), fs), Ps), Rs), ta), tb), thesis), names_lthy) = lthy
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	598	\|> fold (fold Variable.declare_typ) [As, Bs]
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	599	\|> mk_Freess "x" ctr_Tss
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	600	\|\|>> mk_Freess "y" (map (map B_ify_T) ctr_Tss)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	601	\|\|>> mk_Frees "f" fTs
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	602	\|\|>> mk_Frees "P" (map mk_pred1T live_As)
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	603	\|\|>> mk_Frees "R" (map (uncurry mk_pred2T) live_AsBs)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	604	\|\|>> yield_singleton (mk_Frees "a") fpT
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	605	\|\|>> yield_singleton (mk_Frees "b") fpBT
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	606	\|\|>> apfst HOLogic.mk_Trueprop o yield_singleton (mk_Frees "thesis") HOLogic.boolT;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	607
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	608	val ctrAs = map (mk_ctr As) ctrs;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	609	val ctrBs = map (mk_ctr Bs) ctrs;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	610
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	611	fun derive_rel_case relAsBs rel_inject_thms rel_distinct_thms =
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	612	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	613	val rel_Rs_a_b = list_comb (relAsBs, Rs) $ ta $ tb;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	614
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	615	fun mk_assms ctrA ctrB ctxt =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	616	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	617	val argA_Ts = binder_types (fastype_of ctrA);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	618	val argB_Ts = binder_types (fastype_of ctrB);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	619	val ((argAs, argBs), names_ctxt) = ctxt
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	620	\|> mk_Frees "x" argA_Ts
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	621	\|\|>> mk_Frees "y" argB_Ts;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	622	val ctrA_args = list_comb (ctrA, argAs);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	623	val ctrB_args = list_comb (ctrB, argBs);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	624	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	625	(fold_rev Logic.all (argAs @ argBs) (Logic.list_implies
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	626	(mk_Trueprop_eq (ta, ctrA_args) :: mk_Trueprop_eq (tb, ctrB_args) ::
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	627	map2 (HOLogic.mk_Trueprop oo build_rel_app lthy Rs []) argAs argBs,
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	628	thesis)),
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	629	names_ctxt)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	630	end;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	631
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	632	val (assms, names_lthy) = @{fold_map 2} mk_assms ctrAs ctrBs names_lthy;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	633	val goal = Logic.list_implies (HOLogic.mk_Trueprop rel_Rs_a_b :: assms, thesis);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	634	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	635	Goal.prove_sorry lthy [] [] goal (fn {context = ctxt, prems = _} =>
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	636	mk_rel_case_tac ctxt (Thm.cterm_of ctxt ta) (Thm.cterm_of ctxt tb) exhaust injects
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	637	rel_inject_thms distincts rel_distinct_thms live_nesting_rel_eqs)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	638	\|> singleton (Proof_Context.export names_lthy lthy)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	639	\|> Thm.close_derivation
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	640	end;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	641
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	642	fun derive_case_transfer rel_case_thm =
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	643	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	644	val (S, names_lthy) = yield_singleton (mk_Frees "S") (mk_pred2T C E) names_lthy;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	645	val caseA = mk_case As C casex;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	646	val caseB = mk_case Bs E casex;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	647	val goal = mk_parametricity_goal names_lthy (S :: Rs) caseA caseB;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	648	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	649	Goal.prove_sorry lthy [] [] goal (fn {context = ctxt, prems = _} =>
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	650	mk_case_transfer_tac ctxt rel_case_thm case_thms)
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	651	\|> singleton (Proof_Context.export names_lthy lthy)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	652	\|> Thm.close_derivation
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	653	end;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	654	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	655	if live = 0 then
61348 d7215449be83 disable generation of 'case_transfer' for 'nibble', due to quadratic proof -- to make 'HOL-Proofs' happier blanchet parents: 61347 diff changeset	656	if plugins transfer_plugin then
d7215449be83 disable generation of 'case_transfer' for 'nibble', due to quadratic proof -- to make 'HOL-Proofs' happier blanchet parents: 61347 diff changeset	657	let
d7215449be83 disable generation of 'case_transfer' for 'nibble', due to quadratic proof -- to make 'HOL-Proofs' happier blanchet parents: 61347 diff changeset	658	val relAsBs = HOLogic.eq_const fpT;
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	659	val rel_case_thm = derive_rel_case relAsBs [] [];
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	660
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	661	val case_transfer_thm = derive_case_transfer rel_case_thm;
61348 d7215449be83 disable generation of 'case_transfer' for 'nibble', due to quadratic proof -- to make 'HOL-Proofs' happier blanchet parents: 61347 diff changeset	662
d7215449be83 disable generation of 'case_transfer' for 'nibble', due to quadratic proof -- to make 'HOL-Proofs' happier blanchet parents: 61347 diff changeset	663	val notes =
d7215449be83 disable generation of 'case_transfer' for 'nibble', due to quadratic proof -- to make 'HOL-Proofs' happier blanchet parents: 61347 diff changeset	664	[(case_transferN, [case_transfer_thm], K [])]
d7215449be83 disable generation of 'case_transfer' for 'nibble', due to quadratic proof -- to make 'HOL-Proofs' happier blanchet parents: 61347 diff changeset	665	\|> massage_simple_notes fp_b_name;
d7215449be83 disable generation of 'case_transfer' for 'nibble', due to quadratic proof -- to make 'HOL-Proofs' happier blanchet parents: 61347 diff changeset	666
d7215449be83 disable generation of 'case_transfer' for 'nibble', due to quadratic proof -- to make 'HOL-Proofs' happier blanchet parents: 61347 diff changeset	667	val (noted, lthy') = lthy
d7215449be83 disable generation of 'case_transfer' for 'nibble', due to quadratic proof -- to make 'HOL-Proofs' happier blanchet parents: 61347 diff changeset	668	\|> Local_Theory.notes notes;
d7215449be83 disable generation of 'case_transfer' for 'nibble', due to quadratic proof -- to make 'HOL-Proofs' happier blanchet parents: 61347 diff changeset	669
d7215449be83 disable generation of 'case_transfer' for 'nibble', due to quadratic proof -- to make 'HOL-Proofs' happier blanchet parents: 61347 diff changeset	670	val subst = Morphism.thm (substitute_noted_thm noted);
d7215449be83 disable generation of 'case_transfer' for 'nibble', due to quadratic proof -- to make 'HOL-Proofs' happier blanchet parents: 61347 diff changeset	671	in
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	672	(([], [], [], [], [], [], [], [], [], [], [], [], [], [], [subst case_transfer_thm], [],
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	673	[]), lthy')
61348 d7215449be83 disable generation of 'case_transfer' for 'nibble', due to quadratic proof -- to make 'HOL-Proofs' happier blanchet parents: 61347 diff changeset	674	end
d7215449be83 disable generation of 'case_transfer' for 'nibble', due to quadratic proof -- to make 'HOL-Proofs' happier blanchet parents: 61347 diff changeset	675	else
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	676	(([], [], [], [], [], [], [], [], [], [], [], [], [], [], [], [], []), lthy)
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	677	else
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	678	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	679	val mapx = mk_map live As Bs (map_of_bnf fp_bnf);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	680	val relAsBs = mk_rel live As Bs (rel_of_bnf fp_bnf);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	681	val setAs = map (mk_set As) (sets_of_bnf fp_bnf);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	682	val discAs = map (mk_disc_or_sel As) discs;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	683	val discBs = map (mk_disc_or_sel Bs) discs;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	684	val selAss = map (map (mk_disc_or_sel As)) selss;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	685	val selBss = map (map (mk_disc_or_sel Bs)) selss;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	686
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	687	val ctor_cong =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	688	if fp = Least_FP then
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	689	Drule.dummy_thm
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	690	else
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	691	let val ctor' = mk_ctor Bs ctor in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	692	infer_instantiate' lthy [NONE, NONE, SOME (Thm.cterm_of lthy ctor')] arg_cong
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	693	end;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	694
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	695	fun mk_cIn ctor k xs =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	696	let val absT = domain_type (fastype_of ctor) in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	697	mk_absumprod absT abs n k xs
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	698	\|> fp = Greatest_FP ? curry (op $) ctor
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	699	\|> Thm.cterm_of lthy
58346 55e83cd30873 refactoring blanchet parents: 58345 diff changeset	700	end;
55e83cd30873 refactoring blanchet parents: 58345 diff changeset	701
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	702	val cxIns = map2 (mk_cIn ctor) ks xss;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	703	val cyIns = map2 (mk_cIn (Term.map_types B_ify_T ctor)) ks yss;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	704
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	705	fun mk_map_thm ctr_def' cxIn =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	706	fold_thms lthy [ctr_def']
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	707	(unfold_thms lthy (o_apply :: pre_map_def ::
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	708	(if fp = Least_FP then [] else [dtor_ctor]) @ sumprod_thms_map @ abs_inverses)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	709	(infer_instantiate' lthy (map (SOME o Thm.cterm_of lthy) fs @ [SOME cxIn])
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	710	(if fp = Least_FP then fp_map_thm
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	711	else fp_map_thm RS ctor_cong RS (ctor_dtor RS sym RS trans))))
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	712	\|> singleton (Proof_Context.export names_lthy lthy);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	713
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	714	fun mk_set0_thm fp_set_thm ctr_def' cxIn =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	715	fold_thms lthy [ctr_def']
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	716	(unfold_thms lthy (pre_set_defs @ fp_nesting_set_maps @ live_nesting_set_maps @
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	717	(if fp = Least_FP then [] else [dtor_ctor]) @ basic_sumprod_thms_set @
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	718	@{thms UN_Un sup_assoc[THEN sym]} @ abs_inverses)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	719	(infer_instantiate' lthy [SOME cxIn] fp_set_thm))
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	720	\|> singleton (Proof_Context.export names_lthy lthy);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	721
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	722	fun mk_set0_thms fp_set_thm = map2 (mk_set0_thm fp_set_thm) ctr_defs' cxIns;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	723
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	724	val map_thms = map2 mk_map_thm ctr_defs' cxIns;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	725	val set0_thmss = map mk_set0_thms fp_set_thms;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	726	val set0_thms = flat set0_thmss;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	727	val set_thms = set0_thms
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	728	\|> map (unfold_thms lthy @{thms insert_is_Un[THEN sym] Un_empty_left Un_insert_left});
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	729
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	730	val rel_infos = (ctr_defs' ~~ cxIns, ctr_defs' ~~ cyIns);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	731
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	732	fun mk_rel_thm postproc ctr_defs' cxIn cyIn =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	733	fold_thms lthy ctr_defs'
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	734	(unfold_thms lthy (pre_rel_def :: abs_inverses @
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	735	(if fp = Least_FP then [] else [dtor_ctor]) @ sumprod_thms_rel @
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	736	@{thms vimage2p_def sum.inject sum.distinct(1)[THEN eq_False[THEN iffD2]]})
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	737	(infer_instantiate' lthy (map (SOME o Thm.cterm_of lthy) Rs @ [SOME cxIn, SOME cyIn])
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	738	fp_rel_thm))
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	739	\|> postproc
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	740	\|> singleton (Proof_Context.export names_lthy lthy);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	741
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	742	fun mk_rel_inject_thm ((ctr_def', cxIn), (_, cyIn)) =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	743	mk_rel_thm (unfold_thms lthy @{thms eq_sym_Unity_conv}) [ctr_def'] cxIn cyIn;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	744
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	745	fun mk_rel_intro_thm m thm =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	746	uncurry_thm m (thm RS iffD2) handle THM _ => thm;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	747
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	748	fun mk_half_rel_distinct_thm ((xctr_def', cxIn), (yctr_def', cyIn)) =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	749	mk_rel_thm (fn thm => thm RS @{thm eq_False[THEN iffD1]}) [xctr_def', yctr_def']
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	750	cxIn cyIn;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	751
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	752	val rel_flip = rel_flip_of_bnf fp_bnf;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	753
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	754	fun mk_other_half_rel_distinct_thm thm =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	755	flip_rels lthy live thm RS (rel_flip RS sym RS @{thm arg_cong[of _ _ Not]} RS iffD2);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	756
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	757	val rel_inject_thms = map mk_rel_inject_thm (op ~~ rel_infos);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	758	val rel_intro_thms = map2 mk_rel_intro_thm ms rel_inject_thms;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	759
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	760	val half_rel_distinct_thmss = map (map mk_half_rel_distinct_thm) (mk_half_pairss rel_infos);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	761	val other_half_rel_distinct_thmss =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	762	map (map mk_other_half_rel_distinct_thm) half_rel_distinct_thmss;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	763	val (rel_distinct_thms, _) =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	764	join_halves n half_rel_distinct_thmss other_half_rel_distinct_thmss;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	765
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	766	val rel_code_thms =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	767	map (fn thm => thm RS @{thm eq_False[THEN iffD2]}) rel_distinct_thms @
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	768	map2 (fn thm => fn 0 => thm RS @{thm eq_True[THEN iffD2]} \| _ => thm) rel_inject_thms ms;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	769
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	770	val ctr_transfer_thms =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	771	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	772	val goals = map2 (mk_parametricity_goal names_lthy Rs) ctrAs ctrBs;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	773	val goal = Logic.mk_conjunction_balanced goals;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	774	val vars = Variable.add_free_names lthy goal [];
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	775	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	776	Goal.prove_sorry lthy vars [] goal
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	777	(fn {context = ctxt, prems = _} =>
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	778	mk_ctr_transfer_tac ctxt rel_intro_thms live_nesting_rel_eqs)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	779	\|> Thm.close_derivation
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	780	\|> Conjunction.elim_balanced (length goals)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	781	end;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	782
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	783	val (set_cases_thms, set_cases_attrss) =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	784	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	785	fun mk_prems assms elem t ctxt =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	786	(case fastype_of t of
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	787	Type (type_name, xs) =>
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	788	(case bnf_of ctxt type_name of
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	789	NONE => ([], ctxt)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	790	\| SOME bnf =>
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	791	apfst flat (fold_map (fn set => fn ctxt =>
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	792	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	793	val T = HOLogic.dest_setT (range_type (fastype_of set));
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	794	val new_var = not (T = fastype_of elem);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	795	val (x, ctxt') =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	796	if new_var then yield_singleton (mk_Frees "x") T ctxt else (elem, ctxt);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	797	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	798	mk_prems (mk_Trueprop_mem (x, set $ t) :: assms) elem x ctxt'
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	799	\|>> map (new_var ? Logic.all x)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	800	end) (map (mk_set xs) (sets_of_bnf bnf)) ctxt))
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	801	\| T => rpair ctxt
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	802	(if T = fastype_of elem then [fold (curry Logic.mk_implies) assms thesis]
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	803	else []));
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	804	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	805	split_list (map (fn set =>
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	806	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	807	val A = HOLogic.dest_setT (range_type (fastype_of set));
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	808	val (elem, names_lthy) = yield_singleton (mk_Frees "e") A names_lthy;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	809	val premss =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	810	map (fn ctr =>
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	811	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	812	val (args, names_lthy) =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	813	mk_Frees "z" (binder_types (fastype_of ctr)) names_lthy;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	814	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	815	flat (zipper_map (fn (prev_args, arg, next_args) =>
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	816	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	817	val (args_with_elem, args_without_elem) =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	818	if fastype_of arg = A then
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	819	(prev_args @ [elem] @ next_args, prev_args @ next_args)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	820	else
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	821	`I (prev_args @ [arg] @ next_args);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	822	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	823	mk_prems [mk_Trueprop_eq (ta, Term.list_comb (ctr, args_with_elem))]
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	824	elem arg names_lthy
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	825	\|> fst
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	826	\|> map (fold_rev Logic.all args_without_elem)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	827	end) args)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	828	end) ctrAs;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	829	val goal = Logic.mk_implies (mk_Trueprop_mem (elem, set $ ta), thesis);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	830	val vars = Variable.add_free_names lthy goal [];
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	831	val thm =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	832	Goal.prove_sorry lthy vars (flat premss) goal (fn {context = ctxt, prems} =>
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	833	mk_set_cases_tac ctxt (Thm.cterm_of ctxt ta) prems exhaust set_thms)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	834	\|> Thm.close_derivation
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	835	\|> rotate_prems ~1;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	836
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	837	val consumes_attr = Attrib.internal (K (Rule_Cases.consumes 1));
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	838	val cases_set_attr =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	839	Attrib.internal (K (Induct.cases_pred (name_of_set set)));
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	840
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	841	val ctr_names = quasi_unambiguous_case_names (flat
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	842	(map (uncurry mk_names o map_prod length name_of_ctr) (premss ~~ ctrAs)));
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	843	val case_names_attr = Attrib.internal (K (Rule_Cases.case_names ctr_names));
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	844	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	845	(* TODO: @{attributes [elim?]} *)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	846	(thm, [consumes_attr, cases_set_attr, case_names_attr])
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	847	end) setAs)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	848	end;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	849
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	850	val (set_intros_thmssss, set_intros_thms) =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	851	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	852	fun mk_goals A setA ctr_args t ctxt =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	853	(case fastype_of t of
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	854	Type (type_name, innerTs) =>
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	855	(case bnf_of ctxt type_name of
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	856	NONE => ([], ctxt)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	857	\| SOME bnf =>
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	858	apfst flat (fold_map (fn set => fn ctxt =>
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	859	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	860	val T = HOLogic.dest_setT (range_type (fastype_of set));
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	861	val (x, ctxt') = yield_singleton (mk_Frees "x") T ctxt;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	862	val assm = mk_Trueprop_mem (x, set $ t);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	863	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	864	apfst (map (Logic.mk_implies o pair assm)) (mk_goals A setA ctr_args x ctxt')
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	865	end) (map (mk_set innerTs) (sets_of_bnf bnf)) ctxt))
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	866	\| T => (if T = A then [mk_Trueprop_mem (t, setA $ ctr_args)] else [], ctxt));
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	867
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	868	val (goalssss, _) =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	869	fold_map (fn set =>
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	870	let val A = HOLogic.dest_setT (range_type (fastype_of set)) in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	871	fold_map (fn ctr => fn ctxt =>
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	872	let val (args, ctxt') = mk_Frees "a" (binder_types (fastype_of ctr)) ctxt in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	873	fold_map (mk_goals A set (Term.list_comb (ctr, args))) args ctxt'
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	874	end) ctrAs
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	875	end) setAs lthy;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	876	val goals = flat (flat (flat goalssss));
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	877	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	878	`(fst o unflattt goalssss)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	879	(if null goals then []
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	880	else
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	881	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	882	val goal = Logic.mk_conjunction_balanced goals;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	883	val vars = Variable.add_free_names lthy goal [];
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	884	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	885	Goal.prove_sorry lthy vars [] goal
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	886	(fn {context = ctxt, prems = _} => mk_set_intros_tac ctxt set0_thms)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	887	\|> Thm.close_derivation
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	888	\|> Conjunction.elim_balanced (length goals)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	889	end)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	890	end;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	891
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	892	val rel_sel_thms =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	893	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	894	val n = length discAs;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	895	fun mk_conjunct n k discA selAs discB selBs =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	896	(if k = n then [] else [HOLogic.mk_eq (discA $ ta, discB $ tb)]) @
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	897	(if null selAs then []
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	898	else
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	899	[Library.foldr HOLogic.mk_imp
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	900	(if n = 1 then [] else [discA $ ta, discB $ tb],
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	901	Library.foldr1 HOLogic.mk_conj (map2 (build_rel_app names_lthy Rs [])
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	902	(map (rapp ta) selAs) (map (rapp tb) selBs)))]);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	903
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	904	val goals =
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	905	if n = 0 then
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	906	[]
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	907	else
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	908	[mk_Trueprop_eq (build_rel_app names_lthy Rs [] ta tb,
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	909	(case flat (@{map 5} (mk_conjunct n) (1 upto n) discAs selAss discBs selBss) of
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	910	[] => @{term True}
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	911	\| conjuncts => Library.foldr1 HOLogic.mk_conj conjuncts))];
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	912
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	913	fun prove goal =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	914	Variable.add_free_names lthy goal []
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	915	\|> (fn vars => Goal.prove_sorry lthy vars [] goal (fn {context = ctxt, prems = _} =>
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	916	mk_rel_sel_tac ctxt (Thm.cterm_of ctxt ta) (Thm.cterm_of ctxt tb) exhaust
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	917	(flat disc_thmss) (flat sel_thmss) rel_inject_thms distincts rel_distinct_thms
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	918	live_nesting_rel_eqs))
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	919	\|> Thm.close_derivation;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	920	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	921	map prove goals
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	922	end;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	923
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	924	val (rel_case_thm, rel_case_attrs) =
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	925	let
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	926	val thm = derive_rel_case relAsBs rel_inject_thms rel_distinct_thms;
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	927	val ctr_names = quasi_unambiguous_case_names (map name_of_ctr ctrAs);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	928	val case_names_attr = Attrib.internal (K (Rule_Cases.case_names ctr_names));
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	929	val consumes_attr = Attrib.internal (K (Rule_Cases.consumes 1));
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	930	val cases_pred_attr = Attrib.internal o K o Induct.cases_pred;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	931	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	932	(thm, [consumes_attr, case_names_attr, cases_pred_attr ""])
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	933	end;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	934
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	935	val case_transfer_thm = derive_case_transfer rel_case_thm;
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	936
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	937	val sel_transfer_thms =
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	938	if null selAss then
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	939	[]
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	940	else
58346 55e83cd30873 refactoring blanchet parents: 58345 diff changeset	941	let
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	942	val shared_sels = foldl1 (uncurry (inter (op =))) (map (op ~~) (selAss ~~ selBss));
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	943	val goals = map (uncurry (mk_parametricity_goal names_lthy Rs)) shared_sels;
58346 55e83cd30873 refactoring blanchet parents: 58345 diff changeset	944	in
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	945	if null goals then
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	946	[]
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	947	else
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	948	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	949	val goal = Logic.mk_conjunction_balanced goals;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	950	val vars = Variable.add_free_names lthy goal [];
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	951	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	952	Goal.prove_sorry lthy vars [] goal
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	953	(fn {context = ctxt, prems = _} =>
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	954	mk_sel_transfer_tac ctxt n sel_defs case_transfer_thm)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	955	\|> Thm.close_derivation
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	956	\|> Conjunction.elim_balanced (length goals)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	957	end
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	958	end;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	959
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	960	val disc_transfer_thms =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	961	let val goals = map2 (mk_parametricity_goal names_lthy Rs) discAs discBs in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	962	if null goals then
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	963	[]
58346 55e83cd30873 refactoring blanchet parents: 58345 diff changeset	964	else
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	965	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	966	val goal = Logic.mk_conjunction_balanced goals;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	967	val vars = Variable.add_free_names lthy goal [];
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	968	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	969	Goal.prove_sorry lthy vars [] goal
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	970	(fn {context = ctxt, prems = _} => mk_disc_transfer_tac ctxt
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	971	(the_single rel_sel_thms) (the_single exhaust_discs)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	972	(flat (flat distinct_discsss)))
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	973	\|> Thm.close_derivation
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	974	\|> Conjunction.elim_balanced (length goals)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	975	end
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	976	end;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	977
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	978	val map_disc_iff_thms =
58676 cdf84b6e1297 generate 'sel_transfer' for (co)datatypes desharna parents: 58675 diff changeset	979	let
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	980	val discsB = map (mk_disc_or_sel Bs) discs;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	981	val discsA_t = map (fn disc1 => Term.betapply (disc1, ta)) discAs;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	982
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	983	fun mk_goal (discA_t, discB) =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	984	if head_of discA_t aconv HOLogic.Not orelse is_refl_bool discA_t then
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	985	NONE
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	986	else
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	987	SOME (mk_Trueprop_eq (betapply (discB, (Term.list_comb (mapx, fs) $ ta)), discA_t));
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	988
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	989	val goals = map_filter mk_goal (discsA_t ~~ discsB);
58676 cdf84b6e1297 generate 'sel_transfer' for (co)datatypes desharna parents: 58675 diff changeset	990	in
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	991	if null goals then
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	992	[]
58676 cdf84b6e1297 generate 'sel_transfer' for (co)datatypes desharna parents: 58675 diff changeset	993	else
61334 8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	994	let
8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	995	val goal = Logic.mk_conjunction_balanced goals;
8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	996	val vars = Variable.add_free_names lthy goal [];
8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	997	in
8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	998	Goal.prove_sorry lthy vars [] goal
8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	999	(fn {context = ctxt, prems = _} =>
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1000	mk_map_disc_iff_tac ctxt (Thm.cterm_of ctxt ta) exhaust (flat disc_thmss)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1001	map_thms)
61334 8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	1002	\|> Thm.close_derivation
8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	1003	\|> Conjunction.elim_balanced (length goals)
8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	1004	end
58676 cdf84b6e1297 generate 'sel_transfer' for (co)datatypes desharna parents: 58675 diff changeset	1005	end;
cdf84b6e1297 generate 'sel_transfer' for (co)datatypes desharna parents: 58675 diff changeset	1006
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1007	val (map_sel_thmss, map_sel_thms) =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1008	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1009	fun mk_goal discA selA selB =
61334 8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	1010	let
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1011	val prem = Term.betapply (discA, ta);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1012	val lhs = selB $ (Term.list_comb (mapx, fs) $ ta);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1013	val lhsT = fastype_of lhs;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1014	val map_rhsT =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1015	map_atyps (perhaps (AList.lookup (op =) (map swap live_AsBs))) lhsT;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1016	val map_rhs = build_map lthy []
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1017	(the o (AList.lookup (op =) (live_AsBs ~~ fs))) (map_rhsT, lhsT);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1018	val rhs = (case map_rhs of
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1019	Const (@{const_name id}, _) => selA $ ta
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1020	\| _ => map_rhs $ (selA $ ta));
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1021	val concl = mk_Trueprop_eq (lhs, rhs);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1022	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1023	if is_refl_bool prem then concl
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1024	else Logic.mk_implies (HOLogic.mk_Trueprop prem, concl)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1025	end;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1026
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1027	val goalss = @{map 3} (map2 o mk_goal) discAs selAss selBss;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1028	val goals = flat goalss;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1029	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1030	`(fst o unflat goalss)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1031	(if null goals then []
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1032	else
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1033	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1034	val goal = Logic.mk_conjunction_balanced goals;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1035	val vars = Variable.add_free_names lthy goal [];
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1036	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1037	Goal.prove_sorry lthy vars [] goal
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1038	(fn {context = ctxt, prems = _} =>
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1039	mk_map_sel_tac ctxt (Thm.cterm_of ctxt ta) exhaust (flat disc_thmss) map_thms
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1040	(flat sel_thmss) live_nesting_map_id0s)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1041	\|> Thm.close_derivation
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1042	\|> Conjunction.elim_balanced (length goals)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1043	end)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1044	end;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1045
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1046	val (set_sel_thmssss, set_sel_thms) =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1047	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1048	fun mk_goal setA discA selA ctxt =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1049	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1050	val prem = Term.betapply (discA, ta);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1051	val sel_rangeT = range_type (fastype_of selA);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1052	val A = HOLogic.dest_setT (range_type (fastype_of setA));
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1053
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1054	fun travese_nested_types t ctxt =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1055	(case fastype_of t of
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1056	Type (type_name, innerTs) =>
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1057	(case bnf_of ctxt type_name of
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1058	NONE => ([], ctxt)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1059	\| SOME bnf =>
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1060	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1061	fun seq_assm a set ctxt =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1062	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1063	val T = HOLogic.dest_setT (range_type (fastype_of set));
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1064	val (x, ctxt') = yield_singleton (mk_Frees "x") T ctxt;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1065	val assm = mk_Trueprop_mem (x, set $ a);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1066	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1067	travese_nested_types x ctxt'
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1068	\|>> map (Logic.mk_implies o pair assm)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1069	end;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1070	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1071	fold_map (seq_assm t o mk_set innerTs) (sets_of_bnf bnf) ctxt
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1072	\|>> flat
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1073	end)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1074	\| T =>
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1075	if T = A then ([mk_Trueprop_mem (t, setA $ ta)], ctxt) else ([], ctxt));
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1076
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1077	val (concls, ctxt') =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1078	if sel_rangeT = A then ([mk_Trueprop_mem (selA $ ta, setA $ ta)], ctxt)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1079	else travese_nested_types (selA $ ta) ctxt;
61334 8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	1080	in
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1081	if exists_subtype_in [A] sel_rangeT then
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1082	if is_refl_bool prem then (concls, ctxt')
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1083	else (map (Logic.mk_implies o pair (HOLogic.mk_Trueprop prem)) concls, ctxt')
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1084	else
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1085	([], ctxt)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1086	end;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1087
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1088	val (goalssss, _) =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1089	fold_map (fn set => @{fold_map 2} (fold_map o mk_goal set) discAs selAss)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1090	setAs names_lthy;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1091	val goals = flat (flat (flat goalssss));
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1092	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1093	`(fst o unflattt goalssss)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1094	(if null goals then []
58346 55e83cd30873 refactoring blanchet parents: 58345 diff changeset	1095	else
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1096	let
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1097	val goal = Logic.mk_conjunction_balanced goals;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1098	val vars = Variable.add_free_names lthy goal [];
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1099	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1100	Goal.prove_sorry lthy vars [] goal
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1101	(fn {context = ctxt, prems = _} =>
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1102	mk_set_sel_tac ctxt (Thm.cterm_of ctxt ta) exhaust (flat disc_thmss)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1103	(flat sel_thmss) set0_thms)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1104	\|> Thm.close_derivation
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1105	\|> Conjunction.elim_balanced (length goals)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1106	end)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1107	end;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1108
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1109	val pred_injects =
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1110	let
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1111	fun top_sweep_rewr_conv rewrs =
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1112	Conv.top_sweep_conv (K (Conv.rewrs_conv rewrs)) @{context};
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1113
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1114	val rel_eq_onp_with_tops_of = Conv.fconv_rule (HOLogic.Trueprop_conv (Conv.arg1_conv
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1115	(top_sweep_rewr_conv @{thms eq_onp_top_eq_eq[symmetric, THEN eq_reflection]})));
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1116
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1117	val eq_onps = map (rel_eq_onp_with_tops_of)
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1118	(map rel_eq_onp_of_bnf fp_bnfs @ fp_nesting_rel_eq_onps @ live_nesting_rel_eq_onps);
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1119	val cTs = map (SOME o Thm.ctyp_of lthy) (maps (replicate 2) live_As);
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1120	val cts = map (SOME o Thm.cterm_of lthy) (map mk_eq_onp Ps);
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1121
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1122	val get_rhs = Thm.concl_of #> HOLogic.dest_Trueprop #> HOLogic.dest_eq #> snd;
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1123
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1124	val pred_eq_onp_conj =
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1125	List.foldr (fn (_, thm) => thm RS @{thm eq_onp_live_step}) @{thm refl[of True]};
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1126
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1127	fun predify_rel_inject rel_inject =
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1128	let
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1129	val conjuncts = try (get_rhs #> HOLogic.dest_conj) rel_inject \|> the_default [];
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1130
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1131	fun postproc thm =
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1132	if conjuncts <> [] then
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1133	@{thm box_equals} OF [thm, @{thm eq_onp_same_args},
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1134	pred_eq_onp_conj conjuncts \|> unfold_thms lthy @{thms simp_thms(21)}]
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1135	else
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1136	thm RS (@{thm eq_onp_same_args} RS iffD1);
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1137	in
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1138	rel_inject
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1139	\|> Thm.instantiate' cTs cts
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1140	\|> Conv.fconv_rule (HOLogic.Trueprop_conv (Conv.arg_conv
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1141	(Raw_Simplifier.rewrite lthy false
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1142	@{thms eq_onp_top_eq_eq[symmetric, THEN eq_reflection]})))
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1143	\|> unfold_thms lthy eq_onps
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1144	\|> postproc
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1145	\|> unfold_thms lthy @{thms top_conj}
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1146	end;
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1147	in
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1148	rel_inject_thms
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1149	\|> map (unfold_thms lthy [@{thm conj_assoc}])
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1150	\|> map predify_rel_inject
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1151	\|> Proof_Context.export names_lthy lthy
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1152	end;
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1153
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1154	val code_attrs = if plugins code_plugin then [Code.add_default_eqn_attrib] else [];
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1155
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1156	val anonymous_notes =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1157	[(rel_code_thms, code_attrs @ nitpicksimp_attrs)]
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1158	\|> map (fn (thms, attrs) => ((Binding.empty, attrs), [(thms, [])]));
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1159
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1160	val notes =
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1161	[(case_transferN, [case_transfer_thm], K []),
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1162	(ctr_transferN, ctr_transfer_thms, K []),
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1163	(disc_transferN, disc_transfer_thms, K []),
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1164	(sel_transferN, sel_transfer_thms, K []),
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1165	(mapN, map_thms, K (code_attrs @ nitpicksimp_attrs @ simp_attrs)),
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1166	(map_disc_iffN, map_disc_iff_thms, K simp_attrs),
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1167	(map_selN, map_sel_thms, K []),
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1168	(pred_injectN, pred_injects, K simp_attrs),
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1169	(rel_casesN, [rel_case_thm], K rel_case_attrs),
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1170	(rel_distinctN, rel_distinct_thms, K simp_attrs),
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1171	(rel_injectN, rel_inject_thms, K simp_attrs),
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1172	(rel_introsN, rel_intro_thms, K []),
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1173	(rel_selN, rel_sel_thms, K []),
61347 2ebdd603cd71 avoid unsound 'nitpick_simp' attribute on nonterminating, nonproductive equations blanchet parents: 61344 diff changeset	1174	(setN, set_thms, K (code_attrs @ case_fp fp nitpicksimp_attrs [] @ simp_attrs)),
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1175	(set_casesN, set_cases_thms, nth set_cases_attrss),
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1176	(set_introsN, set_intros_thms, K []),
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1177	(set_selN, set_sel_thms, K [])]
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1178	\|> massage_simple_notes fp_b_name;
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1179
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1180	val (noted, lthy') = lthy
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1181	\|> Spec_Rules.add Spec_Rules.Equational (`(single o lhs_head_of o hd) map_thms)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1182	\|> fp = Least_FP
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1183	? Spec_Rules.add Spec_Rules.Equational (`(single o lhs_head_of o hd) rel_code_thms)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1184	\|> Spec_Rules.add Spec_Rules.Equational (`(single o lhs_head_of o hd) set0_thms)
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1185	\|> Local_Theory.notes (anonymous_notes @ notes);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1186
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1187	val subst = Morphism.thm (substitute_noted_thm noted);
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1188	in
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1189	((map subst map_thms,
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1190	map subst map_disc_iff_thms,
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1191	map (map subst) map_sel_thmss,
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1192	map subst rel_inject_thms,
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1193	map subst rel_distinct_thms,
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1194	map subst rel_sel_thms,
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1195	map subst rel_intro_thms,
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1196	[subst rel_case_thm],
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	1197	map subst pred_injects,
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1198	map subst set_thms,
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1199	map (map (map (map subst))) set_sel_thmssss,
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1200	map (map (map (map subst))) set_intros_thmssss,
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1201	map subst set_cases_thms,
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1202	map subst ctr_transfer_thms,
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1203	[subst case_transfer_thm],
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1204	map subst disc_transfer_thms,
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1205	map subst sel_transfer_thms), lthy')
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1206	end
ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1207	end;
58346 55e83cd30873 refactoring blanchet parents: 58345 diff changeset	1208
58214 bd1754377965 properly note theorems for split recursors blanchet parents: 58211 diff changeset	1209	type lfp_sugar_thms = (thm list * thm * Token.src list) * (thm list list * Token.src list);
53746 bd038e48526d have "datatype_new_compat" register induction and recursion theorems in nested case blanchet parents: 53741 diff changeset	1210
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	1211	fun morph_lfp_sugar_thms phi ((inducts, induct, induct_attrs), (recss, rec_attrs)) =
54256 4843082be7ef added some N2M caching blanchet parents: 54253 diff changeset	1212	((map (Morphism.thm phi) inducts, Morphism.thm phi induct, induct_attrs),
58291 81a5f05130c1 tuning blanchet parents: 58285 diff changeset	1213	(map (map (Morphism.thm phi)) recss, rec_attrs)) : lfp_sugar_thms;
54256 4843082be7ef added some N2M caching blanchet parents: 54253 diff changeset	1214
58115 bfde04fc5190 made transfer functions slightly more general blanchet parents: 58112 diff changeset	1215	val transfer_lfp_sugar_thms = morph_lfp_sugar_thms o Morphism.transfer_morphism;
54256 4843082be7ef added some N2M caching blanchet parents: 54253 diff changeset	1216
53746 bd038e48526d have "datatype_new_compat" register induction and recursion theorems in nested case blanchet parents: 53741 diff changeset	1217	type gfp_sugar_thms =
58011 bc6bced136e5 tuned signature -- moved type src to Token, without aliases; wenzelm parents: 57999 diff changeset	1218	((thm list * thm) list * (Token.src list * Token.src list))
57489 8f0ba9f2d10f generate 'corec_code' theorem for codatatypes desharna parents: 57471 diff changeset	1219	* thm list list
8f0ba9f2d10f generate 'corec_code' theorem for codatatypes desharna parents: 57471 diff changeset	1220	* thm list list
58011 bc6bced136e5 tuned signature -- moved type src to Token, without aliases; wenzelm parents: 57999 diff changeset	1221	* (thm list list * Token.src list)
bc6bced136e5 tuned signature -- moved type src to Token, without aliases; wenzelm parents: 57999 diff changeset	1222	* (thm list list list * Token.src list);
53746 bd038e48526d have "datatype_new_compat" register induction and recursion theorems in nested case blanchet parents: 53741 diff changeset	1223
57260 8747af0d1012 fixed postprocessing of 'coinduct' formula to obtain right property format (without needless hypotheses) blanchet parents: 57206 diff changeset	1224	fun morph_gfp_sugar_thms phi ((coinducts_pairs, coinduct_attrs_pair),
57983 6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	1225	corecss, corec_discss, (corec_disc_iffss, corec_disc_iff_attrs),
6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	1226	(corec_selsss, corec_sel_attrs)) =
54256 4843082be7ef added some N2M caching blanchet parents: 54253 diff changeset	1227	((map (apfst (map (Morphism.thm phi)) o apsnd (Morphism.thm phi)) coinducts_pairs,
57260 8747af0d1012 fixed postprocessing of 'coinduct' formula to obtain right property format (without needless hypotheses) blanchet parents: 57206 diff changeset	1228	coinduct_attrs_pair),
57489 8f0ba9f2d10f generate 'corec_code' theorem for codatatypes desharna parents: 57471 diff changeset	1229	map (map (Morphism.thm phi)) corecss,
57983 6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	1230	map (map (Morphism.thm phi)) corec_discss,
6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	1231	(map (map (Morphism.thm phi)) corec_disc_iffss, corec_disc_iff_attrs),
6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	1232	(map (map (map (Morphism.thm phi))) corec_selsss, corec_sel_attrs)) : gfp_sugar_thms;
54256 4843082be7ef added some N2M caching blanchet parents: 54253 diff changeset	1233
58115 bfde04fc5190 made transfer functions slightly more general blanchet parents: 58112 diff changeset	1234	val transfer_gfp_sugar_thms = morph_gfp_sugar_thms o Morphism.transfer_morphism;
54256 4843082be7ef added some N2M caching blanchet parents: 54253 diff changeset	1235
58352 37745650a3f4 register 'prod' and 'sum' as datatypes, to allow N2M through them blanchet parents: 58347 diff changeset	1236	fun unzip_recT (Type (@{type_name prod}, [_, TFree x]))
37745650a3f4 register 'prod' and 'sum' as datatypes, to allow N2M through them blanchet parents: 58347 diff changeset	1237	(T as Type (@{type_name prod}, Ts as [_, TFree y])) =
37745650a3f4 register 'prod' and 'sum' as datatypes, to allow N2M through them blanchet parents: 58347 diff changeset	1238	if x = y then [T] else Ts
37745650a3f4 register 'prod' and 'sum' as datatypes, to allow N2M through them blanchet parents: 58347 diff changeset	1239	\| unzip_recT _ (Type (@{type_name prod}, Ts as [_, TFree _])) = Ts
58159 e3d1912a0c8f tuning blanchet parents: 58117 diff changeset	1240	\| unzip_recT _ T = [T];
e3d1912a0c8f tuning blanchet parents: 58117 diff changeset	1241
61551 078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	1242	fun mk_recs_args_types ctxt ctr_Tsss Cs absTs repTs ns mss ctor_rec_fun_Ts =
51832 35911d5acfa9 tuning blanchet parents: 51831 diff changeset	1243	let
52214 4cc5a80bba80 generalized recursors, effectively reverting inductive half of c7a034d01936 blanchet parents: 52213 diff changeset	1244	val Css = map2 replicate ns Cs;
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1245	val x_Tssss =
58634 9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	1246	@{map 6} (fn absT => fn repT => fn n => fn ms => fn ctr_Tss => fn ctor_rec_fun_T =>
55803 74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	1247	map2 (map2 unzip_recT)
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	1248	ctr_Tss (dest_absumprodT absT repT n ms (domain_type ctor_rec_fun_T)))
79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	1249	absTs repTs ns mss ctr_Tsss ctor_rec_fun_Ts;
51832 35911d5acfa9 tuning blanchet parents: 51831 diff changeset	1250
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1251	val x_Tsss' = map (map flat_rec_arg_args) x_Tssss;
54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1252	val f_Tss = map2 (map2 (curry (op --->))) x_Tsss' Css;
51832 35911d5acfa9 tuning blanchet parents: 51831 diff changeset	1253
61551 078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	1254	val ((fss, xssss), _) = ctxt
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1255	\|> mk_Freess "f" f_Tss
54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1256	\|\|>> mk_Freessss "x" x_Tssss;
51832 35911d5acfa9 tuning blanchet parents: 51831 diff changeset	1257	in
61551 078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	1258	(f_Tss, x_Tssss, fss, xssss)
51832 35911d5acfa9 tuning blanchet parents: 51831 diff changeset	1259	end;
35911d5acfa9 tuning blanchet parents: 51831 diff changeset	1260
58159 e3d1912a0c8f tuning blanchet parents: 58117 diff changeset	1261	fun unzip_corecT (Type (@{type_name sum}, _)) T = [T]
e3d1912a0c8f tuning blanchet parents: 58117 diff changeset	1262	\| unzip_corecT _ (Type (@{type_name sum}, Ts)) = Ts
e3d1912a0c8f tuning blanchet parents: 58117 diff changeset	1263	\| unzip_corecT _ T = [T];
e3d1912a0c8f tuning blanchet parents: 58117 diff changeset	1264
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	1265	(avoid "'a itself" arguments in corecursors)
55966 972f0aa7091b balance tuples that represent curried functions blanchet parents: 55903 diff changeset	1266	fun repair_nullary_single_ctr [[]] = [[HOLogic.unitT]]
55772 367ec44763fd correct most general type for mutual recursion when several identical types are involved blanchet parents: 55701 diff changeset	1267	\| repair_nullary_single_ctr Tss = Tss;
367ec44763fd correct most general type for mutual recursion when several identical types are involved blanchet parents: 55701 diff changeset	1268
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	1269	fun mk_corec_fun_arg_types0 ctr_Tsss Cs absTs repTs ns mss fun_Ts =
51829 3cc93eeac8cc signature tuning blanchet parents: 51828 diff changeset	1270	let
55772 367ec44763fd correct most general type for mutual recursion when several identical types are involved blanchet parents: 55701 diff changeset	1271	val ctr_Tsss' = map repair_nullary_single_ctr ctr_Tsss;
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1272	val g_absTs = map range_type fun_Ts;
61760 1647bb489522 tuned whitespace blanchet parents: 61551 diff changeset	1273	val g_Tsss =
1647bb489522 tuned whitespace blanchet parents: 61551 diff changeset	1274	map repair_nullary_single_ctr (@{map 5} dest_absumprodT absTs repTs ns mss g_absTs);
58634 9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	1275	val g_Tssss = @{map 3} (fn C => map2 (map2 (map (curry (op -->) C) oo unzip_corecT)))
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1276	Cs ctr_Tsss' g_Tsss;
54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1277	val q_Tssss = map (map (map (fn [_] => [] \| [_, T] => [mk_pred1T (domain_type T)]))) g_Tssss;
52870 47b1c2f3ff24 tuning blanchet parents: 52869 diff changeset	1278	in
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1279	(q_Tssss, g_Tsss, g_Tssss, g_absTs)
52870 47b1c2f3ff24 tuning blanchet parents: 52869 diff changeset	1280	end;
51829 3cc93eeac8cc signature tuning blanchet parents: 51828 diff changeset	1281
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	1282	fun mk_corec_p_pred_types Cs ns = map2 (fn n => replicate (Int.max (0, n - 1)) o mk_pred1T) ns Cs;
52898 2af1caada147 enrich exported ML function's signature blanchet parents: 52872 diff changeset	1283
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	1284	fun mk_corec_fun_arg_types ctr_Tsss Cs absTs repTs ns mss dtor_corec =
79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	1285	(mk_corec_p_pred_types Cs ns,
79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	1286	mk_corec_fun_arg_types0 ctr_Tsss Cs absTs repTs ns mss
79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	1287	(binder_fun_types (fastype_of dtor_corec)));
51829 3cc93eeac8cc signature tuning blanchet parents: 51828 diff changeset	1288
61551 078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	1289	fun mk_corecs_args_types ctxt ctr_Tsss Cs absTs repTs ns mss dtor_corec_fun_Ts =
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	1290	let
79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	1291	val p_Tss = mk_corec_p_pred_types Cs ns;
51829 3cc93eeac8cc signature tuning blanchet parents: 51828 diff changeset	1292
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1293	val (q_Tssss, g_Tsss, g_Tssss, corec_types) =
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	1294	mk_corec_fun_arg_types0 ctr_Tsss Cs absTs repTs ns mss dtor_corec_fun_Ts;
51831 a5137cd2c2c2 tuning blanchet parents: 51830 diff changeset	1295
61551 078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	1296	val (((((Free (x, _), cs), pss), qssss), gssss), _) = ctxt
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1297	\|> yield_singleton (mk_Frees "x") dummyT
52347 ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	1298	\|\|>> mk_Frees "a" Cs
51829 3cc93eeac8cc signature tuning blanchet parents: 51828 diff changeset	1299	\|\|>> mk_Freess "p" p_Tss
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1300	\|\|>> mk_Freessss "q" q_Tssss
54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1301	\|\|>> mk_Freessss "g" g_Tssss;
51831 a5137cd2c2c2 tuning blanchet parents: 51830 diff changeset	1302
a5137cd2c2c2 tuning blanchet parents: 51830 diff changeset	1303	val cpss = map2 (map o rapp) cs pss;
51829 3cc93eeac8cc signature tuning blanchet parents: 51828 diff changeset	1304
61551 078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	1305	fun build_sum_inj mk_inj = build_map ctxt [] (uncurry mk_inj o dest_sumT o snd);
52347 ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	1306
55871 a28817253b31 removed (co)iterators from documentation blanchet parents: 55869 diff changeset	1307	fun build_dtor_corec_arg _ [] [cg] = cg
a28817253b31 removed (co)iterators from documentation blanchet parents: 55869 diff changeset	1308	\| build_dtor_corec_arg T [cq] [cg, cg'] =
a28817253b31 removed (co)iterators from documentation blanchet parents: 55869 diff changeset	1309	mk_If cq (build_sum_inj Inl_const (fastype_of cg, T) $ cg)
a28817253b31 removed (co)iterators from documentation blanchet parents: 55869 diff changeset	1310	(build_sum_inj Inr_const (fastype_of cg', T) $ cg');
52347 ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	1311
58634 9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	1312	val pgss = @{map 3} flat_corec_preds_predsss_gettersss pss qssss gssss;
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1313	val cqssss = map2 (map o map o map o rapp) cs qssss;
54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1314	val cgssss = map2 (map o map o map o rapp) cs gssss;
58634 9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	1315	val cqgsss = @{map 3} (@{map 3} (@{map 3} build_dtor_corec_arg)) g_Tsss cqssss cgssss;
51831 a5137cd2c2c2 tuning blanchet parents: 51830 diff changeset	1316	in
61551 078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	1317	(x, cs, cpss, (((pgss, pss, qssss, gssss), cqgsss), corec_types))
51831 a5137cd2c2c2 tuning blanchet parents: 51830 diff changeset	1318	end;
51829 3cc93eeac8cc signature tuning blanchet parents: 51828 diff changeset	1319
61551 078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	1320	fun mk_co_recs_prelims ctxt fp ctr_Tsss fpTs Cs absTs repTs ns mss xtor_co_recs0 =
51903 126f8d11f873 move function to library blanchet parents: 51902 diff changeset	1321	let
61551 078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	1322	val thy = Proof_Context.theory_of ctxt;
52169 418f5ad4c1c5 tuning blanchet parents: 51912 diff changeset	1323
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	1324	val (xtor_co_rec_fun_Ts, xtor_co_recs) =
79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	1325	mk_xtor_co_recs thy fp fpTs Cs xtor_co_recs0 \|> `(binder_fun_types o fastype_of o hd);
51903 126f8d11f873 move function to library blanchet parents: 51902 diff changeset	1326
61551 078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	1327	val (recs_args_types, corecs_args_types) =
52207 21026c312cc3 tuning -- avoided unreadable true/false all over the place for LFP/GFP blanchet parents: 52197 diff changeset	1328	if fp = Least_FP then
61551 078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	1329	mk_recs_args_types ctxt ctr_Tsss Cs absTs repTs ns mss xtor_co_rec_fun_Ts
078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	1330	\|> (rpair NONE o SOME)
51903 126f8d11f873 move function to library blanchet parents: 51902 diff changeset	1331	else
61551 078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	1332	mk_corecs_args_types ctxt ctr_Tsss Cs absTs repTs ns mss xtor_co_rec_fun_Ts
078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	1333	\|> (pair NONE o SOME);
51903 126f8d11f873 move function to library blanchet parents: 51902 diff changeset	1334	in
61551 078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	1335	(xtor_co_recs, recs_args_types, corecs_args_types)
51903 126f8d11f873 move function to library blanchet parents: 51902 diff changeset	1336	end;
126f8d11f873 move function to library blanchet parents: 51902 diff changeset	1337
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1338	fun mk_preds_getterss_join c cps absT abs cqgss =
55803 74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	1339	let
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1340	val n = length cqgss;
54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1341	val ts = map2 (mk_absumprod absT abs n) (1 upto n) cqgss;
55803 74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	1342	in
74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	1343	Term.lambda c (mk_IfN absT cps ts)
51900 826b5f3846e9 tuning blanchet parents: 51899 diff changeset	1344	end;
51886 e7fac4a483b5 started factoring out coiter construction blanchet parents: 51885 diff changeset	1345
58210 a456b2c03491 tuning blanchet parents: 58209 diff changeset	1346	fun define_co_rec_as fp Cs fpT b rhs lthy0 =
51897 9a27c870ee21 refactoring blanchet parents: 51896 diff changeset	1347	let
52170 564be617ae84 generalized "mk_co_iter" to handle mutualized (co)iterators blanchet parents: 52169 diff changeset	1348	val thy = Proof_Context.theory_of lthy0;
564be617ae84 generalized "mk_co_iter" to handle mutualized (co)iterators blanchet parents: 52169 diff changeset	1349
55864 516ab2906e7e rationalized internals blanchet parents: 55863 diff changeset	1350	val ((cst, (_, def)), (lthy', lthy)) = lthy0
61101 7b915ca69af1 use open/close_target rather than Local_Theory.restore to get polymorphic definitions; traytel parents: 60801 diff changeset	1351	\|> Local_Theory.open_target \|> snd
62093 bd73a2279fcd more uniform treatment of package internals; wenzelm parents: 61760 diff changeset	1352	\|> Local_Theory.define
bd73a2279fcd more uniform treatment of package internals; wenzelm parents: 61760 diff changeset	1353	((b, NoSyn), ((Thm.make_def_binding (Config.get lthy0 bnf_internals) b, []), rhs))
61101 7b915ca69af1 use open/close_target rather than Local_Theory.restore to get polymorphic definitions; traytel parents: 60801 diff changeset	1354	\|\|> `Local_Theory.close_target;
52327 9f14280aa080 tuning blanchet parents: 52326 diff changeset	1355
9f14280aa080 tuning blanchet parents: 52326 diff changeset	1356	val phi = Proof_Context.export_morphism lthy lthy';
9f14280aa080 tuning blanchet parents: 52326 diff changeset	1357
58211 c1f3fa32d322 extended 'datatype_compat' to generate the expected, old-style recursor in the presence of recursion through functions blanchet parents: 58210 diff changeset	1358	val cst' = mk_co_rec thy fp Cs fpT (Morphism.term phi cst);
55864 516ab2906e7e rationalized internals blanchet parents: 55863 diff changeset	1359	val def' = Morphism.thm phi def;
52327 9f14280aa080 tuning blanchet parents: 52326 diff changeset	1360	in
55864 516ab2906e7e rationalized internals blanchet parents: 55863 diff changeset	1361	((cst', def'), lthy')
52327 9f14280aa080 tuning blanchet parents: 52326 diff changeset	1362	end;
9f14280aa080 tuning blanchet parents: 52326 diff changeset	1363
56641 029997d3b5d8 reverted rb458558cbcc2 -- better to keep 'case' and 'rec' distinct, otherwise we lose the connection between 'ctor_rec' (the low-level recursor) and 'rec' blanchet parents: 56640 diff changeset	1364	fun define_rec (_, _, fss, xssss) mk_binding fpTs Cs reps ctor_rec =
029997d3b5d8 reverted rb458558cbcc2 -- better to keep 'case' and 'rec' distinct, otherwise we lose the connection between 'ctor_rec' (the low-level recursor) and 'rec' blanchet parents: 56640 diff changeset	1365	let
029997d3b5d8 reverted rb458558cbcc2 -- better to keep 'case' and 'rec' distinct, otherwise we lose the connection between 'ctor_rec' (the low-level recursor) and 'rec' blanchet parents: 56640 diff changeset	1366	val nn = length fpTs;
029997d3b5d8 reverted rb458558cbcc2 -- better to keep 'case' and 'rec' distinct, otherwise we lose the connection between 'ctor_rec' (the low-level recursor) and 'rec' blanchet parents: 56640 diff changeset	1367	val (ctor_rec_absTs, fpT) = strip_typeN nn (fastype_of ctor_rec)
029997d3b5d8 reverted rb458558cbcc2 -- better to keep 'case' and 'rec' distinct, otherwise we lose the connection between 'ctor_rec' (the low-level recursor) and 'rec' blanchet parents: 56640 diff changeset	1368	\|>> map domain_type \|\|> domain_type;
029997d3b5d8 reverted rb458558cbcc2 -- better to keep 'case' and 'rec' distinct, otherwise we lose the connection between 'ctor_rec' (the low-level recursor) and 'rec' blanchet parents: 56640 diff changeset	1369	in
58210 a456b2c03491 tuning blanchet parents: 58209 diff changeset	1370	define_co_rec_as Least_FP Cs fpT (mk_binding recN)
56641 029997d3b5d8 reverted rb458558cbcc2 -- better to keep 'case' and 'rec' distinct, otherwise we lose the connection between 'ctor_rec' (the low-level recursor) and 'rec' blanchet parents: 56640 diff changeset	1371	(fold_rev (fold_rev Term.lambda) fss (Term.list_comb (ctor_rec,
58634 9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	1372	@{map 4} (fn ctor_rec_absT => fn rep => fn fs => fn xsss =>
56641 029997d3b5d8 reverted rb458558cbcc2 -- better to keep 'case' and 'rec' distinct, otherwise we lose the connection between 'ctor_rec' (the low-level recursor) and 'rec' blanchet parents: 56640 diff changeset	1373	mk_case_absumprod ctor_rec_absT rep fs (map (map HOLogic.mk_tuple) xsss)
029997d3b5d8 reverted rb458558cbcc2 -- better to keep 'case' and 'rec' distinct, otherwise we lose the connection between 'ctor_rec' (the low-level recursor) and 'rec' blanchet parents: 56640 diff changeset	1374	(map flat_rec_arg_args xsss))
029997d3b5d8 reverted rb458558cbcc2 -- better to keep 'case' and 'rec' distinct, otherwise we lose the connection between 'ctor_rec' (the low-level recursor) and 'rec' blanchet parents: 56640 diff changeset	1375	ctor_rec_absTs reps fss xssss)))
029997d3b5d8 reverted rb458558cbcc2 -- better to keep 'case' and 'rec' distinct, otherwise we lose the connection between 'ctor_rec' (the low-level recursor) and 'rec' blanchet parents: 56640 diff changeset	1376	end;
51897 9a27c870ee21 refactoring blanchet parents: 51896 diff changeset	1377
61760 1647bb489522 tuned whitespace blanchet parents: 61551 diff changeset	1378	fun define_corec (_, cs, cpss, (((pgss, _, _, _), cqgsss), f_absTs)) mk_binding fpTs Cs abss
1647bb489522 tuned whitespace blanchet parents: 61551 diff changeset	1379	dtor_corec =
51897 9a27c870ee21 refactoring blanchet parents: 51896 diff changeset	1380	let
51899 c2c23ac31973 code tuning blanchet parents: 51897 diff changeset	1381	val nn = length fpTs;
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	1382	val fpT = range_type (snd (strip_typeN nn (fastype_of dtor_corec)));
51897 9a27c870ee21 refactoring blanchet parents: 51896 diff changeset	1383	in
58210 a456b2c03491 tuning blanchet parents: 58209 diff changeset	1384	define_co_rec_as Greatest_FP Cs fpT (mk_binding corecN)
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1385	(fold_rev (fold_rev Term.lambda) pgss (Term.list_comb (dtor_corec,
58634 9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	1386	@{map 5} mk_preds_getterss_join cs cpss f_absTs abss cqgsss)))
52320 597fcdb7ea64 tuning blanchet parents: 52319 diff changeset	1387	end;
51897 9a27c870ee21 refactoring blanchet parents: 51896 diff changeset	1388
62158 c25c62055180 generate stronger 'rel_(co)induct' and 'coinduct' principles for mutually (co)recursive (co)datatypes blanchet parents: 62093 diff changeset	1389	fun postproc_co_induct ctxt nn prop prop_conj =
57471 11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1390	Drule.zero_var_indexes
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1391	#> `(conj_dests nn)
58472 4d00caa0e4d7 tuning blanchet parents: 58462 diff changeset	1392	#>> map (fn thm => Thm.permute_prems 0 ~1 (thm RS prop))
4d00caa0e4d7 tuning blanchet parents: 58462 diff changeset	1393	##> (fn thm => Thm.permute_prems 0 (~ nn)
57471 11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1394	(if nn = 1 then thm RS prop
62158 c25c62055180 generate stronger 'rel_(co)induct' and 'coinduct' principles for mutually (co)recursive (co)datatypes blanchet parents: 62093 diff changeset	1395	else funpow nn (fn thm => unfold_thms ctxt @{thms conj_assoc} (thm RS prop_conj)) thm));
57471 11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1396
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1397	fun mk_induct_attrs ctrss =
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1398	let
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1399	val induct_cases = quasi_unambiguous_case_names (maps (map name_of_ctr) ctrss);
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1400	val induct_case_names_attr = Attrib.internal (K (Rule_Cases.case_names induct_cases));
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1401	in
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1402	[induct_case_names_attr]
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1403	end;
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1404
62158 c25c62055180 generate stronger 'rel_(co)induct' and 'coinduct' principles for mutually (co)recursive (co)datatypes blanchet parents: 62093 diff changeset	1405	fun derive_rel_induct_thms_for_types lthy nn fpA_Ts As Bs ctrAss ctrAs_Tsss exhausts ctor_rel_induct
57535 9b99b773acd4 made SML/NJ happier blanchet parents: 57525 diff changeset	1406	ctor_defss ctor_injects pre_rel_defs abs_inverses live_nesting_rel_eqs =
57471 11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1407	let
58446 e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	1408	val B_ify_T = Term.typ_subst_atomic (As ~~ Bs);
e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	1409	val B_ify = Term.subst_atomic_types (As ~~ Bs);
e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	1410
e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	1411	val fpB_Ts = map B_ify_T fpA_Ts;
e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	1412	val ctrBs_Tsss = map (map (map B_ify_T)) ctrAs_Tsss;
e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	1413	val ctrBss = map (map B_ify) ctrAss;
57471 11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1414
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1415	val ((((Rs, IRs), ctrAsss), ctrBsss), names_lthy) = lthy
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1416	\|> mk_Frees "R" (map2 mk_pred2T As Bs)
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1417	\|\|>> mk_Frees "IR" (map2 mk_pred2T fpA_Ts fpB_Ts)
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1418	\|\|>> mk_Freesss "a" ctrAs_Tsss
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1419	\|\|>> mk_Freesss "b" ctrBs_Tsss;
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1420
58291 81a5f05130c1 tuning blanchet parents: 58285 diff changeset	1421	val prems =
57471 11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1422	let
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1423	fun mk_prem ctrA ctrB argAs argBs =
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1424	fold_rev Logic.all (argAs @ argBs) (fold_rev (curry Logic.mk_implies)
57565 ab7f39114507 refactor commonly used functions desharna parents: 57563 diff changeset	1425	(map2 (HOLogic.mk_Trueprop oo build_rel_app names_lthy (Rs @ IRs) fpA_Ts) argAs argBs)
ab7f39114507 refactor commonly used functions desharna parents: 57563 diff changeset	1426	(HOLogic.mk_Trueprop (build_rel_app names_lthy (Rs @ IRs) fpA_Ts
ab7f39114507 refactor commonly used functions desharna parents: 57563 diff changeset	1427	(Term.list_comb (ctrA, argAs)) (Term.list_comb (ctrB, argBs)))));
57471 11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1428	in
58634 9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	1429	flat (@{map 4} (@{map 4} mk_prem) ctrAss ctrBss ctrAsss ctrBsss)
57471 11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1430	end;
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1431
57525 f9dd8a33f820 generate 'rel_cases' theorem for (co)datatypes desharna parents: 57493 diff changeset	1432	val goal = HOLogic.mk_Trueprop (Library.foldr1 HOLogic.mk_conj (map2 mk_leq
62385 7891843d79bb tuning blanchet parents: 62383 diff changeset	1433	(map2 (build_the_rel lthy (Rs @ IRs) []) fpA_Ts fpB_Ts) IRs));
61334 8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	1434	val vars = Variable.add_free_names lthy goal [];
57471 11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1435
57898 f7f75b33d6c8 avoid needless (and wrong w.r.t. sorts) generation of type variables; tuned whitespaces; blanchet parents: 57893 diff changeset	1436	val rel_induct0_thm =
61334 8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	1437	Goal.prove_sorry lthy vars prems goal (fn {context = ctxt, prems} =>
61760 1647bb489522 tuned whitespace blanchet parents: 61551 diff changeset	1438	mk_rel_induct0_tac ctxt ctor_rel_induct prems (map (Thm.cterm_of ctxt) IRs) exhausts
1647bb489522 tuned whitespace blanchet parents: 61551 diff changeset	1439	ctor_defss ctor_injects pre_rel_defs abs_inverses live_nesting_rel_eqs)
57471 11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1440	\|> Thm.close_derivation;
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1441	in
62158 c25c62055180 generate stronger 'rel_(co)induct' and 'coinduct' principles for mutually (co)recursive (co)datatypes blanchet parents: 62093 diff changeset	1442	(postproc_co_induct lthy nn @{thm predicate2D} @{thm predicate2D_conj} rel_induct0_thm,
57471 11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1443	mk_induct_attrs ctrAss)
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1444	end;
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1445
58335 a5a3b576fcfb generate 'code' attribute only if 'code' plugin is enabled blanchet parents: 58332 diff changeset	1446	fun derive_induct_recs_thms_for_types plugins pre_bnfs rec_args_typess ctor_induct ctor_rec_thms
57397 5004aca20821 tuned variable names blanchet parents: 57303 diff changeset	1447	live_nesting_bnfs fp_nesting_bnfs fpTs Cs Xs ctrXs_Tsss fp_abs_inverses fp_type_definitions
5004aca20821 tuned variable names blanchet parents: 57303 diff changeset	1448	abs_inverses ctrss ctr_defss recs rec_defs lthy =
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1449	let
51827 836257faaad5 tuned signature blanchet parents: 51824 diff changeset	1450	val ctr_Tsss = map (map (binder_types o fastype_of)) ctrss;
836257faaad5 tuned signature blanchet parents: 51824 diff changeset	1451
51815 efacb9b99865 tune signatures blanchet parents: 51814 diff changeset	1452	val nn = length pre_bnfs;
51827 836257faaad5 tuned signature blanchet parents: 51824 diff changeset	1453	val ns = map length ctr_Tsss;
836257faaad5 tuned signature blanchet parents: 51824 diff changeset	1454	val mss = map (map length) ctr_Tsss;
51815 efacb9b99865 tune signatures blanchet parents: 51814 diff changeset	1455
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1456	val pre_map_defs = map map_def_of_bnf pre_bnfs;
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1457	val pre_set_defss = map set_defs_of_bnf pre_bnfs;
57399 cfc19f0a6261 compile blanchet parents: 57397 diff changeset	1458	val live_nesting_map_ident0s = map map_ident0_of_bnf live_nesting_bnfs;
cfc19f0a6261 compile blanchet parents: 57397 diff changeset	1459	val fp_nesting_map_ident0s = map map_ident0_of_bnf fp_nesting_bnfs;
57397 5004aca20821 tuned variable names blanchet parents: 57303 diff changeset	1460	val fp_nesting_set_maps = maps set_map_of_bnf fp_nesting_bnfs;
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1461
51816 5f1dec4297da use base names, not full names blanchet parents: 51815 diff changeset	1462	val fp_b_names = map base_name_of_typ fpTs;
51811 1461426e2bf1 tuned function signatures blanchet parents: 51810 diff changeset	1463
61344 ebf296fe88d7 generate 'case_transfer' unconditionally blanchet parents: 61334 diff changeset	1464	val ((((ps, ps'), xsss), us'), names_lthy) = lthy
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1465	\|> mk_Frees' "P" (map mk_pred1T fpTs)
51827 836257faaad5 tuned signature blanchet parents: 51824 diff changeset	1466	\|\|>> mk_Freesss "x" ctr_Tsss
51816 5f1dec4297da use base names, not full names blanchet parents: 51815 diff changeset	1467	\|\|>> Variable.variant_fixes fp_b_names;
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1468
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1469	val us = map2 (curry Free) us' fpTs;
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1470
57665 232954f7df1c tuned code blanchet parents: 57633 diff changeset	1471	fun mk_sets bnf =
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1472	let
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1473	val Type (T_name, Us) = T_of_bnf bnf;
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1474	val lives = lives_of_bnf bnf;
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1475	val sets = sets_of_bnf bnf;
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1476	fun mk_set U =
54237 7cc6e286fe28 made sugared 'coinduct' theorem construction n2m-proof blanchet parents: 54236 diff changeset	1477	(case find_index (curry (op =) U) lives of
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1478	~1 => Term.dummy
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1479	\| i => nth sets i);
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1480	in
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1481	(T_name, map mk_set Us)
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1482	end;
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1483
57665 232954f7df1c tuned code blanchet parents: 57633 diff changeset	1484	val setss_fp_nesting = map mk_sets fp_nesting_bnfs;
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1485
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1486	val (induct_thms, induct_thm) =
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1487	let
52310 28063e412793 support induction principles with multiple occurrences of the same type in "fpTs" and (hopefully) with loss of recursion (e.g. primrec definition of is_nil, where the IH can be dropped) blanchet parents: 52309 diff changeset	1488	fun mk_raw_prem_prems _ (x as Free (_, Type _)) (X as TFree _) =
54237 7cc6e286fe28 made sugared 'coinduct' theorem construction n2m-proof blanchet parents: 54236 diff changeset	1489	[([], (find_index (curry (op =) X) Xs + 1, x))]
52310 28063e412793 support induction principles with multiple occurrences of the same type in "fpTs" and (hopefully) with loss of recursion (e.g. primrec definition of is_nil, where the IH can be dropped) blanchet parents: 52309 diff changeset	1490	\| mk_raw_prem_prems names_lthy (x as Free (s, Type (T_name, Ts0))) (Type (_, Xs_Ts0)) =
57665 232954f7df1c tuned code blanchet parents: 57633 diff changeset	1491	(case AList.lookup (op =) setss_fp_nesting T_name of
52310 28063e412793 support induction principles with multiple occurrences of the same type in "fpTs" and (hopefully) with loss of recursion (e.g. primrec definition of is_nil, where the IH can be dropped) blanchet parents: 52309 diff changeset	1492	NONE => []
28063e412793 support induction principles with multiple occurrences of the same type in "fpTs" and (hopefully) with loss of recursion (e.g. primrec definition of is_nil, where the IH can be dropped) blanchet parents: 52309 diff changeset	1493	\| SOME raw_sets0 =>
28063e412793 support induction principles with multiple occurrences of the same type in "fpTs" and (hopefully) with loss of recursion (e.g. primrec definition of is_nil, where the IH can be dropped) blanchet parents: 52309 diff changeset	1494	let
28063e412793 support induction principles with multiple occurrences of the same type in "fpTs" and (hopefully) with loss of recursion (e.g. primrec definition of is_nil, where the IH can be dropped) blanchet parents: 52309 diff changeset	1495	val (Xs_Ts, (Ts, raw_sets)) =
28063e412793 support induction principles with multiple occurrences of the same type in "fpTs" and (hopefully) with loss of recursion (e.g. primrec definition of is_nil, where the IH can be dropped) blanchet parents: 52309 diff changeset	1496	filter (exists_subtype_in Xs o fst) (Xs_Ts0 ~~ (Ts0 ~~ raw_sets0))
28063e412793 support induction principles with multiple occurrences of the same type in "fpTs" and (hopefully) with loss of recursion (e.g. primrec definition of is_nil, where the IH can be dropped) blanchet parents: 52309 diff changeset	1497	\|> split_list \|\|> split_list;
28063e412793 support induction principles with multiple occurrences of the same type in "fpTs" and (hopefully) with loss of recursion (e.g. primrec definition of is_nil, where the IH can be dropped) blanchet parents: 52309 diff changeset	1498	val sets = map (mk_set Ts0) raw_sets;
28063e412793 support induction principles with multiple occurrences of the same type in "fpTs" and (hopefully) with loss of recursion (e.g. primrec definition of is_nil, where the IH can be dropped) blanchet parents: 52309 diff changeset	1499	val (ys, names_lthy') = names_lthy \|> mk_Frees s Ts;
28063e412793 support induction principles with multiple occurrences of the same type in "fpTs" and (hopefully) with loss of recursion (e.g. primrec definition of is_nil, where the IH can be dropped) blanchet parents: 52309 diff changeset	1500	val xysets = map (pair x) (ys ~~ sets);
28063e412793 support induction principles with multiple occurrences of the same type in "fpTs" and (hopefully) with loss of recursion (e.g. primrec definition of is_nil, where the IH can be dropped) blanchet parents: 52309 diff changeset	1501	val ppremss = map2 (mk_raw_prem_prems names_lthy') ys Xs_Ts;
28063e412793 support induction principles with multiple occurrences of the same type in "fpTs" and (hopefully) with loss of recursion (e.g. primrec definition of is_nil, where the IH can be dropped) blanchet parents: 52309 diff changeset	1502	in
28063e412793 support induction principles with multiple occurrences of the same type in "fpTs" and (hopefully) with loss of recursion (e.g. primrec definition of is_nil, where the IH can be dropped) blanchet parents: 52309 diff changeset	1503	flat (map2 (map o apfst o cons) xysets ppremss)
28063e412793 support induction principles with multiple occurrences of the same type in "fpTs" and (hopefully) with loss of recursion (e.g. primrec definition of is_nil, where the IH can be dropped) blanchet parents: 52309 diff changeset	1504	end)
28063e412793 support induction principles with multiple occurrences of the same type in "fpTs" and (hopefully) with loss of recursion (e.g. primrec definition of is_nil, where the IH can be dropped) blanchet parents: 52309 diff changeset	1505	\| mk_raw_prem_prems _ _ _ = [];
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1506
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1507	fun close_prem_prem xs t =
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1508	fold_rev Logic.all (map Free (drop (nn + length xs)
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1509	(rev (Term.add_frees t (map dest_Free xs @ ps'))))) t;
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1510
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1511	fun mk_prem_prem xs (xysets, (j, x)) =
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1512	close_prem_prem xs (Logic.list_implies (map (fn (x', (y, set)) =>
57567 d554b0097ad4 add mk_Trueprop_mem utility function desharna parents: 57565 diff changeset	1513	mk_Trueprop_mem (y, set $ x')) xysets,
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1514	HOLogic.mk_Trueprop (nth ps (j - 1) $ x)));
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1515
52310 28063e412793 support induction principles with multiple occurrences of the same type in "fpTs" and (hopefully) with loss of recursion (e.g. primrec definition of is_nil, where the IH can be dropped) blanchet parents: 52309 diff changeset	1516	fun mk_raw_prem phi ctr ctr_Ts ctrXs_Ts =
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1517	let
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1518	val (xs, names_lthy') = names_lthy \|> mk_Frees "x" ctr_Ts;
52310 28063e412793 support induction principles with multiple occurrences of the same type in "fpTs" and (hopefully) with loss of recursion (e.g. primrec definition of is_nil, where the IH can be dropped) blanchet parents: 52309 diff changeset	1519	val pprems = flat (map2 (mk_raw_prem_prems names_lthy') xs ctrXs_Ts);
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1520	in (xs, pprems, HOLogic.mk_Trueprop (phi $ Term.list_comb (ctr, xs))) end;
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1521
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1522	fun mk_prem (xs, raw_pprems, concl) =
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1523	fold_rev Logic.all xs (Logic.list_implies (map (mk_prem_prem xs) raw_pprems, concl));
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1524
58634 9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	1525	val raw_premss = @{map 4} (@{map 3} o mk_raw_prem) ps ctrss ctr_Tsss ctrXs_Tsss;
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1526
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1527	val goal =
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1528	Library.foldr (Logic.list_implies o apfst (map mk_prem)) (raw_premss,
54237 7cc6e286fe28 made sugared 'coinduct' theorem construction n2m-proof blanchet parents: 54236 diff changeset	1529	HOLogic.mk_Trueprop (Library.foldr1 HOLogic.mk_conj (map2 (curry (op $)) ps us)));
61334 8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	1530	val vars = Variable.add_free_names lthy goal [];
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1531
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1532	val kksss = map (map (map (fst o snd) o #2)) raw_premss;
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1533
55803 74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	1534	val ctor_induct' = ctor_induct OF (map2 mk_absumprodE fp_type_definitions mss);
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1535
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1536	val thm =
61334 8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	1537	Goal.prove_sorry lthy vars [] goal (fn {context = ctxt, ...} =>
55803 74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	1538	mk_induct_tac ctxt nn ns mss kksss (flat ctr_defss) ctor_induct' fp_abs_inverses
57397 5004aca20821 tuned variable names blanchet parents: 57303 diff changeset	1539	abs_inverses fp_nesting_set_maps pre_set_defss)
61334 8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	1540	\|> Thm.close_derivation;
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1541	in
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1542	`(conj_dests nn) thm
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1543	end;
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1544
52305 3f7b92017d71 avoid code duplication blanchet parents: 52304 diff changeset	1545	val xctrss = map2 (map2 (curry Term.list_comb)) ctrss xsss;
3f7b92017d71 avoid code duplication blanchet parents: 52304 diff changeset	1546
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	1547	fun mk_rec_thmss (_, x_Tssss, fss, _) recs rec_defs ctor_rec_thms =
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1548	let
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	1549	val frecs = map (lists_bmoc fss) recs;
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1550
55871 a28817253b31 removed (co)iterators from documentation blanchet parents: 55869 diff changeset	1551	fun mk_goal frec xctr f xs fxs =
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1552	fold_rev (fold_rev Logic.all) (xs :: fss)
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	1553	(mk_Trueprop_eq (frec $ xctr, Term.list_comb (f, fxs)));
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1554
52302 867d5d16158c tuning blanchet parents: 52301 diff changeset	1555	fun maybe_tick (T, U) u f =
867d5d16158c tuning blanchet parents: 52301 diff changeset	1556	if try (fst o HOLogic.dest_prodT) U = SOME T then
867d5d16158c tuning blanchet parents: 52301 diff changeset	1557	Term.lambda u (HOLogic.mk_prod (u, f $ u))
867d5d16158c tuning blanchet parents: 52301 diff changeset	1558	else
867d5d16158c tuning blanchet parents: 52301 diff changeset	1559	f;
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1560
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	1561	fun build_rec (x as Free (_, T)) U =
52368 13ca6876f748 tuning blanchet parents: 52367 diff changeset	1562	if T = U then
13ca6876f748 tuning blanchet parents: 52367 diff changeset	1563	x
13ca6876f748 tuning blanchet parents: 52367 diff changeset	1564	else
58352 37745650a3f4 register 'prod' and 'sum' as datatypes, to allow N2M through them blanchet parents: 58347 diff changeset	1565	let
37745650a3f4 register 'prod' and 'sum' as datatypes, to allow N2M through them blanchet parents: 58347 diff changeset	1566	val build_simple =
37745650a3f4 register 'prod' and 'sum' as datatypes, to allow N2M through them blanchet parents: 58347 diff changeset	1567	indexify (perhaps (try (snd o HOLogic.dest_prodT)) o snd) Cs
37745650a3f4 register 'prod' and 'sum' as datatypes, to allow N2M through them blanchet parents: 58347 diff changeset	1568	(fn kk => fn TU => maybe_tick TU (nth us kk) (nth frecs kk));
37745650a3f4 register 'prod' and 'sum' as datatypes, to allow N2M through them blanchet parents: 58347 diff changeset	1569	in
37745650a3f4 register 'prod' and 'sum' as datatypes, to allow N2M through them blanchet parents: 58347 diff changeset	1570	build_map lthy [] build_simple (T, U) $ x
37745650a3f4 register 'prod' and 'sum' as datatypes, to allow N2M through them blanchet parents: 58347 diff changeset	1571	end;
52301 7935e82a4ae4 simpler, more robust iterator goal construction code blanchet parents: 52300 diff changeset	1572
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	1573	val fxsss = map2 (map2 (flat_rec_arg_args oo map2 (map o build_rec))) xsss x_Tssss;
58634 9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	1574	val goalss = @{map 5} (@{map 4} o mk_goal) frecs xctrss fss xsss fxsss;
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1575
58634 9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	1576	val tacss = @{map 4} (map ooo
57399 cfc19f0a6261 compile blanchet parents: 57397 diff changeset	1577	mk_rec_tac pre_map_defs (fp_nesting_map_ident0s @ live_nesting_map_ident0s) rec_defs)
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	1578	ctor_rec_thms fp_abs_inverses abs_inverses ctr_defss;
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1579
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1580	fun prove goal tac =
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1581	Goal.prove_sorry lthy [] [] goal (tac o #context)
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1582	\|> Thm.close_derivation;
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1583	in
52305 3f7b92017d71 avoid code duplication blanchet parents: 52304 diff changeset	1584	map2 (map2 prove) goalss tacss
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1585	end;
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1586
56641 029997d3b5d8 reverted rb458558cbcc2 -- better to keep 'case' and 'rec' distinct, otherwise we lose the connection between 'ctor_rec' (the low-level recursor) and 'rec' blanchet parents: 56640 diff changeset	1587	val rec_thmss = mk_rec_thmss (the rec_args_typess) recs rec_defs ctor_rec_thms;
58335 a5a3b576fcfb generate 'code' attribute only if 'code' plugin is enabled blanchet parents: 58332 diff changeset	1588
59283 5ca195783da8 generate [code] only with 'code' plugin enabled blanchet parents: 59276 diff changeset	1589	val code_attrs = if plugins code_plugin then [Code.add_default_eqn_attrib] else [];
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1590	in
57471 11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	1591	((induct_thms, induct_thm, mk_induct_attrs ctrss),
58335 a5a3b576fcfb generate 'code' attribute only if 'code' plugin is enabled blanchet parents: 58332 diff changeset	1592	(rec_thmss, code_attrs @ nitpicksimp_attrs @ simp_attrs))
51808 355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1593	end;
355dcd6a9b3c factored out derivation of induction principles, folds and recs, in preparation for reduction of nested to mutual blanchet parents: 51805 diff changeset	1594
58283 71d74e641538 preserve case names in '(co)induct' theorems generated by prim(co)rec' blanchet parents: 58267 diff changeset	1595	fun mk_coinduct_attrs fpTs ctrss discss mss =
57302 58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1596	let
58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1597	val fp_b_names = map base_name_of_typ fpTs;
57535 9b99b773acd4 made SML/NJ happier blanchet parents: 57525 diff changeset	1598
57302 58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1599	fun mk_coinduct_concls ms discs ctrs =
58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1600	let
58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1601	fun mk_disc_concl disc = [name_of_disc disc];
58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1602	fun mk_ctr_concl 0 _ = []
58284 f9b6af3017fd nicer case names in the N2M case, similar to those generated by the old package (e.g. 'Cons_tree' instead of just 'Cons') blanchet parents: 58283 diff changeset	1603	\| mk_ctr_concl _ ctr = [name_of_ctr ctr];
57302 58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1604	val disc_concls = map mk_disc_concl (fst (split_last discs)) @ [[]];
58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1605	val ctr_concls = map2 mk_ctr_concl ms ctrs;
58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1606	in
58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1607	flat (map2 append disc_concls ctr_concls)
58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1608	end;
57535 9b99b773acd4 made SML/NJ happier blanchet parents: 57525 diff changeset	1609
62321 1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	1610	val coinduct_cases = quasi_unambiguous_case_names (map (prefix Eq_prefix) fp_b_names);
57302 58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1611	val coinduct_conclss =
58634 9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	1612	@{map 3} (quasi_unambiguous_case_names ooo mk_coinduct_concls) mss discss ctrss;
57302 58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1613
58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1614	val coinduct_consumes_attr = Attrib.internal (K (Rule_Cases.consumes 1));
58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1615
58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1616	val coinduct_case_names_attr = Attrib.internal (K (Rule_Cases.case_names coinduct_cases));
58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1617	val coinduct_case_concl_attrs =
58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1618	map2 (fn casex => fn concls =>
58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1619	Attrib.internal (K (Rule_Cases.case_conclusion (casex, concls))))
58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1620	coinduct_cases coinduct_conclss;
58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1621
62158 c25c62055180 generate stronger 'rel_(co)induct' and 'coinduct' principles for mutually (co)recursive (co)datatypes blanchet parents: 62093 diff changeset	1622	val common_coinduct_attrs = coinduct_case_names_attr :: coinduct_case_concl_attrs;
57302 58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1623	val coinduct_attrs =
58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1624	coinduct_consumes_attr :: coinduct_case_names_attr :: coinduct_case_concl_attrs;
58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1625	in
58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1626	(coinduct_attrs, common_coinduct_attrs)
58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1627	end;
58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1628
62158 c25c62055180 generate stronger 'rel_(co)induct' and 'coinduct' principles for mutually (co)recursive (co)datatypes blanchet parents: 62093 diff changeset	1629	fun derive_rel_coinduct_thms_for_types lthy nn fpA_Ts ns As Bs mss (ctr_sugars : ctr_sugar list)
57535 9b99b773acd4 made SML/NJ happier blanchet parents: 57525 diff changeset	1630	abs_inverses abs_injects ctor_injects dtor_ctors rel_pre_defs ctor_defss dtor_rel_coinduct
9b99b773acd4 made SML/NJ happier blanchet parents: 57525 diff changeset	1631	live_nesting_rel_eqs =
57301 7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1632	let
58446 e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	1633	val B_ify_T = Term.typ_subst_atomic (As ~~ Bs);
e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	1634	val fpB_Ts = map B_ify_T fpA_Ts;
57301 7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1635
61334 8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	1636	val (Rs, IRs, fpAs, fpBs, _) =
57301 7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1637	let
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1638	val fp_names = map base_name_of_typ fpA_Ts;
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1639	val ((((Rs, IRs), fpAs_names), fpBs_names), names_lthy) = lthy
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1640	\|> mk_Frees "R" (map2 mk_pred2T As Bs)
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1641	\|\|>> mk_Frees "IR" (map2 mk_pred2T fpA_Ts fpB_Ts)
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1642	\|\|>> Variable.variant_fixes fp_names
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1643	\|\|>> Variable.variant_fixes (map (suffix "'") fp_names);
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1644	in
58291 81a5f05130c1 tuning blanchet parents: 58285 diff changeset	1645	(Rs, IRs, map2 (curry Free) fpAs_names fpA_Ts, map2 (curry Free) fpBs_names fpB_Ts,
81a5f05130c1 tuning blanchet parents: 58285 diff changeset	1646	names_lthy)
57301 7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1647	end;
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1648
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1649	val ((discA_tss, selA_tsss), (discB_tss, selB_tsss)) =
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1650	let
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1651	val discss = map #discs ctr_sugars;
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1652	val selsss = map #selss ctr_sugars;
58291 81a5f05130c1 tuning blanchet parents: 58285 diff changeset	1653
57301 7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1654	fun mk_discss ts Ts = map2 (map o rapp) ts (map (map (mk_disc_or_sel Ts)) discss);
58291 81a5f05130c1 tuning blanchet parents: 58285 diff changeset	1655	fun mk_selsss ts Ts =
81a5f05130c1 tuning blanchet parents: 58285 diff changeset	1656	map2 (map o map o rapp) ts (map (map (map (mk_disc_or_sel Ts))) selsss);
57301 7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1657	in
57302 58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1658	((mk_discss fpAs As, mk_selsss fpAs As),
58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1659	(mk_discss fpBs Bs, mk_selsss fpBs Bs))
57301 7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1660	end;
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1661
58291 81a5f05130c1 tuning blanchet parents: 58285 diff changeset	1662	val prems =
57301 7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1663	let
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1664	fun mk_prem_ctr_concls n k discA_t selA_ts discB_t selB_ts =
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1665	(if k = n then [] else [HOLogic.mk_eq (discA_t, discB_t)]) @
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1666	(case (selA_ts, selB_ts) of
57303 498a62e65f5f tune the implementation of 'rel_coinduct' desharna parents: 57302 diff changeset	1667	([], []) => []
57301 7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1668	\| (_ :: _, _ :: _) =>
57565 ab7f39114507 refactor commonly used functions desharna parents: 57563 diff changeset	1669	[Library.foldr HOLogic.mk_imp
ab7f39114507 refactor commonly used functions desharna parents: 57563 diff changeset	1670	(if n = 1 then [] else [discA_t, discB_t],
ab7f39114507 refactor commonly used functions desharna parents: 57563 diff changeset	1671	Library.foldr1 HOLogic.mk_conj
ab7f39114507 refactor commonly used functions desharna parents: 57563 diff changeset	1672	(map2 (build_rel_app lthy (Rs @ IRs) fpA_Ts) selA_ts selB_ts))]);
57301 7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1673
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1674	fun mk_prem_concl n discA_ts selA_tss discB_ts selB_tss =
58634 9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	1675	Library.foldr1 HOLogic.mk_conj (flat (@{map 5} (mk_prem_ctr_concls n)
57301 7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1676	(1 upto n) discA_ts selA_tss discB_ts selB_tss))
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1677	handle List.Empty => @{term True};
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1678
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1679	fun mk_prem IR tA tB n discA_ts selA_tss discB_ts selB_tss =
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1680	fold_rev Logic.all [tA, tB] (Logic.mk_implies (HOLogic.mk_Trueprop (IR $ tA $ tB),
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1681	HOLogic.mk_Trueprop (mk_prem_concl n discA_ts selA_tss discB_ts selB_tss)));
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1682	in
58634 9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	1683	@{map 8} mk_prem IRs fpAs fpBs ns discA_tss selA_tsss discB_tss selB_tsss
57301 7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1684	end;
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1685
57525 f9dd8a33f820 generate 'rel_cases' theorem for (co)datatypes desharna parents: 57493 diff changeset	1686	val goal = HOLogic.mk_Trueprop (Library.foldr1 HOLogic.mk_conj (map2 mk_leq
62385 7891843d79bb tuning blanchet parents: 62383 diff changeset	1687	IRs (map2 (build_the_rel lthy (Rs @ IRs) []) fpA_Ts fpB_Ts)));
61334 8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	1688	val vars = Variable.add_free_names lthy goal [];
57302 58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1689
57898 f7f75b33d6c8 avoid needless (and wrong w.r.t. sorts) generation of type variables; tuned whitespaces; blanchet parents: 57893 diff changeset	1690	val rel_coinduct0_thm =
61334 8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	1691	Goal.prove_sorry lthy vars prems goal (fn {context = ctxt, prems} =>
59621 291934bac95e Thm.cterm_of and Thm.ctyp_of operate on local context; wenzelm parents: 59582 diff changeset	1692	mk_rel_coinduct0_tac ctxt dtor_rel_coinduct (map (Thm.cterm_of ctxt) IRs) prems
57898 f7f75b33d6c8 avoid needless (and wrong w.r.t. sorts) generation of type variables; tuned whitespaces; blanchet parents: 57893 diff changeset	1693	(map #exhaust ctr_sugars) (map (flat o #disc_thmss) ctr_sugars)
f7f75b33d6c8 avoid needless (and wrong w.r.t. sorts) generation of type variables; tuned whitespaces; blanchet parents: 57893 diff changeset	1694	(map (flat o #sel_thmss) ctr_sugars) ctor_defss dtor_ctors ctor_injects abs_injects
f7f75b33d6c8 avoid needless (and wrong w.r.t. sorts) generation of type variables; tuned whitespaces; blanchet parents: 57893 diff changeset	1695	rel_pre_defs abs_inverses live_nesting_rel_eqs)
57302 58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1696	\|> Thm.close_derivation;
58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	1697	in
62158 c25c62055180 generate stronger 'rel_(co)induct' and 'coinduct' principles for mutually (co)recursive (co)datatypes blanchet parents: 62093 diff changeset	1698	(postproc_co_induct lthy nn @{thm predicate2D} @{thm predicate2D_conj} rel_coinduct0_thm,
58283 71d74e641538 preserve case names in '(co)induct' theorems generated by prim(co)rec' blanchet parents: 58267 diff changeset	1699	mk_coinduct_attrs fpA_Ts (map #ctrs ctr_sugars) (map #discs ctr_sugars) mss)
57301 7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1700	end;
7b997028aaac generate 'rel_coinduct0' theorem for codatatypes desharna parents: 57279 diff changeset	1701
57700 a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1702	fun derive_set_induct_thms_for_types lthy nn fpTs ctrss setss dtor_set_inducts exhausts
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1703	set_pre_defs ctor_defs dtor_ctors Abs_pre_inverses =
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1704	let
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1705	fun mk_prems A Ps ctr_args t ctxt =
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1706	(case fastype_of t of
57891 d23a85b59dec generate 'set_intros' theorem for (co)datatypes desharna parents: 57890 diff changeset	1707	Type (type_name, innerTs) =>
57700 a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1708	(case bnf_of ctxt type_name of
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1709	NONE => ([], ctxt)
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1710	\| SOME bnf =>
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1711	let
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1712	fun seq_assm a set ctxt =
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1713	let
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1714	val X = HOLogic.dest_setT (range_type (fastype_of set));
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1715	val (x, ctxt') = yield_singleton (mk_Frees "x") X ctxt;
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1716	val assm = mk_Trueprop_mem (x, set $ a);
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1717	in
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1718	(case build_binary_fun_app Ps x a of
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1719	NONE =>
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1720	mk_prems A Ps ctr_args x ctxt'
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1721	\|>> map (Logic.all x o Logic.mk_implies o pair assm)
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1722	\| SOME f =>
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1723	([Logic.all x
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1724	(Logic.mk_implies (assm,
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1725	Logic.mk_implies (HOLogic.mk_Trueprop f,
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1726	HOLogic.mk_Trueprop (the (build_binary_fun_app Ps x ctr_args)))))],
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1727	ctxt'))
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1728	end;
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1729	in
57891 d23a85b59dec generate 'set_intros' theorem for (co)datatypes desharna parents: 57890 diff changeset	1730	fold_map (seq_assm t o mk_set innerTs) (sets_of_bnf bnf) ctxt
57700 a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1731	\|>> flat
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1732	end)
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1733	\| T =>
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1734	if T = A then ([HOLogic.mk_Trueprop (the (build_binary_fun_app Ps t ctr_args))], ctxt)
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1735	else ([], ctxt));
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1736
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1737	fun mk_prems_for_ctr A Ps ctr ctxt =
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1738	let
57893 7bc128647d6e generate 'set_cases' theorem for (co)datatypes desharna parents: 57891 diff changeset	1739	val (args, ctxt') = mk_Frees "z" (binder_types (fastype_of ctr)) ctxt;
57700 a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1740	in
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1741	fold_map (mk_prems A Ps (list_comb (ctr, args))) args ctxt'
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1742	\|>> map (fold_rev Logic.all args) o flat
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1743	\|>> (fn prems => (prems, mk_names (length prems) (name_of_ctr ctr)))
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1744	end;
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1745
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1746	fun mk_prems_and_concl_for_type A Ps ((fpT, ctrs), set) ctxt =
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1747	let
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1748	val ((x, fp), ctxt') = ctxt
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1749	\|> yield_singleton (mk_Frees "x") A
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1750	\|\|>> yield_singleton (mk_Frees "a") fpT;
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1751	val concl = mk_Ball (set $ fp) (Term.absfree (dest_Free x)
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1752	(the (build_binary_fun_app Ps x fp)));
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1753	in
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1754	fold_map (mk_prems_for_ctr A Ps) ctrs ctxt'
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1755	\|>> split_list
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1756	\|>> map_prod flat flat
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1757	\|>> apfst (rpair concl)
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1758	end;
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1759
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1760	fun mk_thm ctxt fpTs ctrss sets =
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1761	let
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1762	val A = HOLogic.dest_setT (range_type (fastype_of (hd sets)));
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1763	val (Ps, ctxt') = mk_Frees "P" (map (fn fpT => A --> fpT --> HOLogic.boolT) fpTs) ctxt;
58291 81a5f05130c1 tuning blanchet parents: 58285 diff changeset	1764	val (((prems, concl), case_names), ctxt'') =
81a5f05130c1 tuning blanchet parents: 58285 diff changeset	1765	fold_map (mk_prems_and_concl_for_type A Ps) (fpTs ~~ ctrss ~~ sets) ctxt'
57700 a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1766	\|>> apfst split_list o split_list
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1767	\|>> apfst (apfst flat)
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1768	\|>> apfst (apsnd (Library.foldr1 HOLogic.mk_conj))
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1769	\|>> apsnd flat;
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1770
61334 8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	1771	val vars = fold (Variable.add_free_names lthy) (concl :: prems) [];
57898 f7f75b33d6c8 avoid needless (and wrong w.r.t. sorts) generation of type variables; tuned whitespaces; blanchet parents: 57893 diff changeset	1772	val thm =
61334 8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	1773	Goal.prove_sorry lthy vars prems (HOLogic.mk_Trueprop concl)
57898 f7f75b33d6c8 avoid needless (and wrong w.r.t. sorts) generation of type variables; tuned whitespaces; blanchet parents: 57893 diff changeset	1774	(fn {context = ctxt, prems} =>
61760 1647bb489522 tuned whitespace blanchet parents: 61551 diff changeset	1775	mk_set_induct0_tac ctxt (map (Thm.cterm_of ctxt'') Ps) prems dtor_set_inducts
1647bb489522 tuned whitespace blanchet parents: 61551 diff changeset	1776	exhausts set_pre_defs ctor_defs dtor_ctors Abs_pre_inverses)
57700 a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1777	\|> Thm.close_derivation;
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1778
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1779	val case_names_attr =
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1780	Attrib.internal (K (Rule_Cases.case_names (quasi_unambiguous_case_names case_names)));
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1781	val induct_set_attrs = map (Attrib.internal o K o Induct.induct_pred o name_of_set) sets;
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1782	in
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1783	(thm, case_names_attr :: induct_set_attrs)
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1784	end
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1785	val consumes_attr = Attrib.internal (K (Rule_Cases.consumes 1));
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1786	in
58472 4d00caa0e4d7 tuning blanchet parents: 58462 diff changeset	1787	map (mk_thm lthy fpTs ctrss
4d00caa0e4d7 tuning blanchet parents: 58462 diff changeset	1788	#> nn = 1 ? map_prod (fn thm => rotate_prems ~1 (thm RS bspec)) (cons consumes_attr))
4d00caa0e4d7 tuning blanchet parents: 58462 diff changeset	1789	(transpose setss)
57700 a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1790	end;
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	1791
60737 685b169d0611 tuning blanchet parents: 60728 diff changeset	1792	fun mk_coinduct_strong_thm coind rel_eqs rel_monos mk_vimage2p ctxt =
685b169d0611 tuning blanchet parents: 60728 diff changeset	1793	let
685b169d0611 tuning blanchet parents: 60728 diff changeset	1794	val n = Thm.nprems_of coind;
685b169d0611 tuning blanchet parents: 60728 diff changeset	1795	val m = Thm.nprems_of (hd rel_monos) - n;
685b169d0611 tuning blanchet parents: 60728 diff changeset	1796	fun mk_inst phi =
685b169d0611 tuning blanchet parents: 60728 diff changeset	1797	(phi, Thm.cterm_of ctxt (mk_union (Var phi, HOLogic.eq_const (fst (dest_pred2T (#2 phi))))));
685b169d0611 tuning blanchet parents: 60728 diff changeset	1798	val insts = Term.add_vars (Thm.prop_of coind) [] \|> rev \|> take n \|> map mk_inst;
685b169d0611 tuning blanchet parents: 60728 diff changeset	1799	fun mk_unfold rel_eq rel_mono =
685b169d0611 tuning blanchet parents: 60728 diff changeset	1800	let
685b169d0611 tuning blanchet parents: 60728 diff changeset	1801	val eq = iffD2 OF [rel_eq RS @{thm predicate2_eqD}, refl];
685b169d0611 tuning blanchet parents: 60728 diff changeset	1802	val mono = rel_mono OF (replicate m @{thm order_refl} @ replicate n @{thm eq_subset});
685b169d0611 tuning blanchet parents: 60728 diff changeset	1803	in mk_vimage2p (eq RS (mono RS @{thm predicate2D})) RS eqTrueI end;
685b169d0611 tuning blanchet parents: 60728 diff changeset	1804	val unfolds = map2 mk_unfold rel_eqs rel_monos @ @{thms sup_fun_def sup_bool_def
685b169d0611 tuning blanchet parents: 60728 diff changeset	1805	imp_disjL all_conj_distrib subst_eq_imp simp_thms(18,21,35)};
685b169d0611 tuning blanchet parents: 60728 diff changeset	1806	in
685b169d0611 tuning blanchet parents: 60728 diff changeset	1807	Thm.instantiate ([], insts) coind
685b169d0611 tuning blanchet parents: 60728 diff changeset	1808	\|> unfold_thms ctxt unfolds
685b169d0611 tuning blanchet parents: 60728 diff changeset	1809	end;
685b169d0611 tuning blanchet parents: 60728 diff changeset	1810
62395 4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1811	fun derive_coinduct_thms_for_types strong alter_r pre_bnfs dtor_coinduct dtor_ctors
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1812	live_nesting_bnfs fpTs Xs ctrXs_Tsss ns fp_abs_inverses abs_inverses mk_vimage2p ctr_defss
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1813	(ctr_sugars : ctr_sugar list) ctxt =
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1814	let
51815 efacb9b99865 tune signatures blanchet parents: 51814 diff changeset	1815	val nn = length pre_bnfs;
efacb9b99865 tune signatures blanchet parents: 51814 diff changeset	1816
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1817	val pre_rel_defs = map rel_def_of_bnf pre_bnfs;
57397 5004aca20821 tuned variable names blanchet parents: 57303 diff changeset	1818	val live_nesting_rel_eqs = map rel_eq_of_bnf live_nesting_bnfs;
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1819
51816 5f1dec4297da use base names, not full names blanchet parents: 51815 diff changeset	1820	val fp_b_names = map base_name_of_typ fpTs;
51811 1461426e2bf1 tuned function signatures blanchet parents: 51810 diff changeset	1821
53210 7219c61796c0 simplify code (now that ctr_sugar uses the same type variables as fp_sugar) blanchet parents: 53203 diff changeset	1822	val discss = map #discs ctr_sugars;
7219c61796c0 simplify code (now that ctr_sugar uses the same type variables as fp_sugar) blanchet parents: 53203 diff changeset	1823	val selsss = map #selss ctr_sugars;
51840 b304fb6c5ef5 renamed records blanchet parents: 51839 diff changeset	1824	val exhausts = map #exhaust ctr_sugars;
b304fb6c5ef5 renamed records blanchet parents: 51839 diff changeset	1825	val disc_thmsss = map #disc_thmss ctr_sugars;
b304fb6c5ef5 renamed records blanchet parents: 51839 diff changeset	1826	val sel_thmsss = map #sel_thmss ctr_sugars;
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1827
62395 4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1828	val (((rs, us'), vs'), _) = ctxt
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1829	\|> mk_Frees "R" (map (fn T => mk_pred2T T T) fpTs)
51816 5f1dec4297da use base names, not full names blanchet parents: 51815 diff changeset	1830	\|\|>> Variable.variant_fixes fp_b_names
5f1dec4297da use base names, not full names blanchet parents: 51815 diff changeset	1831	\|\|>> Variable.variant_fixes (map (suffix "'") fp_b_names);
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1832
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1833	val us = map2 (curry Free) us' fpTs;
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1834	val udiscss = map2 (map o rapp) us discss;
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1835	val uselsss = map2 (map o map o rapp) us selsss;
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1836
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1837	val vs = map2 (curry Free) vs' fpTs;
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1838	val vdiscss = map2 (map o rapp) vs discss;
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1839	val vselsss = map2 (map o map o rapp) vs selsss;
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1840
62395 4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1841	val uvrs = @{map 3} (fn r => fn u => fn v => r $ u $ v) rs us vs;
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1842	val uv_eqs = map2 (curry HOLogic.mk_eq) us vs;
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1843	val strong_rs =
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1844	@{map 4} (fn u => fn v => fn uvr => fn uv_eq =>
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1845	fold_rev Term.lambda [u, v] (HOLogic.mk_disj (uvr, uv_eq))) us vs uvrs uv_eqs;
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1846
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1847	fun build_the_rel rs' T Xs_T =
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1848	build_rel [] ctxt [] (fn (_, X) => nth rs' (find_index (curry (op =) X) Xs)) (T, Xs_T)
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1849	\|> Term.subst_atomic_types (Xs ~~ fpTs);
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1850
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1851	fun build_rel_app rs' usel vsel Xs_T =
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1852	fold rapp [usel, vsel] (build_the_rel rs' (fastype_of usel) Xs_T);
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1853
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1854	fun mk_prem_ctr_concls rs' n k udisc usels vdisc vsels ctrXs_Ts =
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1855	(if k = n then [] else [HOLogic.mk_eq (udisc, vdisc)]) @
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1856	(if null usels then
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1857	[]
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1858	else
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1859	[Library.foldr HOLogic.mk_imp (if n = 1 then [] else [udisc, vdisc],
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1860	Library.foldr1 HOLogic.mk_conj (@{map 3} (build_rel_app rs') usels vsels ctrXs_Ts))]);
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1861
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1862	fun mk_prem_concl rs' n udiscs uselss vdiscs vselss ctrXs_Tss =
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1863	flat (@{map 6} (mk_prem_ctr_concls rs' n) (1 upto n) udiscs uselss vdiscs vselss ctrXs_Tss)
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1864	\|> Library.foldr1 HOLogic.mk_conj
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1865	handle List.Empty => @{term True};
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1866
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1867	fun mk_prem rs' uvr u v n udiscs uselss vdiscs vselss ctrXs_Tss =
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1868	fold_rev Logic.all [u, v] (Logic.mk_implies (HOLogic.mk_Trueprop uvr,
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1869	HOLogic.mk_Trueprop (mk_prem_concl rs' n udiscs uselss vdiscs vselss ctrXs_Tss)));
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1870
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1871	val concl =
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1872	HOLogic.mk_Trueprop (Library.foldr1 HOLogic.mk_conj
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1873	(@{map 3} (fn uvr => fn u => fn v => HOLogic.mk_imp (uvr, HOLogic.mk_eq (u, v)))
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1874	uvrs us vs));
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1875
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1876	fun mk_goal rs0' =
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1877	Logic.list_implies (@{map 9} (mk_prem (map alter_r rs0')) uvrs us vs ns udiscss uselsss
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1878	vdiscss vselsss ctrXs_Tsss, concl);
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1879
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1880	val goals = map mk_goal ([rs] @ (if strong then [strong_rs] else []));
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1881
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1882	fun prove dtor_coinduct' goal =
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1883	Variable.add_free_names ctxt goal []
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1884	\|> (fn vars => Goal.prove_sorry ctxt vars [] goal (fn {context = ctxt, ...} =>
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1885	mk_coinduct_tac ctxt live_nesting_rel_eqs nn ns dtor_coinduct' pre_rel_defs fp_abs_inverses
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1886	abs_inverses dtor_ctors exhausts ctr_defss disc_thmsss sel_thmsss))
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1887	\|> Thm.close_derivation;
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1888
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1889	val rel_eqs = map rel_eq_of_bnf pre_bnfs;
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1890	val rel_monos = map rel_mono_of_bnf pre_bnfs;
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1891	val dtor_coinducts =
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1892	[dtor_coinduct] @
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1893	(if strong then [mk_coinduct_strong_thm dtor_coinduct rel_eqs rel_monos mk_vimage2p ctxt]
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1894	else []);
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1895	in
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1896	map2 (postproc_co_induct ctxt nn mp @{thm conj_commute[THEN iffD1]} oo prove)
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1897	dtor_coinducts goals
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1898	end;
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1899
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1900	fun derive_coinduct_corecs_thms_for_types pre_bnfs (x, cs, cpss, (((pgss, _, _, _), cqgsss), _))
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1901	dtor_coinduct dtor_injects dtor_ctors dtor_corec_thms live_nesting_bnfs fpTs Cs Xs ctrXs_Tsss
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1902	kss mss ns fp_abs_inverses abs_inverses mk_vimage2p ctr_defss (ctr_sugars : ctr_sugar list)
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1903	corecs corec_defs ctxt =
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1904	let
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1905	fun mk_ctor_dtor_corec_thm dtor_inject dtor_ctor corec =
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1906	iffD1 OF [dtor_inject, trans OF [corec, dtor_ctor RS sym]];
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1907
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1908	val ctor_dtor_corec_thms =
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1909	@{map 3} mk_ctor_dtor_corec_thm dtor_injects dtor_ctors dtor_corec_thms;
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1910
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1911	val pre_map_defs = map map_def_of_bnf pre_bnfs;
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1912	val live_nesting_map_ident0s = map map_ident0_of_bnf live_nesting_bnfs;
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1913
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1914	val fp_b_names = map base_name_of_typ fpTs;
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1915
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1916	val ctrss = map #ctrs ctr_sugars;
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1917	val discss = map #discs ctr_sugars;
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1918	val selsss = map #selss ctr_sugars;
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1919	val disc_thmsss = map #disc_thmss ctr_sugars;
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1920	val discIss = map #discIs ctr_sugars;
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1921	val sel_thmsss = map #sel_thmss ctr_sugars;
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1922
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1923	val coinduct_thms_pairs = derive_coinduct_thms_for_types true I pre_bnfs dtor_coinduct
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1924	dtor_ctors live_nesting_bnfs fpTs Xs ctrXs_Tsss ns fp_abs_inverses abs_inverses mk_vimage2p
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1925	ctr_defss ctr_sugars ctxt;
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1926
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1927	fun mk_maybe_not pos = not pos ? HOLogic.mk_not;
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1928
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1929	val gcorecs = map (lists_bmoc pgss) corecs;
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1930
55856 bddaada24074 got rid of automatically generated fold constant and theorems (to reduce overhead) blanchet parents: 55803 diff changeset	1931	val corec_thmss =
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1932	let
62395 4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1933	val (us', _) = ctxt
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1934	\|> Variable.variant_fixes fp_b_names;
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1935
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1936	val us = map2 (curry Free) us' fpTs;
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1937
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1938	fun mk_goal c cps gcorec n k ctr m cfs' =
54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1939	fold_rev (fold_rev Logic.all) ([c] :: pgss)
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1940	(Logic.list_implies (seq_conds (HOLogic.mk_Trueprop oo mk_maybe_not) n k cps,
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1941	mk_Trueprop_eq (gcorec $ c, Term.list_comb (ctr, take m cfs'))));
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1942
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1943	val mk_U = typ_subst_nonatomic (map2 (fn C => fn fpT => (mk_sumT (fpT, C), fpT)) Cs fpTs);
52347 ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	1944
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1945	fun tack (c, u) f =
54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1946	let val x' = Free (x, mk_sumT (fastype_of u, fastype_of c)) in
54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1947	Term.lambda x' (mk_case_sum (Term.lambda u u, Term.lambda c (f $ c)) $ x')
52347 ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	1948	end;
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1949
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1950	fun build_corec cqg =
54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1951	let val T = fastype_of cqg in
52347 ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	1952	if exists_subtype_in Cs T then
58352 37745650a3f4 register 'prod' and 'sum' as datatypes, to allow N2M through them blanchet parents: 58347 diff changeset	1953	let
37745650a3f4 register 'prod' and 'sum' as datatypes, to allow N2M through them blanchet parents: 58347 diff changeset	1954	val U = mk_U T;
37745650a3f4 register 'prod' and 'sum' as datatypes, to allow N2M through them blanchet parents: 58347 diff changeset	1955	val build_simple =
37745650a3f4 register 'prod' and 'sum' as datatypes, to allow N2M through them blanchet parents: 58347 diff changeset	1956	indexify fst (map2 (curry mk_sumT) fpTs Cs)
37745650a3f4 register 'prod' and 'sum' as datatypes, to allow N2M through them blanchet parents: 58347 diff changeset	1957	(fn kk => fn _ => tack (nth cs kk, nth us kk) (nth gcorecs kk));
37745650a3f4 register 'prod' and 'sum' as datatypes, to allow N2M through them blanchet parents: 58347 diff changeset	1958	in
62395 4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1959	build_map ctxt [] build_simple (T, U) $ cqg
52368 13ca6876f748 tuning blanchet parents: 52367 diff changeset	1960	end
52347 ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	1961	else
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1962	cqg
52347 ead18e3b2c1b changed back type of corecursor for nested case, effectively reverting aa66ea552357 and 78a3d5006cf1 blanchet parents: 52346 diff changeset	1963	end;
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1964
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1965	val cqgsss' = map (map (map build_corec)) cqgsss;
58634 9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	1966	val goalss = @{map 8} (@{map 4} oooo mk_goal) cs cpss gcorecs ns kss ctrss mss cqgsss';
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1967
55856 bddaada24074 got rid of automatically generated fold constant and theorems (to reduce overhead) blanchet parents: 55803 diff changeset	1968	val tacss =
58634 9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	1969	@{map 4} (map ooo mk_corec_tac corec_defs live_nesting_map_ident0s)
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	1970	ctor_dtor_corec_thms pre_map_defs abs_inverses ctr_defss;
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1971
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1972	fun prove goal tac =
62395 4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1973	Goal.prove_sorry ctxt [] [] goal (tac o #context)
51815 efacb9b99865 tune signatures blanchet parents: 51814 diff changeset	1974	\|> Thm.close_derivation;
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1975	in
55856 bddaada24074 got rid of automatically generated fold constant and theorems (to reduce overhead) blanchet parents: 55803 diff changeset	1976	map2 (map2 prove) goalss tacss
62395 4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1977	\|> map (map (unfold_thms ctxt @{thms case_sum_if}))
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1978	end;
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1979
57983 6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	1980	val corec_disc_iff_thmss =
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1981	let
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1982	fun mk_goal c cps gcorec n k disc =
54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	1983	mk_Trueprop_eq (disc $ (gcorec $ c),
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1984	if n = 1 then @{const True}
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1985	else Library.foldr1 HOLogic.mk_conj (seq_conds mk_maybe_not n k cps));
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1986
58634 9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	1987	val goalss = @{map 6} (map2 oooo mk_goal) cs cpss gcorecs ns kss discss;
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1988
62395 4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1989	fun mk_case_split' cp = Thm.instantiate' [] [SOME (Thm.cterm_of ctxt cp)] @{thm case_split};
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1990
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1991	val case_splitss' = map (map mk_case_split') cpss;
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1992
58634 9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	1993	val tacss = @{map 3} (map oo mk_corec_disc_iff_tac) case_splitss' corec_thmss disc_thmsss;
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1994
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1995	fun prove goal tac =
62395 4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1996	Variable.add_free_names ctxt goal []
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	1997	\|> (fn vars => Goal.prove_sorry ctxt vars [] goal (tac o #context))
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1998	\|> Thm.close_derivation;
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	1999
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	2000	fun proves [_] [_] = []
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	2001	\| proves goals tacs = map2 prove goals tacs;
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	2002	in
55856 bddaada24074 got rid of automatically generated fold constant and theorems (to reduce overhead) blanchet parents: 55803 diff changeset	2003	map2 proves goalss tacss
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	2004	end;
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	2005
57983 6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	2006	fun mk_corec_disc_thms corecs discIs = map (op RS) (corecs ~~ discIs);
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	2007
57983 6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	2008	val corec_disc_thmss = map2 mk_corec_disc_thms corec_thmss discIss;
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	2009
57983 6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	2010	fun mk_corec_sel_thm corec_thm sel sel_thm =
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	2011	let
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	2012	val (domT, ranT) = dest_funT (fastype_of sel);
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	2013	val arg_cong' =
62395 4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	2014	Thm.instantiate' (map (SOME o Thm.ctyp_of ctxt) [domT, ranT])
4ceda7d0c955 refactoring blanchet parents: 62385 diff changeset	2015	[NONE, NONE, SOME (Thm.cterm_of ctxt sel)] arg_cong
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	2016	\|> Thm.varifyT_global;
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	2017	val sel_thm' = sel_thm RSN (2, trans);
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	2018	in
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	2019	corec_thm RS arg_cong' RS sel_thm'
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	2020	end;
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	2021
57983 6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	2022	fun mk_corec_sel_thms corec_thmss =
58634 9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	2023	@{map 3} (@{map 3} (map2 o mk_corec_sel_thm)) corec_thmss selsss sel_thmsss;
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	2024
57983 6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	2025	val corec_sel_thmsss = mk_corec_sel_thms corec_thmss;
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	2026	in
57535 9b99b773acd4 made SML/NJ happier blanchet parents: 57525 diff changeset	2027	((coinduct_thms_pairs,
58283 71d74e641538 preserve case names in '(co)induct' theorems generated by prim(co)rec' blanchet parents: 58267 diff changeset	2028	mk_coinduct_attrs fpTs (map #ctrs ctr_sugars) (map #discs ctr_sugars) mss),
57489 8f0ba9f2d10f generate 'corec_code' theorem for codatatypes desharna parents: 57471 diff changeset	2029	corec_thmss,
57983 6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	2030	corec_disc_thmss,
6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	2031	(corec_disc_iff_thmss, simp_attrs),
6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	2032	(corec_sel_thmsss, simp_attrs))
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	2033	end;
7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	2034
58659 6c9821c32dd5 Local_Interpretation is superseded by Plugin with formal Plugin_Name management, avoiding undeclared strings; wenzelm parents: 58634 diff changeset	2035	fun define_co_datatypes prepare_plugins prepare_constraint prepare_typ prepare_term fp construct_fp
6c9821c32dd5 Local_Interpretation is superseded by Plugin with formal Plugin_Name management, avoiding undeclared strings; wenzelm parents: 58634 diff changeset	2036	((raw_plugins, discs_sels0), specs) no_defs_lthy =
49112 4de4635d8f93 started work on sugared "(co)data" commands blanchet parents: diff changeset	2037	let
49298 36e551d3af3b support for sort constraints in new (co)data commands blanchet parents: 49297 diff changeset	2038	(* TODO: sanity checks on arguments *)
36e551d3af3b support for sort constraints in new (co)data commands blanchet parents: 49297 diff changeset	2039
58659 6c9821c32dd5 Local_Interpretation is superseded by Plugin with formal Plugin_Name management, avoiding undeclared strings; wenzelm parents: 58634 diff changeset	2040	val plugins = prepare_plugins no_defs_lthy raw_plugins;
57094 589ec121ce1a don't generate discriminators and selectors for 'datatype_new' unless the user asked for it blanchet parents: 57091 diff changeset	2041	val discs_sels = discs_sels0 orelse fp = Greatest_FP;
49278 718e4ad1517e added no_dests option blanchet parents: 49277 diff changeset	2042
49367 a1e811aa0fb8 tuning blanchet parents: 49366 diff changeset	2043	val nn = length specs;
55469 b19dd108f0c2 aligned the syntax for 'free_constructors' on the 'datatype_new' and 'codatatype' syntax blanchet parents: 55468 diff changeset	2044	val fp_bs = map type_binding_of_spec specs;
49498 acc583e14167 tuned variable names blanchet parents: 49484 diff changeset	2045	val fp_b_names = map Binding.name_of fp_bs;
acc583e14167 tuned variable names blanchet parents: 49484 diff changeset	2046	val fp_common_name = mk_common_name fp_b_names;
55469 b19dd108f0c2 aligned the syntax for 'free_constructors' on the 'datatype_new' and 'codatatype' syntax blanchet parents: 55468 diff changeset	2047	val map_bs = map map_binding_of_spec specs;
b19dd108f0c2 aligned the syntax for 'free_constructors' on the 'datatype_new' and 'codatatype' syntax blanchet parents: 55468 diff changeset	2048	val rel_bs = map rel_binding_of_spec specs;
62324 ae44f16dcea5 make predicator a first-class bnf citizen traytel parents: 62322 diff changeset	2049	val pred_bs = map pred_binding_of_spec specs;
49298 36e551d3af3b support for sort constraints in new (co)data commands blanchet parents: 49297 diff changeset	2050
51758 55963309557b honor user-specified name for map function blanchet parents: 51757 diff changeset	2051	fun prepare_type_arg (_, (ty, c)) =
58434 2fa300429c11 tuning blanchet parents: 58352 diff changeset	2052	let val TFree (s, _) = prepare_typ no_defs_lthy ty in
2fa300429c11 tuning blanchet parents: 58352 diff changeset	2053	TFree (s, prepare_constraint no_defs_lthy c)
49298 36e551d3af3b support for sort constraints in new (co)data commands blanchet parents: 49297 diff changeset	2054	end;
36e551d3af3b support for sort constraints in new (co)data commands blanchet parents: 49297 diff changeset	2055
55469 b19dd108f0c2 aligned the syntax for 'free_constructors' on the 'datatype_new' and 'codatatype' syntax blanchet parents: 55468 diff changeset	2056	val Ass0 = map (map prepare_type_arg o type_args_named_constrained_of_spec) specs;
58234 265aea1e9985 honour sorts in N2M blanchet parents: 58233 diff changeset	2057	val unsorted_Ass0 = map (map (resort_tfree_or_tvar @{sort type})) Ass0;
55700 cf6a029b28d8 more precise error message blanchet parents: 55699 diff changeset	2058	val unsorted_As = Library.foldr1 (merge_type_args fp) unsorted_Ass0;
53266 89f7f1cc9ae3 cleaner handling of bootstrapping "fake" context, with fewer (no?) obscure bugs blanchet parents: 53264 diff changeset	2059	val num_As = length unsorted_As;
55699 1f9cc432ecd4 reuse same parser for '(co)datatype(_new)' as for 'bnf_decl' blanchet parents: 55575 diff changeset	2060
1f9cc432ecd4 reuse same parser for '(co)datatype(_new)' as for 'bnf_decl' blanchet parents: 55575 diff changeset	2061	val set_boss = map (map fst o type_args_named_constrained_of_spec) specs;
1f9cc432ecd4 reuse same parser for '(co)datatype(_new)' as for 'bnf_decl' blanchet parents: 55575 diff changeset	2062	val set_bss = map (map (the_default Binding.empty)) set_boss;
49119 1f605c36869c more work on FP sugar blanchet parents: 49112 diff changeset	2063
61334 8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	2064	val ((((Bs0, Cs), Es), Xs), _) =
58434 2fa300429c11 tuning blanchet parents: 58352 diff changeset	2065	no_defs_lthy
58234 265aea1e9985 honour sorts in N2M blanchet parents: 58233 diff changeset	2066	\|> fold (Variable.declare_typ o resort_tfree_or_tvar dummyS) unsorted_As
53266 89f7f1cc9ae3 cleaner handling of bootstrapping "fake" context, with fewer (no?) obscure bugs blanchet parents: 53264 diff changeset	2067	\|> mk_TFrees num_As
49585 5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	2068	\|\|>> mk_TFrees nn
58446 e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	2069	\|\|>> mk_TFrees nn
51858 7a08fe1e19b1 added and moved library functions (used in primrec code) blanchet parents: 51857 diff changeset	2070	\|\|>> variant_tfrees fp_b_names;
49119 1f605c36869c more work on FP sugar blanchet parents: 49112 diff changeset	2071
55469 b19dd108f0c2 aligned the syntax for 'free_constructors' on the 'datatype_new' and 'codatatype' syntax blanchet parents: 55468 diff changeset	2072	fun add_fake_type spec =
61259 6dc3d5d50e57 tuned signature; wenzelm parents: 61246 diff changeset	2073	Typedecl.basic_typedecl {final = true}
6dc3d5d50e57 tuned signature; wenzelm parents: 61246 diff changeset	2074	(type_binding_of_spec spec, num_As, mixfix_of_spec spec);
51768 d2a236b10796 proper error generated for wrong mixfix blanchet parents: 51767 diff changeset	2075
58434 2fa300429c11 tuning blanchet parents: 58352 diff changeset	2076	val (fake_T_names, fake_lthy) = fold_map add_fake_type specs no_defs_lthy;
49119 1f605c36869c more work on FP sugar blanchet parents: 49112 diff changeset	2077
53262 23927b18dce2 rationalize message generation + added a warning blanchet parents: 53260 diff changeset	2078	val qsoty = quote o Syntax.string_of_typ fake_lthy;
23927b18dce2 rationalize message generation + added a warning blanchet parents: 53260 diff changeset	2079
54253 04cd231e2b9e nicer error message in case of duplicates blanchet parents: 54243 diff changeset	2080	val _ = (case Library.duplicates (op =) unsorted_As of [] => ()
53262 23927b18dce2 rationalize message generation + added a warning blanchet parents: 53260 diff changeset	2081	\| A :: _ => error ("Duplicate type parameter " ^ qsoty A ^ " in " ^ co_prefix fp ^
23927b18dce2 rationalize message generation + added a warning blanchet parents: 53260 diff changeset	2082	"datatype specification"));
23927b18dce2 rationalize message generation + added a warning blanchet parents: 53260 diff changeset	2083
23927b18dce2 rationalize message generation + added a warning blanchet parents: 53260 diff changeset	2084	val bad_args =
58434 2fa300429c11 tuning blanchet parents: 58352 diff changeset	2085	map (Logic.type_map (singleton (Variable.polymorphic no_defs_lthy))) unsorted_As
53262 23927b18dce2 rationalize message generation + added a warning blanchet parents: 53260 diff changeset	2086	\|> filter_out Term.is_TVar;
23927b18dce2 rationalize message generation + added a warning blanchet parents: 53260 diff changeset	2087	val _ = null bad_args orelse
23927b18dce2 rationalize message generation + added a warning blanchet parents: 53260 diff changeset	2088	error ("Locally fixed type argument " ^ qsoty (hd bad_args) ^ " in " ^ co_prefix fp ^
23927b18dce2 rationalize message generation + added a warning blanchet parents: 53260 diff changeset	2089	"datatype specification");
23927b18dce2 rationalize message generation + added a warning blanchet parents: 53260 diff changeset	2090
55469 b19dd108f0c2 aligned the syntax for 'free_constructors' on the 'datatype_new' and 'codatatype' syntax blanchet parents: 55468 diff changeset	2091	val mixfixes = map mixfix_of_spec specs;
49119 1f605c36869c more work on FP sugar blanchet parents: 49112 diff changeset	2092
54253 04cd231e2b9e nicer error message in case of duplicates blanchet parents: 54243 diff changeset	2093	val _ = (case Library.duplicates Binding.eq_name fp_bs of [] => ()
49119 1f605c36869c more work on FP sugar blanchet parents: 49112 diff changeset	2094	\| b :: _ => error ("Duplicate type name declaration " ^ quote (Binding.name_of b)));
1f605c36869c more work on FP sugar blanchet parents: 49112 diff changeset	2095
55469 b19dd108f0c2 aligned the syntax for 'free_constructors' on the 'datatype_new' and 'codatatype' syntax blanchet parents: 55468 diff changeset	2096	val mx_ctr_specss = map mixfixed_ctr_specs_of_spec specs;
b19dd108f0c2 aligned the syntax for 'free_constructors' on the 'datatype_new' and 'codatatype' syntax blanchet parents: 55468 diff changeset	2097	val ctr_specss = map (map fst) mx_ctr_specss;
b19dd108f0c2 aligned the syntax for 'free_constructors' on the 'datatype_new' and 'codatatype' syntax blanchet parents: 55468 diff changeset	2098	val ctr_mixfixess = map (map snd) mx_ctr_specss;
49119 1f605c36869c more work on FP sugar blanchet parents: 49112 diff changeset	2099
55469 b19dd108f0c2 aligned the syntax for 'free_constructors' on the 'datatype_new' and 'codatatype' syntax blanchet parents: 55468 diff changeset	2100	val disc_bindingss = map (map disc_of_ctr_spec) ctr_specss;
49336 a2e6473145e4 tuning blanchet parents: 49330 diff changeset	2101	val ctr_bindingss =
55469 b19dd108f0c2 aligned the syntax for 'free_constructors' on the 'datatype_new' and 'codatatype' syntax blanchet parents: 55468 diff changeset	2102	map2 (fn fp_b_name => map (Binding.qualify false fp_b_name o ctr_of_ctr_spec)) fp_b_names
b19dd108f0c2 aligned the syntax for 'free_constructors' on the 'datatype_new' and 'codatatype' syntax blanchet parents: 55468 diff changeset	2103	ctr_specss;
b19dd108f0c2 aligned the syntax for 'free_constructors' on the 'datatype_new' and 'codatatype' syntax blanchet parents: 55468 diff changeset	2104	val ctr_argsss = map (map args_of_ctr_spec) ctr_specss;
49119 1f605c36869c more work on FP sugar blanchet parents: 49112 diff changeset	2105
49336 a2e6473145e4 tuning blanchet parents: 49330 diff changeset	2106	val sel_bindingsss = map (map (map fst)) ctr_argsss;
49298 36e551d3af3b support for sort constraints in new (co)data commands blanchet parents: 49297 diff changeset	2107	val fake_ctr_Tsss0 = map (map (map (prepare_typ fake_lthy o snd))) ctr_argsss;
57200 aab87ffa60cc use 'where' clause for selector default value syntax blanchet parents: 57199 diff changeset	2108	val raw_sel_default_eqss = map sel_default_eqs_of_spec specs;
49286 dde4967c9233 added "defaults" option blanchet parents: 49280 diff changeset	2109
49308 6190b701e4f4 reorganized dependencies so that the sugar does not depend on GFP -- this will be essential for bootstrapping blanchet parents: 49302 diff changeset	2110	val (As :: _) :: fake_ctr_Tsss =
49298 36e551d3af3b support for sort constraints in new (co)data commands blanchet parents: 49297 diff changeset	2111	burrow (burrow (Syntax.check_typs fake_lthy)) (Ass0 :: fake_ctr_Tsss0);
53262 23927b18dce2 rationalize message generation + added a warning blanchet parents: 53260 diff changeset	2112	val As' = map dest_TFree As;
49298 36e551d3af3b support for sort constraints in new (co)data commands blanchet parents: 49297 diff changeset	2113
49183 0cc46e2dee7e careful about constructor types w.r.t. fake context (third step of localization) blanchet parents: 49182 diff changeset	2114	val rhs_As' = fold (fold (fold Term.add_tfreesT)) fake_ctr_Tsss [];
53262 23927b18dce2 rationalize message generation + added a warning blanchet parents: 53260 diff changeset	2115	val _ = (case subtract (op =) As' rhs_As' of [] => ()
23927b18dce2 rationalize message generation + added a warning blanchet parents: 53260 diff changeset	2116	\| extras => error ("Extra type variables on right-hand side: " ^
23927b18dce2 rationalize message generation + added a warning blanchet parents: 53260 diff changeset	2117	commas (map (qsoty o TFree) extras)));
49165 c6ccaf6df93c check type variables on rhs blanchet parents: 49161 diff changeset	2118
53268 de1dc709f9d4 handle type class annotations on (co)datatype parameters gracefully blanchet parents: 53266 diff changeset	2119	val fake_Ts = map (fn s => Type (s, As)) fake_T_names;
de1dc709f9d4 handle type class annotations on (co)datatype parameters gracefully blanchet parents: 53266 diff changeset	2120
53262 23927b18dce2 rationalize message generation + added a warning blanchet parents: 53260 diff changeset	2121	fun eq_fpT_check (T as Type (s, Ts)) (T' as Type (s', Ts')) =
23927b18dce2 rationalize message generation + added a warning blanchet parents: 53260 diff changeset	2122	s = s' andalso (Ts = Ts' orelse
23927b18dce2 rationalize message generation + added a warning blanchet parents: 53260 diff changeset	2123	error ("Wrong type arguments in " ^ co_prefix fp ^ "recursive type " ^ qsoty T ^
23927b18dce2 rationalize message generation + added a warning blanchet parents: 53260 diff changeset	2124	" (expected " ^ qsoty T' ^ ")"))
49591 91b228e26348 generate high-level "coinduct" and "strong_coinduct" properties blanchet parents: 49590 diff changeset	2125	\| eq_fpT_check _ _ = false;
49146 e32b1f748854 added a check blanchet parents: 49135 diff changeset	2126
53222 8b159677efb5 better error message blanchet parents: 53221 diff changeset	2127	fun freeze_fp (T as Type (s, Ts)) =
49591 91b228e26348 generate high-level "coinduct" and "strong_coinduct" properties blanchet parents: 49590 diff changeset	2128	(case find_index (eq_fpT_check T) fake_Ts of
53222 8b159677efb5 better error message blanchet parents: 53221 diff changeset	2129	~1 => Type (s, map freeze_fp Ts)
49591 91b228e26348 generate high-level "coinduct" and "strong_coinduct" properties blanchet parents: 49590 diff changeset	2130	\| kk => nth Xs kk)
49204 0b735fb2602e generate iter/rec goals blanchet parents: 49203 diff changeset	2131	\| freeze_fp T = T;
49121 9e0acaa470ab more work on FP sugar blanchet parents: 49119 diff changeset	2132
53222 8b159677efb5 better error message blanchet parents: 53221 diff changeset	2133	val unfreeze_fp = Term.typ_subst_atomic (Xs ~~ fake_Ts);
8b159677efb5 better error message blanchet parents: 53221 diff changeset	2134
52310 28063e412793 support induction principles with multiple occurrences of the same type in "fpTs" and (hopefully) with loss of recursion (e.g. primrec definition of is_nil, where the IH can be dropped) blanchet parents: 52309 diff changeset	2135	val ctrXs_Tsss = map (map (map freeze_fp)) fake_ctr_Tsss;
55966 972f0aa7091b balance tuples that represent curried functions blanchet parents: 55903 diff changeset	2136	val ctrXs_repTs = map mk_sumprodT_balanced ctrXs_Tsss;
49119 1f605c36869c more work on FP sugar blanchet parents: 49112 diff changeset	2137
58731 43a3ef574065 warn for not fully mutually (co)recursive types desharna parents: 58686 diff changeset	2138	val _ =
43a3ef574065 warn for not fully mutually (co)recursive types desharna parents: 58686 diff changeset	2139	let
62687 1c4842b32bfb better warning, with definitions in right order blanchet parents: 62395 diff changeset	2140	fun add_deps i =
1c4842b32bfb better warning, with definitions in right order blanchet parents: 62395 diff changeset	2141	fold (fn T => fold_index (fn (j, X) =>
1c4842b32bfb better warning, with definitions in right order blanchet parents: 62395 diff changeset	2142	(i <> j andalso Term.exists_subtype (curry (op =) X) T) ? insert (op =) (i, j)) Xs);
1c4842b32bfb better warning, with definitions in right order blanchet parents: 62395 diff changeset	2143
1c4842b32bfb better warning, with definitions in right order blanchet parents: 62395 diff changeset	2144	val add_missing_nodes = fold (AList.default (op =) o rpair []) (0 upto nn - 1);
1c4842b32bfb better warning, with definitions in right order blanchet parents: 62395 diff changeset	2145
1c4842b32bfb better warning, with definitions in right order blanchet parents: 62395 diff changeset	2146	val deps = fold_index (uncurry (fold o add_deps)) ctrXs_Tsss []
1c4842b32bfb better warning, with definitions in right order blanchet parents: 62395 diff changeset	2147	\|> AList.group (op =)
1c4842b32bfb better warning, with definitions in right order blanchet parents: 62395 diff changeset	2148	\|> add_missing_nodes;
1c4842b32bfb better warning, with definitions in right order blanchet parents: 62395 diff changeset	2149
1c4842b32bfb better warning, with definitions in right order blanchet parents: 62395 diff changeset	2150	val G = Int_Graph.make (map (apfst (rpair ())) deps);
1c4842b32bfb better warning, with definitions in right order blanchet parents: 62395 diff changeset	2151	val sccs = map (sort int_ord) (Int_Graph.strong_conn G);
58731 43a3ef574065 warn for not fully mutually (co)recursive types desharna parents: 58686 diff changeset	2152
43a3ef574065 warn for not fully mutually (co)recursive types desharna parents: 58686 diff changeset	2153	val str_of_scc = curry (op ^) (co_prefix fp ^ "datatype ") o
43a3ef574065 warn for not fully mutually (co)recursive types desharna parents: 58686 diff changeset	2154	space_implode " and " o map (suffix " = \<dots>" o Long_Name.base_name);
43a3ef574065 warn for not fully mutually (co)recursive types desharna parents: 58686 diff changeset	2155
43a3ef574065 warn for not fully mutually (co)recursive types desharna parents: 58686 diff changeset	2156	fun warn [_] = ()
43a3ef574065 warn for not fully mutually (co)recursive types desharna parents: 58686 diff changeset	2157	\| warn sccs =
43a3ef574065 warn for not fully mutually (co)recursive types desharna parents: 58686 diff changeset	2158	warning ("Defined types not fully mutually " ^ co_prefix fp ^ "recursive\n\
43a3ef574065 warn for not fully mutually (co)recursive types desharna parents: 58686 diff changeset	2159	\Alternative specification:\n" ^
43a3ef574065 warn for not fully mutually (co)recursive types desharna parents: 58686 diff changeset	2160	cat_lines (map (prefix " " o str_of_scc o map (nth fp_b_names)) sccs));
62687 1c4842b32bfb better warning, with definitions in right order blanchet parents: 62395 diff changeset	2161	in
1c4842b32bfb better warning, with definitions in right order blanchet parents: 62395 diff changeset	2162	warn (order_strong_conn (op =) Int_Graph.make Int_Graph.topological_order deps sccs)
1c4842b32bfb better warning, with definitions in right order blanchet parents: 62395 diff changeset	2163	end;
58731 43a3ef574065 warn for not fully mutually (co)recursive types desharna parents: 58686 diff changeset	2164
58507 ce0b9be06f85 tuning blanchet parents: 58472 diff changeset	2165	val fp_eqs = map dest_TFree Xs ~~ map (Term.typ_subst_atomic (As ~~ unsorted_As)) ctrXs_repTs;
49121 9e0acaa470ab more work on FP sugar blanchet parents: 49119 diff changeset	2166
55701 38f75365fc2a added explicit killing blanchet parents: 55700 diff changeset	2167	val killed_As =
38f75365fc2a added explicit killing blanchet parents: 55700 diff changeset	2168	map_filter (fn (A, set_bos) => if exists is_none set_bos then SOME A else NONE)
38f75365fc2a added explicit killing blanchet parents: 55700 diff changeset	2169	(unsorted_As ~~ transpose set_boss);
38f75365fc2a added explicit killing blanchet parents: 55700 diff changeset	2170
55803 74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	2171	val ((pre_bnfs, absT_infos), (fp_res as {bnfs = fp_bnfs as any_fp_bnf :: _, ctors = ctors0,
55868 37b99986d435 rationalized internals blanchet parents: 55867 diff changeset	2172	dtors = dtors0, xtor_co_recs = xtor_co_recs0, xtor_co_induct, dtor_ctors,
58585 efc8b2c54a38 rename 'xtor_rel_thms' to 'xtor_rels' desharna parents: 58584 diff changeset	2173	ctor_dtors, ctor_injects, dtor_injects, xtor_maps, xtor_setss, xtor_rels,
58580 8ee2d984caa8 rename 'dtor_set_induct_thms' to 'dtor_set_inducts' desharna parents: 58579 diff changeset	2174	xtor_co_rec_thms, xtor_rel_co_induct, dtor_set_inducts,
58732 854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2175	xtor_co_rec_transfers, xtor_co_rec_o_maps, ...},
53203 222ea6acbdd6 moved derivation of ctor_dtor_unfold to sugar (streamlines fp_result interface) traytel parents: 53143 diff changeset	2176	lthy)) =
62324 ae44f16dcea5 make predicator a first-class bnf citizen traytel parents: 62322 diff changeset	2177	fp_bnf (construct_fp mixfixes map_bs rel_bs pred_bs set_bss) fp_bs
ae44f16dcea5 make predicator a first-class bnf citizen traytel parents: 62322 diff changeset	2178	(map dest_TFree unsorted_As) (map dest_TFree killed_As) fp_eqs no_defs_lthy
53222 8b159677efb5 better error message blanchet parents: 53221 diff changeset	2179	handle BAD_DEAD (X, X_backdrop) =>
8b159677efb5 better error message blanchet parents: 53221 diff changeset	2180	(case X_backdrop of
8b159677efb5 better error message blanchet parents: 53221 diff changeset	2181	Type (bad_tc, _) =>
8b159677efb5 better error message blanchet parents: 53221 diff changeset	2182	let
8b159677efb5 better error message blanchet parents: 53221 diff changeset	2183	val fake_T = qsoty (unfreeze_fp X);
8b159677efb5 better error message blanchet parents: 53221 diff changeset	2184	val fake_T_backdrop = qsoty (unfreeze_fp X_backdrop);
8b159677efb5 better error message blanchet parents: 53221 diff changeset	2185	fun register_hint () =
59936 b8ffc3dc9e24 @{command_spec} is superseded by @{command_keyword}; wenzelm parents: 59877 diff changeset	2186	"\nUse the " ^ quote (#1 @{command_keyword bnf}) ^ " command to register " ^
53222 8b159677efb5 better error message blanchet parents: 53221 diff changeset	2187	quote bad_tc ^ " as a bounded natural functor to allow nested (co)recursion through \
8b159677efb5 better error message blanchet parents: 53221 diff changeset	2188	\it";
8b159677efb5 better error message blanchet parents: 53221 diff changeset	2189	in
8b159677efb5 better error message blanchet parents: 53221 diff changeset	2190	if is_some (bnf_of no_defs_lthy bad_tc) orelse
8b159677efb5 better error message blanchet parents: 53221 diff changeset	2191	is_some (fp_sugar_of no_defs_lthy bad_tc) then
53256 b40265203fb2 more blanchet parents: 53222 diff changeset	2192	error ("Inadmissible " ^ co_prefix fp ^ "recursive occurrence of type " ^ fake_T ^
b40265203fb2 more blanchet parents: 53222 diff changeset	2193	" in type expression " ^ fake_T_backdrop)
58112 8081087096ad renamed modules defining old datatypes, as a step towards having 'datatype_new' take 'datatype's place blanchet parents: 58104 diff changeset	2194	else if is_some (Old_Datatype_Data.get_info (Proof_Context.theory_of no_defs_lthy)
53222 8b159677efb5 better error message blanchet parents: 53221 diff changeset	2195	bad_tc) then
8b159677efb5 better error message blanchet parents: 53221 diff changeset	2196	error ("Unsupported " ^ co_prefix fp ^ "recursive occurrence of type " ^ fake_T ^
8b159677efb5 better error message blanchet parents: 53221 diff changeset	2197	" via the old-style datatype " ^ quote bad_tc ^ " in type expression " ^
8b159677efb5 better error message blanchet parents: 53221 diff changeset	2198	fake_T_backdrop ^ register_hint ())
8b159677efb5 better error message blanchet parents: 53221 diff changeset	2199	else
8b159677efb5 better error message blanchet parents: 53221 diff changeset	2200	error ("Unsupported " ^ co_prefix fp ^ "recursive occurrence of type " ^ fake_T ^
8b159677efb5 better error message blanchet parents: 53221 diff changeset	2201	" via type constructor " ^ quote bad_tc ^ " in type expression " ^ fake_T_backdrop ^
8b159677efb5 better error message blanchet parents: 53221 diff changeset	2202	register_hint ())
8b159677efb5 better error message blanchet parents: 53221 diff changeset	2203	end);
49585 5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	2204
55803 74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	2205	val abss = map #abs absT_infos;
74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	2206	val reps = map #rep absT_infos;
74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	2207	val absTs = map #absT absT_infos;
74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	2208	val repTs = map #repT absT_infos;
74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	2209	val abs_injects = map #abs_inject absT_infos;
74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	2210	val abs_inverses = map #abs_inverse absT_infos;
74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	2211	val type_definitions = map #type_definition absT_infos;
74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	2212
53143 ba80154a1118 configuration option to control timing output for (co)datatypes traytel parents: 53126 diff changeset	2213	val time = time lthy;
49585 5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	2214	val timer = time (Timer.startRealTimer ());
49121 9e0acaa470ab more work on FP sugar blanchet parents: 49119 diff changeset	2215
57397 5004aca20821 tuned variable names blanchet parents: 57303 diff changeset	2216	val fp_nesting_bnfs = nesting_bnfs lthy ctrXs_Tsss Xs;
5004aca20821 tuned variable names blanchet parents: 57303 diff changeset	2217	val live_nesting_bnfs = nesting_bnfs lthy ctrXs_Tsss As;
49226 510c6d4a73ec fixed and enabled iterator/recursor theorems blanchet parents: 49224 diff changeset	2218
49585 5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	2219	val pre_map_defs = map map_def_of_bnf pre_bnfs;
5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	2220	val pre_set_defss = map set_defs_of_bnf pre_bnfs;
5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	2221	val pre_rel_defs = map rel_def_of_bnf pre_bnfs;
57397 5004aca20821 tuned variable names blanchet parents: 57303 diff changeset	2222	val fp_nesting_set_maps = maps set_map_of_bnf fp_nesting_bnfs;
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2223	val fp_nesting_rel_eq_onps = map rel_eq_onp_of_bnf fp_nesting_bnfs;
58347 272ad6a47d6d tuning blanchet parents: 58346 diff changeset	2224	val live_nesting_map_id0s = map map_id0_of_bnf live_nesting_bnfs;
58732 854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2225	val live_nesting_map_ident0s = map map_ident0_of_bnf live_nesting_bnfs;
57397 5004aca20821 tuned variable names blanchet parents: 57303 diff changeset	2226	val live_nesting_set_maps = maps set_map_of_bnf live_nesting_bnfs;
58328 086193f231ea refactor repeated terms in a single variable desharna parents: 58327 diff changeset	2227	val live_nesting_rel_eqs = map rel_eq_of_bnf live_nesting_bnfs;
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2228	val live_nesting_rel_eq_onps = map rel_eq_onp_of_bnf live_nesting_bnfs;
49585 5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	2229
5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	2230	val live = live_of_bnf any_fp_bnf;
52961 bb8787b20437 added warning blanchet parents: 52960 diff changeset	2231	val _ =
62324 ae44f16dcea5 make predicator a first-class bnf citizen traytel parents: 62322 diff changeset	2232	if live = 0 andalso exists (not o Binding.is_empty) (map_bs @ rel_bs @ pred_bs) then
ae44f16dcea5 make predicator a first-class bnf citizen traytel parents: 62322 diff changeset	2233	warning "Map function, relator, and predicator names ignored"
52961 bb8787b20437 added warning blanchet parents: 52960 diff changeset	2234	else
bb8787b20437 added warning blanchet parents: 52960 diff changeset	2235	();
49585 5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	2236
5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	2237	val Bs =
58634 9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	2238	@{map 3} (fn alive => fn A as TFree (_, S) => fn B =>
58234 265aea1e9985 honour sorts in N2M blanchet parents: 58233 diff changeset	2239	if alive then resort_tfree_or_tvar S B else A)
53266 89f7f1cc9ae3 cleaner handling of bootstrapping "fake" context, with fewer (no?) obscure bugs blanchet parents: 53264 diff changeset	2240	(liveness_of_fp_bnf num_As any_fp_bnf) As Bs0;
49585 5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	2241
58446 e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	2242	val B_ify_T = Term.typ_subst_atomic (As ~~ Bs);
58732 854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2243	val live_AsBs = filter (op <>) (As ~~ Bs);
49167 68623861e0f2 print timing information blanchet parents: 49165 diff changeset	2244
49501 acc9635a644a renamed "fld"/"unf" to "ctor"/"dtor" blanchet parents: 49498 diff changeset	2245	val ctors = map (mk_ctor As) ctors0;
acc9635a644a renamed "fld"/"unf" to "ctor"/"dtor" blanchet parents: 49498 diff changeset	2246	val dtors = map (mk_dtor As) dtors0;
49124 968e1b7de057 more work on FP sugar blanchet parents: 49123 diff changeset	2247
49501 acc9635a644a renamed "fld"/"unf" to "ctor"/"dtor" blanchet parents: 49498 diff changeset	2248	val fpTs = map (domain_type o fastype_of) dtors;
58446 e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	2249	val fpBTs = map B_ify_T fpTs;
49362 1271aca16aed make tactic more robust in the case where "asm_simp_tac" already finishes the job blanchet parents: 49361 diff changeset	2250
59283 5ca195783da8 generate [code] only with 'code' plugin enabled blanchet parents: 59276 diff changeset	2251	val code_attrs = if plugins code_plugin then [Code.add_default_eqn_attrib] else [];
58337 568fb4e382c9 tuning blanchet parents: 58335 diff changeset	2252
52310 28063e412793 support induction principles with multiple occurrences of the same type in "fpTs" and (hopefully) with loss of recursion (e.g. primrec definition of is_nil, where the IH can be dropped) blanchet parents: 52309 diff changeset	2253	val ctr_Tsss = map (map (map (Term.typ_subst_atomic (Xs ~~ fpTs)))) ctrXs_Tsss;
49203 262ab1ac38b9 repaired constant types blanchet parents: 49202 diff changeset	2254	val ns = map length ctr_Tsss;
49212 ca59649170b0 more sugar on codatatypes blanchet parents: 49211 diff changeset	2255	val kss = map (fn n => 1 upto n) ns;
49203 262ab1ac38b9 repaired constant types blanchet parents: 49202 diff changeset	2256	val mss = map (map length) ctr_Tsss;
262ab1ac38b9 repaired constant types blanchet parents: 49202 diff changeset	2257
61551 078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	2258	val (xtor_co_recs, recs_args_types, corecs_args_types) =
078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	2259	mk_co_recs_prelims lthy fp ctr_Tsss fpTs Cs absTs repTs ns mss xtor_co_recs0;
078c9fd2e052 don't pollute local theory with needless names blanchet parents: 61364 diff changeset	2260	val lthy' = lthy;
49210 656fb50d33f0 define coiterators blanchet parents: 49209 diff changeset	2261
61364 4a47a4c3e8d5 tuning blanchet parents: 61348 diff changeset	2262	fun define_ctrs_dtrs_for_type fp_bnf fp_b fpT C E ctor dtor xtor_co_rec ctor_dtor dtor_ctor
4a47a4c3e8d5 tuning blanchet parents: 61348 diff changeset	2263	ctor_inject pre_map_def pre_set_defs pre_rel_def fp_map_thm fp_set_thms fp_rel_thm n ks ms
4a47a4c3e8d5 tuning blanchet parents: 61348 diff changeset	2264	abs abs_inject type_definition ctr_bindings ctr_mixfixes ctr_Tss disc_bindings sel_bindingss
4a47a4c3e8d5 tuning blanchet parents: 61348 diff changeset	2265	raw_sel_default_eqs no_defs_lthy =
49176 6d29d2db5f88 construct high-level iterator RHS blanchet parents: 49169 diff changeset	2266	let
49498 acc583e14167 tuned variable names blanchet parents: 49484 diff changeset	2267	val fp_b_name = Binding.name_of fp_b;
acc583e14167 tuned variable names blanchet parents: 49484 diff changeset	2268
55803 74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	2269	val ctr_absT = domain_type (fastype_of ctor);
49119 1f605c36869c more work on FP sugar blanchet parents: 49112 diff changeset	2270
58347 272ad6a47d6d tuning blanchet parents: 58346 diff changeset	2271	val (((w, xss), u'), _) = no_defs_lthy
55803 74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	2272	\|> yield_singleton (mk_Frees "w") ctr_absT
49370 be6e749fd003 fixed variable exporting problem blanchet parents: 49368 diff changeset	2273	\|\|>> mk_Freess "x" ctr_Tss
49498 acc583e14167 tuned variable names blanchet parents: 49484 diff changeset	2274	\|\|>> yield_singleton Variable.variant_fixes fp_b_name;
49370 be6e749fd003 fixed variable exporting problem blanchet parents: 49368 diff changeset	2275
49498 acc583e14167 tuned variable names blanchet parents: 49484 diff changeset	2276	val u = Free (u', fpT);
49121 9e0acaa470ab more work on FP sugar blanchet parents: 49119 diff changeset	2277
62321 1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2278	val ctor_iff_dtor_thm =
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2279	let
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2280	val goal =
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2281	fold_rev Logic.all [w, u]
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2282	(mk_Trueprop_eq (HOLogic.mk_eq (u, ctor $ w), HOLogic.mk_eq (dtor $ u, w)));
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2283	val vars = Variable.add_free_names lthy goal [];
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2284	in
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2285	Goal.prove_sorry lthy vars [] goal (fn {context = ctxt, ...} =>
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2286	mk_ctor_iff_dtor_tac ctxt (map (SOME o Thm.ctyp_of lthy) [ctr_absT, fpT])
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2287	(Thm.cterm_of lthy ctor) (Thm.cterm_of lthy dtor) ctor_dtor dtor_ctor)
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2288	\|> Thm.close_derivation
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2289	end;
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2290
49129 b5413cb7d860 define "case" constant blanchet parents: 49127 diff changeset	2291	val ctr_rhss =
55803 74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	2292	map2 (fn k => fn xs => fold_rev Term.lambda xs (ctor $ mk_absumprod ctr_absT abs n k xs))
74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	2293	ks xss;
49121 9e0acaa470ab more work on FP sugar blanchet parents: 49119 diff changeset	2294
52968 2b430bbb5a1a define case constant from other 'free constructor' axioms blanchet parents: 52964 diff changeset	2295	val ((raw_ctrs, raw_ctr_defs), (lthy', lthy)) = no_defs_lthy
61101 7b915ca69af1 use open/close_target rather than Local_Theory.restore to get polymorphic definitions; traytel parents: 60801 diff changeset	2296	\|> Local_Theory.open_target \|> snd
58634 9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	2297	\|> apfst split_list o @{fold_map 3} (fn b => fn mx => fn rhs =>
62093 bd73a2279fcd more uniform treatment of package internals; wenzelm parents: 61760 diff changeset	2298	Local_Theory.define
bd73a2279fcd more uniform treatment of package internals; wenzelm parents: 61760 diff changeset	2299	((b, mx), ((Thm.make_def_binding (Config.get no_defs_lthy bnf_internals) b, []), rhs))
bd73a2279fcd more uniform treatment of package internals; wenzelm parents: 61760 diff changeset	2300	#>> apsnd snd) ctr_bindings ctr_mixfixes ctr_rhss
61101 7b915ca69af1 use open/close_target rather than Local_Theory.restore to get polymorphic definitions; traytel parents: 60801 diff changeset	2301	\|\|> `Local_Theory.close_target;
49121 9e0acaa470ab more work on FP sugar blanchet parents: 49119 diff changeset	2302
9e0acaa470ab more work on FP sugar blanchet parents: 49119 diff changeset	2303	val phi = Proof_Context.export_morphism lthy lthy';
9e0acaa470ab more work on FP sugar blanchet parents: 49119 diff changeset	2304
9e0acaa470ab more work on FP sugar blanchet parents: 49119 diff changeset	2305	val ctr_defs = map (Morphism.thm phi) raw_ctr_defs;
49585 5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	2306	val ctr_defs' =
5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	2307	map2 (fn m => fn def => mk_unabs_def m (def RS meta_eq_to_obj_eq)) ms ctr_defs;
49130 3c26e17b2849 implemented "mk_case_tac" -- and got rid of "cheat_tac" blanchet parents: 49129 diff changeset	2308
49203 262ab1ac38b9 repaired constant types blanchet parents: 49202 diff changeset	2309	val ctrs0 = map (Morphism.term phi) raw_ctrs;
262ab1ac38b9 repaired constant types blanchet parents: 49202 diff changeset	2310	val ctrs = map (mk_ctr As) ctrs0;
49121 9e0acaa470ab more work on FP sugar blanchet parents: 49119 diff changeset	2311
51897 9a27c870ee21 refactoring blanchet parents: 51896 diff changeset	2312	fun wrap_ctrs lthy =
49123 263b0e330d8b more work on sugar + simplify Trueprop + eq idiom everywhere blanchet parents: 49121 diff changeset	2313	let
62321 1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2314	val sumEN_thm' =
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2315	unfold_thms lthy @{thms unit_all_eq1} (mk_absumprodE type_definition ms);
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2316
50170 8155e280f239 made SML/NJ happier traytel parents: 49693 diff changeset	2317	fun exhaust_tac {context = ctxt, prems = _} =
62321 1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2318	mk_exhaust_tac ctxt n ctr_defs ctor_iff_dtor_thm sumEN_thm';
49135 de13b454fa31 fixed some type issues in sugar "exhaust_tac" blanchet parents: 49134 diff changeset	2319
49585 5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	2320	val inject_tacss =
55803 74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	2321	map2 (fn ctr_def => fn 0 => [] \| _ => [fn {context = ctxt, ...} =>
74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	2322	mk_inject_tac ctxt ctr_def ctor_inject abs_inject]) ctr_defs ms;
49585 5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	2323
5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	2324	val half_distinct_tacss =
5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	2325	map (map (fn (def, def') => fn {context = ctxt, ...} =>
55803 74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	2326	mk_half_distinct_tac ctxt ctor_inject abs_inject [def, def']))
74d3fe9031d8 joint work with blanchet: intermediate typedef for the input to fp-operations traytel parents: 55772 diff changeset	2327	(mk_half_pairss (`I ctr_defs));
49585 5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	2328
52968 2b430bbb5a1a define case constant from other 'free constructor' axioms blanchet parents: 52964 diff changeset	2329	val tacss = [exhaust_tac] :: inject_tacss @ half_distinct_tacss;
49585 5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	2330
57830 2d0f0d6fdf3e correctly resolve selector names in default value equations blanchet parents: 57824 diff changeset	2331	val sel_Tss = map (map (curry (op -->) fpT)) ctr_Tss;
2d0f0d6fdf3e correctly resolve selector names in default value equations blanchet parents: 57824 diff changeset	2332	val sel_bTs =
2d0f0d6fdf3e correctly resolve selector names in default value equations blanchet parents: 57824 diff changeset	2333	flat sel_bindingss ~~ flat sel_Tss
2d0f0d6fdf3e correctly resolve selector names in default value equations blanchet parents: 57824 diff changeset	2334	\|> filter_out (Binding.is_empty o fst)
59058 a78612c67ec0 renamed "pairself" to "apply2", in accordance to @{apply 2}; wenzelm parents: 58967 diff changeset	2335	\|> distinct (Binding.eq_name o apply2 fst);
57830 2d0f0d6fdf3e correctly resolve selector names in default value equations blanchet parents: 57824 diff changeset	2336	val sel_default_lthy = fake_local_theory_for_sel_defaults sel_bTs lthy;
2d0f0d6fdf3e correctly resolve selector names in default value equations blanchet parents: 57824 diff changeset	2337
2d0f0d6fdf3e correctly resolve selector names in default value equations blanchet parents: 57824 diff changeset	2338	val sel_default_eqs = map (prepare_term sel_default_lthy) raw_sel_default_eqs;
55469 b19dd108f0c2 aligned the syntax for 'free_constructors' on the 'datatype_new' and 'codatatype' syntax blanchet parents: 55468 diff changeset	2339
57200 aab87ffa60cc use 'where' clause for selector default value syntax blanchet parents: 57199 diff changeset	2340	fun ctr_spec_of disc_b ctr0 sel_bs = ((disc_b, ctr0), sel_bs);
58634 9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	2341	val ctr_specs = @{map 3} ctr_spec_of disc_bindings ctrs0 sel_bindingss;
58267 4a6c9bcb4189 set 'fundef_cong' attribute also for (co)datatypes with no live type variables blanchet parents: 58265 diff changeset	2342
4a6c9bcb4189 set 'fundef_cong' attribute also for (co)datatypes with no live type variables blanchet parents: 58265 diff changeset	2343	val (ctr_sugar as {case_cong, ...}, lthy') =
58675 69571f0a93df add 'kind' to 'cr_sugar' desharna parents: 58674 diff changeset	2344	free_constructors (ctr_sugar_kind_of_fp_kind fp) tacss
69571f0a93df add 'kind' to 'cr_sugar' desharna parents: 58674 diff changeset	2345	((((plugins, discs_sels), standard_binding), ctr_specs), sel_default_eqs) lthy
58267 4a6c9bcb4189 set 'fundef_cong' attribute also for (co)datatypes with no live type variables blanchet parents: 58265 diff changeset	2346
4a6c9bcb4189 set 'fundef_cong' attribute also for (co)datatypes with no live type variables blanchet parents: 58265 diff changeset	2347	val anonymous_notes =
4a6c9bcb4189 set 'fundef_cong' attribute also for (co)datatypes with no live type variables blanchet parents: 58265 diff changeset	2348	[([case_cong], fundefcong_attrs)]
4a6c9bcb4189 set 'fundef_cong' attribute also for (co)datatypes with no live type variables blanchet parents: 58265 diff changeset	2349	\|> map (fn (thms, attrs) => ((Binding.empty, attrs), [(thms, [])]));
62321 1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2350
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2351	val notes =
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2352	if Config.get lthy' bnf_internals then
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2353	[(ctor_iff_dtorN, [ctor_iff_dtor_thm], K [])]
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2354	\|> massage_simple_notes fp_b_name
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2355	else
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2356	[];
49123 263b0e330d8b more work on sugar + simplify Trueprop + eq idiom everywhere blanchet parents: 49121 diff changeset	2357	in
62321 1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2358	(ctr_sugar, lthy' \|> Local_Theory.notes (anonymous_notes @ notes) \|> snd)
49123 263b0e330d8b more work on sugar + simplify Trueprop + eq idiom everywhere blanchet parents: 49121 diff changeset	2359	end;
49121 9e0acaa470ab more work on FP sugar blanchet parents: 49119 diff changeset	2360
55410 54b09e82b9e1 killed 'rep_compat' option blanchet parents: 55409 diff changeset	2361	fun mk_binding pre = Binding.qualify false fp_b_name (Binding.prefix_name (pre ^ "_") fp_b);
49287 ebe2a5cec4bf allow defaults for one datatype to involve the constructor of another one in the mutually recursive case blanchet parents: 49286 diff changeset	2362
58346 55e83cd30873 refactoring blanchet parents: 58345 diff changeset	2363	fun massage_res (((ctr_sugar, maps_sets_rels), co_rec_res), lthy) =
62321 1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2364	(((maps_sets_rels, (ctrs, xss, ctor_iff_dtor_thm, ctr_defs, ctr_sugar)), co_rec_res),
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2365	lthy);
49119 1f605c36869c more work on FP sugar blanchet parents: 49112 diff changeset	2366	in
51897 9a27c870ee21 refactoring blanchet parents: 51896 diff changeset	2367	(wrap_ctrs
58346 55e83cd30873 refactoring blanchet parents: 58345 diff changeset	2368	#> (fn (ctr_sugar, lthy) =>
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2369	derive_map_set_rel_pred_thms plugins fp live As Bs C E abs_inverses ctr_defs'
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2370	fp_nesting_set_maps fp_nesting_rel_eq_onps live_nesting_map_id0s live_nesting_set_maps
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2371	live_nesting_rel_eqs live_nesting_rel_eq_onps fp_b_name fp_bnf fp_bnfs fpT ctor
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2372	ctor_dtor dtor_ctor pre_map_def pre_set_defs pre_rel_def fp_map_thm fp_set_thms
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2373	fp_rel_thm ctr_Tss abs ctr_sugar lthy
58346 55e83cd30873 refactoring blanchet parents: 58345 diff changeset	2374	\|>> pair ctr_sugar)
52313 62f794b9e9cc renamed ML variables blanchet parents: 52312 diff changeset	2375	##>>
56641 029997d3b5d8 reverted rb458558cbcc2 -- better to keep 'case' and 'rec' distinct, otherwise we lose the connection between 'ctor_rec' (the low-level recursor) and 'rec' blanchet parents: 56640 diff changeset	2376	(if fp = Least_FP then define_rec (the recs_args_types) mk_binding fpTs Cs reps
58352 37745650a3f4 register 'prod' and 'sum' as datatypes, to allow N2M through them blanchet parents: 58347 diff changeset	2377	else define_corec (the corecs_args_types) mk_binding fpTs Cs abss) xtor_co_rec
51835 56523caf372f Added maps, sets, rels to "simps" thm collection blanchet parents: 51833 diff changeset	2378	#> massage_res, lthy')
49119 1f605c36869c more work on FP sugar blanchet parents: 49112 diff changeset	2379	end;
49167 68623861e0f2 print timing information blanchet parents: 49165 diff changeset	2380
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2381	fun wrap_ctrs_derive_map_set_rel_pred_thms_define_co_rec_for_types (wrap_one_etc, lthy) =
58345 3d64590d9752 tuning blanchet parents: 58337 diff changeset	2382	fold_map I wrap_one_etc lthy
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2383	\|>> apsnd split_list o apfst (apsnd @{split_list 5} o apfst @{split_list 17} o split_list)
52342 df4fef9e15a7 tuning blanchet parents: 52341 diff changeset	2384	o split_list;
49226 510c6d4a73ec fixed and enabled iterator/recursor theorems blanchet parents: 49224 diff changeset	2385
58462 b46874f2090f refactor fp_sugar move theorems desharna parents: 58461 diff changeset	2386	fun mk_simp_thms ({injects, distincts, case_thms, ...} : ctr_sugar) co_recs map_thms rel_injects
58565 97cefa5ef0be add 'set_thms' to 'fp_sugar' desharna parents: 58564 diff changeset	2387	rel_distincts set_thmss =
97cefa5ef0be add 'set_thms' to 'fp_sugar' desharna parents: 58564 diff changeset	2388	injects @ distincts @ case_thms @ co_recs @ map_thms @ rel_injects @ rel_distincts @
97cefa5ef0be add 'set_thms' to 'fp_sugar' desharna parents: 58564 diff changeset	2389	set_thmss;
49479 504f0a38f608 added "simp"s to coiter/corec theorems + export under "simps" name blanchet parents: 49478 diff changeset	2390
58448 a1d4e7473c98 generate 'corec_transfer' for codatatypes desharna parents: 58446 diff changeset	2391	fun mk_co_rec_transfer_goals lthy co_recs =
58446 e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	2392	let
58732 854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2393	val B_ify = Term.subst_atomic_types (live_AsBs @ (Cs ~~ Es));
58446 e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	2394
e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	2395	val ((Rs, Ss), names_lthy) = lthy
58732 854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2396	\|> mk_Frees "R" (map (uncurry mk_pred2T) live_AsBs)
58446 e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	2397	\|\|>> mk_Frees "S" (map2 mk_pred2T Cs Es);
e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	2398
58448 a1d4e7473c98 generate 'corec_transfer' for codatatypes desharna parents: 58446 diff changeset	2399	val co_recBs = map B_ify co_recs;
58446 e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	2400	in
58448 a1d4e7473c98 generate 'corec_transfer' for codatatypes desharna parents: 58446 diff changeset	2401	(Rs, Ss, map2 (mk_parametricity_goal lthy (Rs @ Ss)) co_recs co_recBs, names_lthy)
a1d4e7473c98 generate 'corec_transfer' for codatatypes desharna parents: 58446 diff changeset	2402	end;
a1d4e7473c98 generate 'corec_transfer' for codatatypes desharna parents: 58446 diff changeset	2403
58966 0297e1277ed2 make 'rec_transfer' tactic more robust desharna parents: 58963 diff changeset	2404	fun derive_rec_transfer_thms lthy recs rec_defs (SOME (_, _, _, xsssss)) =
61334 8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	2405	let
8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	2406	val (Rs, Ss, goals, _) = mk_co_rec_transfer_goals lthy recs;
8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	2407	val goal = Logic.mk_conjunction_balanced goals;
8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	2408	val vars = Variable.add_free_names lthy goal [];
8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	2409	in
8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	2410	Goal.prove_sorry lthy vars [] goal
58446 e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	2411	(fn {context = ctxt, prems = _} =>
61760 1647bb489522 tuned whitespace blanchet parents: 61551 diff changeset	2412	mk_rec_transfer_tac ctxt nn ns (map (Thm.cterm_of ctxt) Ss)
1647bb489522 tuned whitespace blanchet parents: 61551 diff changeset	2413	(map (Thm.cterm_of ctxt) Rs) xsssss rec_defs xtor_co_rec_transfers pre_rel_defs
1647bb489522 tuned whitespace blanchet parents: 61551 diff changeset	2414	live_nesting_rel_eqs)
61116 6189d179c2b5 close derivation before splitting conjuncts, like Goal.prove_common (see also 757cad5a3fe9) -- potential improvement of performance; wenzelm parents: 61101 diff changeset	2415	\|> Thm.close_derivation
58446 e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	2416	\|> Conjunction.elim_balanced nn
e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	2417	end;
e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	2418
58732 854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2419	fun derive_rec_o_map_thmss lthy recs rec_defs =
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2420	if live = 0 then
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2421	replicate nn []
58732 854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2422	else
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2423	let
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2424	fun variant_names n pre = fst (Variable.variant_fixes (replicate n pre) lthy);
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2425
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2426	val maps0 = map map_of_bnf fp_bnfs;
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2427	val ABs = As ~~ Bs
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2428	val liveness = map (op <>) ABs;
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2429	val f_names = variant_names num_As "f";
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2430	val fs = map2 (curry Free) f_names (map (op -->) ABs);
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2431	val live_gs = AList.find (op =) (fs ~~ liveness) true;
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2432
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2433	val gmaps = map (fn map0 => Term.list_comb (mk_map live As Bs map0, live_gs)) maps0;
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2434
59819 dbec7f33093d store low-level (un)fold constants blanchet parents: 59818 diff changeset	2435	val rec_arg_Ts = binder_fun_types (hd (map fastype_of recs));
58732 854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2436
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2437	val B_ify_T = Term.typ_subst_atomic (As ~~ Bs);
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2438
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2439	val num_rec_args = length rec_arg_Ts;
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2440	val g_Ts = map B_ify_T rec_arg_Ts;
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2441	val g_names = variant_names num_rec_args "g";
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2442	val gs = map2 (curry Free) g_names g_Ts;
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2443	val grecs = map (fn recx => Term.list_comb (Term.map_types B_ify_T recx, gs)) recs;
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2444
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2445	val rec_o_map_lhss = map2 (curry HOLogic.mk_comp) grecs gmaps;
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2446
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2447	val ABfs = ABs ~~ fs;
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2448
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2449	fun mk_rec_arg_arg (x as Free (_, T)) =
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2450	let val U = B_ify_T T in
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2451	if T = U then x else build_map lthy [] (the o AList.lookup (op =) ABfs) (T, U) $ x
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2452	end;
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2453
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2454	fun mk_rec_o_map_arg rec_arg_T h =
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2455	let
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2456	val x_Ts = binder_types rec_arg_T;
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2457	val m = length x_Ts;
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2458	val x_names = variant_names m "x";
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2459	val xs = map2 (curry Free) x_names x_Ts;
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2460	val xs' = map mk_rec_arg_arg xs;
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2461	in
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2462	fold_rev Term.lambda xs (Term.list_comb (h, xs'))
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2463	end;
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2464
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2465	fun mk_rec_o_map_rhs recx =
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2466	let val args = map2 mk_rec_o_map_arg rec_arg_Ts gs in
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2467	Term.list_comb (recx, args)
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2468	end;
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2469
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2470	val rec_o_map_rhss = map mk_rec_o_map_rhs recs;
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2471
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2472	val rec_o_map_goals =
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2473	map2 (fold_rev (fold_rev Logic.all) [fs, gs] o HOLogic.mk_Trueprop oo
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2474	curry HOLogic.mk_eq) rec_o_map_lhss rec_o_map_rhss;
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2475	val rec_o_map_thms =
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2476	@{map 3} (fn goal => fn rec_def => fn ctor_rec_o_map =>
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2477	Goal.prove_sorry lthy [] [] goal (fn {context = ctxt, ...} =>
58734 20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2478	mk_co_rec_o_map_tac ctxt rec_def pre_map_defs live_nesting_map_ident0s
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2479	abs_inverses ctor_rec_o_map)
58732 854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2480	\|> Thm.close_derivation)
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2481	rec_o_map_goals rec_defs xtor_co_rec_o_maps;
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2482	in
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2483	map single rec_o_map_thms
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2484	end;
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2485
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	2486	fun derive_note_induct_recs_thms_for_types
58672 3f0d612ebd8e preserve the structure of 'map_sel' theorem in ML desharna parents: 58671 diff changeset	2487	((((map_thmss, map_disc_iffss, map_selsss, rel_injectss, rel_distinctss, rel_selss,
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2488	rel_intross, rel_casess, pred_injectss, set_thmss, set_selsssss, set_introsssss,
58676 cdf84b6e1297 generate 'sel_transfer' for (co)datatypes desharna parents: 58675 diff changeset	2489	set_casess, ctr_transferss, case_transferss, disc_transferss, sel_transferss),
62321 1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2490	(ctrss, _, ctor_iff_dtors, ctr_defss, ctr_sugars)),
55864 516ab2906e7e rationalized internals blanchet parents: 55863 diff changeset	2491	(recs, rec_defs)), lthy) =
49202 f493cd25737f some work towards iterator and recursor properties blanchet parents: 49201 diff changeset	2492	let
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	2493	val ((induct_thms, induct_thm, induct_attrs), (rec_thmss, rec_attrs)) =
58335 a5a3b576fcfb generate 'code' attribute only if 'code' plugin is enabled blanchet parents: 58332 diff changeset	2494	derive_induct_recs_thms_for_types plugins pre_bnfs recs_args_types xtor_co_induct
a5a3b576fcfb generate 'code' attribute only if 'code' plugin is enabled blanchet parents: 58332 diff changeset	2495	xtor_co_rec_thms live_nesting_bnfs fp_nesting_bnfs fpTs Cs Xs ctrXs_Tsss abs_inverses
a5a3b576fcfb generate 'code' attribute only if 'code' plugin is enabled blanchet parents: 58332 diff changeset	2496	type_definitions abs_inverses ctrss ctr_defss recs rec_defs lthy;
49201 c69c2c18dccb tuning blanchet parents: 49200 diff changeset	2497
58446 e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	2498	val rec_transfer_thmss =
58967 6b6032e99a4b also generate '(co)rec_transfer' for (co)datatypes with 0 live type variables desharna parents: 58966 diff changeset	2499	map single (derive_rec_transfer_thms lthy recs rec_defs recs_args_types);
58446 e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	2500
51830 403f7ecd061f tuning blanchet parents: 51829 diff changeset	2501	val induct_type_attr = Attrib.internal o K o Induct.induct_type;
57471 11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2502	val induct_pred_attr = Attrib.internal o K o Induct.induct_pred;
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2503
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2504	val ((rel_induct_thmss, common_rel_induct_thms),
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2505	(rel_induct_attrs, common_rel_induct_attrs)) =
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2506	if live = 0 then
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2507	((replicate nn [], []), ([], []))
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2508	else
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2509	let
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2510	val ((rel_induct_thms, common_rel_induct_thm), rel_induct_attrs) =
62158 c25c62055180 generate stronger 'rel_(co)induct' and 'coinduct' principles for mutually (co)recursive (co)datatypes blanchet parents: 62093 diff changeset	2511	derive_rel_induct_thms_for_types lthy nn fpTs As Bs ctrss ctr_Tsss
58579 b7bc5ba2f3fb rename 'rel_xtor_co_induct_thm' to 'xtor_rel_co_induct' desharna parents: 58577 diff changeset	2512	(map #exhaust ctr_sugars) xtor_rel_co_induct ctr_defss ctor_injects
58328 086193f231ea refactor repeated terms in a single variable desharna parents: 58327 diff changeset	2513	pre_rel_defs abs_inverses live_nesting_rel_eqs;
57471 11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2514	in
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2515	((map single rel_induct_thms, single common_rel_induct_thm),
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2516	(rel_induct_attrs, rel_induct_attrs))
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2517	end;
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	2518
58732 854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2519	val rec_o_map_thmss = derive_rec_o_map_thmss lthy recs rec_defs;
854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2520
51835 56523caf372f Added maps, sets, rels to "simps" thm collection blanchet parents: 51833 diff changeset	2521	val simp_thmss =
61760 1647bb489522 tuned whitespace blanchet parents: 61551 diff changeset	2522	@{map 6} mk_simp_thms ctr_sugars rec_thmss map_thmss rel_injectss rel_distinctss
1647bb489522 tuned whitespace blanchet parents: 61551 diff changeset	2523	set_thmss;
49438 5bc80d96241e group "simps" together blanchet parents: 49437 diff changeset	2524
49337 538687a77075 set up things for (co)induction sugar blanchet parents: 49336 diff changeset	2525	val common_notes =
57471 11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2526	(if nn > 1 then
57700 a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	2527	[(inductN, [induct_thm], K induct_attrs),
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	2528	(rel_inductN, common_rel_induct_thms, K common_rel_induct_attrs)]
57633 4ff8c090d580 repaired named derivations blanchet parents: 57631 diff changeset	2529	else
4ff8c090d580 repaired named derivations blanchet parents: 57631 diff changeset	2530	[])
51780 67e4ed510dfb register coinductive type's coinduct rule blanchet parents: 51777 diff changeset	2531	\|> massage_simple_notes fp_common_name;
49337 538687a77075 set up things for (co)induction sugar blanchet parents: 49336 diff changeset	2532
49226 510c6d4a73ec fixed and enabled iterator/recursor theorems blanchet parents: 49224 diff changeset	2533	val notes =
55856 bddaada24074 got rid of automatically generated fold constant and theorems (to reduce overhead) blanchet parents: 55803 diff changeset	2534	[(inductN, map single induct_thms, fn T_name => induct_attrs @ [induct_type_attr T_name]),
55869 54ddb003e128 rationalized internals blanchet parents: 55868 diff changeset	2535	(recN, rec_thmss, K rec_attrs),
58732 854eed6e5aed move theorem 'rec_o_map' desharna parents: 58731 diff changeset	2536	(rec_o_mapN, rec_o_map_thmss, K []),
58446 e89f57d1e46c generate 'rec_transfer' for datatypes desharna parents: 58435 diff changeset	2537	(rec_transferN, rec_transfer_thmss, K []),
57471 11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2538	(rel_inductN, rel_induct_thmss, K (rel_induct_attrs @ [induct_pred_attr ""])),
49585 5c4a12550491 generate high-level "maps", "sets", and "rels" properties blanchet parents: 49583 diff changeset	2539	(simpsN, simp_thmss, K [])]
58346 55e83cd30873 refactoring blanchet parents: 58345 diff changeset	2540	\|> massage_multi_notes fp_b_names fpTs;
49202 f493cd25737f some work towards iterator and recursor properties blanchet parents: 49201 diff changeset	2541	in
51824 27d073b0876c register all (co)datatypes in local data blanchet parents: 51823 diff changeset	2542	lthy
56641 029997d3b5d8 reverted rb458558cbcc2 -- better to keep 'case' and 'rec' distinct, otherwise we lose the connection between 'ctor_rec' (the low-level recursor) and 'rec' blanchet parents: 56640 diff changeset	2543	\|> Spec_Rules.add Spec_Rules.Equational (recs, flat rec_thmss)
57631 959caab43a3d use the noted theorem whenever possible, also in 'BNF_Def' blanchet parents: 57568 diff changeset	2544	\|> Local_Theory.notes (common_notes @ notes)
57633 4ff8c090d580 repaired named derivations blanchet parents: 57631 diff changeset	2545	(* for "datatype_realizer.ML": *)
4ff8c090d580 repaired named derivations blanchet parents: 57631 diff changeset	2546	\|>> name_noted_thms
59794 39442248a027 tuning blanchet parents: 59621 diff changeset	2547	(fst (dest_Type (hd fpTs)) ^ implode (map (prefix "_") (tl fp_b_names))) inductN
58189 9d714be4f028 added 'plugins' option to control which hooks are enabled blanchet parents: 58188 diff changeset	2548	\|-> interpret_bnfs_register_fp_sugars plugins fpTs fpBTs Xs Least_FP pre_bnfs absT_infos
62321 1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2549	fp_nesting_bnfs live_nesting_bnfs fp_res ctrXs_Tsss ctor_iff_dtors ctr_defss ctr_sugars
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2550	recs rec_defs map_thmss [induct_thm] (map single induct_thms) rec_thmss (replicate nn [])
58672 3f0d612ebd8e preserve the structure of 'map_sel' theorem in ML desharna parents: 58671 diff changeset	2551	(replicate nn []) rel_injectss rel_distinctss map_disc_iffss map_selsss rel_selss
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2552	rel_intross rel_casess pred_injectss set_thmss set_selsssss set_introsssss set_casess
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2553	ctr_transferss case_transferss disc_transferss (replicate nn []) (replicate nn [])
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2554	rec_transfer_thmss common_rel_induct_thms rel_induct_thmss [] (replicate nn [])
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2555	sel_transferss rec_o_map_thmss
49202 f493cd25737f some work towards iterator and recursor properties blanchet parents: 49201 diff changeset	2556	end;
f493cd25737f some work towards iterator and recursor properties blanchet parents: 49201 diff changeset	2557
58448 a1d4e7473c98 generate 'corec_transfer' for codatatypes desharna parents: 58446 diff changeset	2558	fun derive_corec_transfer_thms lthy corecs corec_defs =
a1d4e7473c98 generate 'corec_transfer' for codatatypes desharna parents: 58446 diff changeset	2559	let
61334 8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	2560	val (Rs, Ss, goals, _) = mk_co_rec_transfer_goals lthy corecs;
58448 a1d4e7473c98 generate 'corec_transfer' for codatatypes desharna parents: 58446 diff changeset	2561	val (_, _, _, (((pgss, pss, qssss, gssss), _), _)) = the corecs_args_types;
61334 8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	2562	val goal = Logic.mk_conjunction_balanced goals;
8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	2563	val vars = Variable.add_free_names lthy goal [];
58448 a1d4e7473c98 generate 'corec_transfer' for codatatypes desharna parents: 58446 diff changeset	2564	in
61334 8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	2565	Goal.prove_sorry lthy vars [] goal
58448 a1d4e7473c98 generate 'corec_transfer' for codatatypes desharna parents: 58446 diff changeset	2566	(fn {context = ctxt, prems = _} =>
59621 291934bac95e Thm.cterm_of and Thm.ctyp_of operate on local context; wenzelm parents: 59582 diff changeset	2567	mk_corec_transfer_tac ctxt (map (Thm.cterm_of ctxt) Ss) (map (Thm.cterm_of ctxt) Rs)
58581 e2e2d775869c rename 'xtor_co_rec_transfer_thms' to 'xtor_co_rec_transfers' desharna parents: 58580 diff changeset	2568	type_definitions corec_defs xtor_co_rec_transfers pre_rel_defs
58448 a1d4e7473c98 generate 'corec_transfer' for codatatypes desharna parents: 58446 diff changeset	2569	live_nesting_rel_eqs (flat pgss) pss qssss gssss)
61116 6189d179c2b5 close derivation before splitting conjuncts, like Goal.prove_common (see also 757cad5a3fe9) -- potential improvement of performance; wenzelm parents: 61101 diff changeset	2570	\|> Thm.close_derivation
58448 a1d4e7473c98 generate 'corec_transfer' for codatatypes desharna parents: 58446 diff changeset	2571	\|> Conjunction.elim_balanced (length goals)
a1d4e7473c98 generate 'corec_transfer' for codatatypes desharna parents: 58446 diff changeset	2572	end;
a1d4e7473c98 generate 'corec_transfer' for codatatypes desharna parents: 58446 diff changeset	2573
58734 20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2574	fun derive_map_o_corec_thmss lthy0 lthy2 corecs corec_defs =
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2575	if live = 0 then
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2576	replicate nn []
58734 20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2577	else
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2578	let
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2579	fun variant_names n pre = fst (Variable.variant_fixes (replicate n pre) lthy0);
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2580	val maps0 = map map_of_bnf fp_bnfs;
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2581	val ABs = As ~~ Bs
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2582	val liveness = map (op <>) ABs;
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2583	val f_names = variant_names num_As "f";
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2584	val fs = map2 (curry Free) f_names (map (op -->) ABs);
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2585	val live_fs = AList.find (op =) (fs ~~ liveness) true;
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2586
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2587	val fmaps = map (fn map0 => Term.list_comb (mk_map live As Bs map0, live_fs)) maps0;
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2588
59819 dbec7f33093d store low-level (un)fold constants blanchet parents: 59818 diff changeset	2589	val corec_arg_Ts = binder_fun_types (hd (map fastype_of corecs));
58734 20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2590
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2591	val B_ify = Term.subst_atomic_types (As ~~ Bs);
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2592	val B_ify_T = Term.typ_subst_atomic (As ~~ Bs);
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2593
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2594	val num_rec_args = length corec_arg_Ts;
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2595	val g_names = variant_names num_rec_args "g";
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2596	val gs = map2 (curry Free) g_names corec_arg_Ts;
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2597	val gcorecs = map (fn corecx => Term.list_comb (corecx, gs)) corecs;
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2598
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2599	val map_o_corec_lhss = map2 (curry HOLogic.mk_comp) fmaps gcorecs;
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2600
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2601	val ABgs = ABs ~~ fs;
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2602
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2603	fun mk_map_o_corec_arg corec_argB_T g =
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2604	let
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2605	val T = range_type (fastype_of g);
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2606	val U = range_type corec_argB_T;
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2607	in
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2608	if T = U then g
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2609	else HOLogic.mk_comp (build_map lthy2 [] (the o AList.lookup (op =) ABgs) (T, U), g)
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2610	end;
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2611
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2612	fun mk_map_o_corec_rhs corecx =
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2613	let val args = map2 (mk_map_o_corec_arg o B_ify_T) corec_arg_Ts gs in
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2614	Term.list_comb (B_ify corecx, args)
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2615	end;
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2616
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2617	val map_o_corec_rhss = map mk_map_o_corec_rhs corecs;
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2618
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2619	val map_o_corec_goals =
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2620	map2 (fold_rev (fold_rev Logic.all) [fs, gs] o HOLogic.mk_Trueprop oo
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2621	curry HOLogic.mk_eq) map_o_corec_lhss map_o_corec_rhss;
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2622
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2623	val map_o_corec_thms =
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2624	@{map 3} (fn goal => fn corec_def => fn dtor_map_o_corec =>
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2625	Goal.prove_sorry lthy2 [] [] goal (fn {context = ctxt, ...} =>
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2626	mk_co_rec_o_map_tac ctxt corec_def pre_map_defs live_nesting_map_ident0s
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2627	abs_inverses dtor_map_o_corec)
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2628	\|> Thm.close_derivation)
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2629	map_o_corec_goals corec_defs xtor_co_rec_o_maps;
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2630	in
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2631	map single map_o_corec_thms
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2632	end;
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2633
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	2634	fun derive_note_coinduct_corecs_thms_for_types
58672 3f0d612ebd8e preserve the structure of 'map_sel' theorem in ML desharna parents: 58671 diff changeset	2635	((((map_thmss, map_disc_iffss, map_selsss, rel_injectss, rel_distinctss, rel_selss,
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2636	rel_intross, rel_casess, pred_injectss, set_thmss, set_selsssss, set_introsssss,
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2637	set_casess, ctr_transferss, case_transferss, disc_transferss, sel_transferss),
62321 1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2638	(_, _, ctor_iff_dtors, ctr_defss, ctr_sugars)),
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	2639	(corecs, corec_defs)), lthy) =
49212 ca59649170b0 more sugar on codatatypes blanchet parents: 49211 diff changeset	2640	let
57983 6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	2641	val (([(coinduct_thms, coinduct_thm), (coinduct_strong_thms, coinduct_strong_thm)],
57260 8747af0d1012 fixed postprocessing of 'coinduct' formula to obtain right property format (without needless hypotheses) blanchet parents: 57206 diff changeset	2642	(coinduct_attrs, common_coinduct_attrs)),
57983 6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	2643	corec_thmss, corec_disc_thmss,
6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	2644	(corec_disc_iff_thmss, corec_disc_iff_attrs), (corec_sel_thmsss, corec_sel_attrs)) =
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	2645	derive_coinduct_corecs_thms_for_types pre_bnfs (the corecs_args_types) xtor_co_induct
57397 5004aca20821 tuned variable names blanchet parents: 57303 diff changeset	2646	dtor_injects dtor_ctors xtor_co_rec_thms live_nesting_bnfs fpTs Cs Xs ctrXs_Tsss kss mss
61334 8d40ddaa427f collect the names from goals in favor of fragile exports traytel parents: 61301 diff changeset	2647	ns abs_inverses abs_inverses I ctr_defss ctr_sugars corecs corec_defs lthy;
49212 ca59649170b0 more sugar on codatatypes blanchet parents: 49211 diff changeset	2648
58264 735be7c77142 tuned code blanchet parents: 58234 diff changeset	2649	fun distinct_prems ctxt thm =
57890 1e13f63fb452 use Goal.prove_sorry instead of Goal.prove where possible (= no schematics in goal and tactic is expected to succeed) traytel parents: 57882 diff changeset	2650	Goal.prove (no sorry) ctxt [] []
58264 735be7c77142 tuned code blanchet parents: 58234 diff changeset	2651	(thm \|> Thm.prop_of \|> Logic.strip_horn \|>> distinct (op aconv) \|> Logic.list_implies)
58963 26bf09b95dda proper context for assume_tac (atac remains as fall-back without context); wenzelm parents: 58935 diff changeset	2652	(fn _ => HEADGOAL (cut_tac thm THEN' assume_tac ctxt) THEN ALLGOALS eq_assume_tac);
57489 8f0ba9f2d10f generate 'corec_code' theorem for codatatypes desharna parents: 57471 diff changeset	2653
8f0ba9f2d10f generate 'corec_code' theorem for codatatypes desharna parents: 57471 diff changeset	2654	fun eq_ifIN _ [thm] = thm
8f0ba9f2d10f generate 'corec_code' theorem for codatatypes desharna parents: 57471 diff changeset	2655	\| eq_ifIN ctxt (thm :: thms) =
8f0ba9f2d10f generate 'corec_code' theorem for codatatypes desharna parents: 57471 diff changeset	2656	distinct_prems ctxt (@{thm eq_ifI} OF
8f0ba9f2d10f generate 'corec_code' theorem for codatatypes desharna parents: 57471 diff changeset	2657	(map (unfold_thms ctxt @{thms atomize_imp[of _ "t = u" for t u]})
8f0ba9f2d10f generate 'corec_code' theorem for codatatypes desharna parents: 57471 diff changeset	2658	[thm, eq_ifIN ctxt thms]));
8f0ba9f2d10f generate 'corec_code' theorem for codatatypes desharna parents: 57471 diff changeset	2659
57890 1e13f63fb452 use Goal.prove_sorry instead of Goal.prove where possible (= no schematics in goal and tactic is expected to succeed) traytel parents: 57882 diff changeset	2660	val corec_code_thms = map (eq_ifIN lthy) corec_thmss;
57983 6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	2661	val corec_sel_thmss = map flat corec_sel_thmsss;
53475 185ad6cf6576 enriched data structure with necessary theorems blanchet parents: 53329 diff changeset	2662
51830 403f7ecd061f tuning blanchet parents: 51829 diff changeset	2663	val coinduct_type_attr = Attrib.internal o K o Induct.coinduct_type;
57302 58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	2664	val coinduct_pred_attr = Attrib.internal o K o Induct.coinduct_pred;
49479 504f0a38f608 added "simp"s to coiter/corec theorems + export under "simps" name blanchet parents: 49478 diff changeset	2665
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	2666	val flat_corec_thms = append oo append;
49479 504f0a38f608 added "simp"s to coiter/corec theorems + export under "simps" name blanchet parents: 49478 diff changeset	2667
58967 6b6032e99a4b also generate '(co)rec_transfer' for (co)datatypes with 0 live type variables desharna parents: 58966 diff changeset	2668	val corec_transfer_thmss = map single (derive_corec_transfer_thms lthy corecs corec_defs);
58448 a1d4e7473c98 generate 'corec_transfer' for codatatypes desharna parents: 58446 diff changeset	2669
57471 11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2670	val ((rel_coinduct_thmss, common_rel_coinduct_thms),
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2671	(rel_coinduct_attrs, common_rel_coinduct_attrs)) =
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2672	if live = 0 then
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2673	((replicate nn [], []), ([], []))
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2674	else
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2675	let
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2676	val ((rel_coinduct_thms, common_rel_coinduct_thm),
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2677	(rel_coinduct_attrs, common_rel_coinduct_attrs)) =
62158 c25c62055180 generate stronger 'rel_(co)induct' and 'coinduct' principles for mutually (co)recursive (co)datatypes blanchet parents: 62093 diff changeset	2678	derive_rel_coinduct_thms_for_types lthy nn fpTs ns As Bs mss ctr_sugars abs_inverses
58579 b7bc5ba2f3fb rename 'rel_xtor_co_induct_thm' to 'xtor_rel_co_induct' desharna parents: 58577 diff changeset	2679	abs_injects ctor_injects dtor_ctors pre_rel_defs ctr_defss xtor_rel_co_induct
58328 086193f231ea refactor repeated terms in a single variable desharna parents: 58327 diff changeset	2680	live_nesting_rel_eqs;
57471 11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2681	in
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2682	((map single rel_coinduct_thms, single common_rel_coinduct_thm),
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2683	(rel_coinduct_attrs, common_rel_coinduct_attrs))
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2684	end;
11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2685
58734 20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2686	val map_o_corec_thmss = derive_map_o_corec_thmss lthy lthy corecs corec_defs;
20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2687
57700 a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	2688	val (set_induct_thms, set_induct_attrss) =
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	2689	derive_set_induct_thms_for_types lthy nn fpTs (map #ctrs ctr_sugars)
58580 8ee2d984caa8 rename 'dtor_set_induct_thms' to 'dtor_set_inducts' desharna parents: 58579 diff changeset	2690	(map (map (mk_set As)) (map sets_of_bnf fp_bnfs)) dtor_set_inducts
62320 dc8374620332 tuning blanchet parents: 62158 diff changeset	2691	(map #exhaust ctr_sugars) (flat pre_set_defss) (flat ctr_defss) dtor_ctors abs_inverses
57700 a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	2692	\|> split_list;
a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	2693
49479 504f0a38f608 added "simp"s to coiter/corec theorems + export under "simps" name blanchet parents: 49478 diff changeset	2694	val simp_thmss =
58634 9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	2695	@{map 6} mk_simp_thms ctr_sugars
9f10d82e8188 added parameterized ML antiquotations @{map N}, @{fold N}, @{fold_map N}, @{split_list N}; wenzelm parents: 58586 diff changeset	2696	(@{map 3} flat_corec_thms corec_disc_thmss corec_disc_iff_thmss corec_sel_thmss)
58565 97cefa5ef0be add 'set_thms' to 'fp_sugar' desharna parents: 58564 diff changeset	2697	map_thmss rel_injectss rel_distinctss set_thmss;
49479 504f0a38f608 added "simp"s to coiter/corec theorems + export under "simps" name blanchet parents: 49478 diff changeset	2698
49342 8ea4bad49ed5 rough and ready induction blanchet parents: 49338 diff changeset	2699	val common_notes =
57700 a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	2700	(set_inductN, set_induct_thms, nth set_induct_attrss) ::
57302 58f02fbaa764 generate 'rel_coinduct' theorem for codatatypes desharna parents: 57301 diff changeset	2701	(if nn > 1 then
57700 a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	2702	[(coinductN, [coinduct_thm], K common_coinduct_attrs),
57983 6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	2703	(coinduct_strongN, [coinduct_strong_thm], K common_coinduct_attrs),
6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	2704	(rel_coinductN, common_rel_coinduct_thms, K common_rel_coinduct_attrs)]
57700 a2c4adb839a9 generate 'set_induct' theorem for codatatypes desharna parents: 57668 diff changeset	2705	else [])
51780 67e4ed510dfb register coinductive type's coinduct rule blanchet parents: 51777 diff changeset	2706	\|> massage_simple_notes fp_common_name;
49342 8ea4bad49ed5 rough and ready induction blanchet parents: 49338 diff changeset	2707
49212 ca59649170b0 more sugar on codatatypes blanchet parents: 49211 diff changeset	2708	val notes =
51780 67e4ed510dfb register coinductive type's coinduct rule blanchet parents: 51777 diff changeset	2709	[(coinductN, map single coinduct_thms,
51810 7b75fab5ebf5 factored out derivation of coinduction, unfold, corec blanchet parents: 51808 diff changeset	2710	fn T_name => coinduct_attrs @ [coinduct_type_attr T_name]),
57983 6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	2711	(coinduct_strongN, map single coinduct_strong_thms, K coinduct_attrs),
57489 8f0ba9f2d10f generate 'corec_code' theorem for codatatypes desharna parents: 57471 diff changeset	2712	(corecN, corec_thmss, K []),
58335 a5a3b576fcfb generate 'code' attribute only if 'code' plugin is enabled blanchet parents: 58332 diff changeset	2713	(corec_codeN, map single corec_code_thms, K (code_attrs @ nitpicksimp_attrs)),
57983 6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	2714	(corec_discN, corec_disc_thmss, K []),
6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	2715	(corec_disc_iffN, corec_disc_iff_thmss, K corec_disc_iff_attrs),
6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	2716	(corec_selN, corec_sel_thmss, K corec_sel_attrs),
58448 a1d4e7473c98 generate 'corec_transfer' for codatatypes desharna parents: 58446 diff changeset	2717	(corec_transferN, corec_transfer_thmss, K []),
58734 20235f0512e2 generate 'map_o_corec' for (co)datatypes desharna parents: 58732 diff changeset	2718	(map_o_corecN, map_o_corec_thmss, K []),
57471 11cd462e31ec generate 'rel_induct' theorem for datatypes desharna parents: 57399 diff changeset	2719	(rel_coinductN, rel_coinduct_thmss, K (rel_coinduct_attrs @ [coinduct_pred_attr ""])),
57983 6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	2720	(simpsN, simp_thmss, K [])]
58346 55e83cd30873 refactoring blanchet parents: 58345 diff changeset	2721	\|> massage_multi_notes fp_b_names fpTs;
49212 ca59649170b0 more sugar on codatatypes blanchet parents: 49211 diff changeset	2722	in
51824 27d073b0876c register all (co)datatypes in local data blanchet parents: 51823 diff changeset	2723	lthy
55867 79b915f26533 rationalized internals blanchet parents: 55865 diff changeset	2724	\|> fold (curry (Spec_Rules.add Spec_Rules.Equational) corecs)
57983 6edc3529bb4e reordered some (co)datatype property names for more consistency blanchet parents: 57932 diff changeset	2725	[flat corec_sel_thmss, flat corec_thmss]
57631 959caab43a3d use the noted theorem whenever possible, also in 'BNF_Def' blanchet parents: 57568 diff changeset	2726	\|> Local_Theory.notes (common_notes @ notes)
58189 9d714be4f028 added 'plugins' option to control which hooks are enabled blanchet parents: 58188 diff changeset	2727	\|-> interpret_bnfs_register_fp_sugars plugins fpTs fpBTs Xs Greatest_FP pre_bnfs absT_infos
62321 1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2728	fp_nesting_bnfs live_nesting_bnfs fp_res ctrXs_Tsss ctor_iff_dtors ctr_defss ctr_sugars
1abe81758619 keep 'ctor_iff_dtor' theorem around in BNF FP database blanchet parents: 62320 diff changeset	2729	corecs corec_defs map_thmss [coinduct_thm, coinduct_strong_thm]
58177 166131276380 introduced local interpretation mechanism for BNFs, to solve issues with datatypes in locales blanchet parents: 58175 diff changeset	2730	(transpose [coinduct_thms, coinduct_strong_thms]) corec_thmss corec_disc_thmss
58672 3f0d612ebd8e preserve the structure of 'map_sel' theorem in ML desharna parents: 58671 diff changeset	2731	corec_sel_thmsss rel_injectss rel_distinctss map_disc_iffss map_selsss rel_selss
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2732	rel_intross rel_casess pred_injectss set_thmss set_selsssss set_introsssss set_casess
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2733	ctr_transferss case_transferss disc_transferss corec_disc_iff_thmss
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2734	(map single corec_code_thms) corec_transfer_thmss common_rel_coinduct_thms
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2735	rel_coinduct_thmss set_induct_thms (replicate nn (if nn = 1 then set_induct_thms else []))
e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2736	sel_transferss map_o_corec_thmss
49212 ca59649170b0 more sugar on codatatypes blanchet parents: 49211 diff changeset	2737	end;
ca59649170b0 more sugar on codatatypes blanchet parents: 49211 diff changeset	2738
52367 2f5e6ad6e91f tuning blanchet parents: 52357 diff changeset	2739	val lthy'' = lthy'
58177 166131276380 introduced local interpretation mechanism for BNFs, to solve issues with datatypes in locales blanchet parents: 58175 diff changeset	2740	\|> live > 0 ? fold2 (fn Type (s, _) => fn bnf => register_bnf_raw s bnf) fpTs fp_bnfs
61364 4a47a4c3e8d5 tuning blanchet parents: 61348 diff changeset	2741	\|> @{fold_map 29} define_ctrs_dtrs_for_type fp_bnfs fp_bs fpTs Cs Es ctors dtors
4a47a4c3e8d5 tuning blanchet parents: 61348 diff changeset	2742	xtor_co_recs ctor_dtors dtor_ctors ctor_injects pre_map_defs pre_set_defss pre_rel_defs
4a47a4c3e8d5 tuning blanchet parents: 61348 diff changeset	2743	xtor_maps xtor_setss xtor_rels ns kss mss abss abs_injects type_definitions ctr_bindingss
4a47a4c3e8d5 tuning blanchet parents: 61348 diff changeset	2744	ctr_mixfixess ctr_Tsss disc_bindingss sel_bindingsss raw_sel_default_eqss
62335 e85c42f4f30a making 'pred_inject' a first-class BNF citizen blanchet parents: 62324 diff changeset	2745	\|> wrap_ctrs_derive_map_set_rel_pred_thms_define_co_rec_for_types
55966 972f0aa7091b balance tuples that represent curried functions blanchet parents: 55903 diff changeset	2746	\|> case_fp fp derive_note_induct_recs_thms_for_types
62383 f60085077ab0 tuning blanchet parents: 62335 diff changeset	2747	derive_note_coinduct_corecs_thms_for_types;
49167 68623861e0f2 print timing information blanchet parents: 49165 diff changeset	2748
68623861e0f2 print timing information blanchet parents: 49165 diff changeset	2749	val timer = time (timer ("Constructors, discriminators, selectors, etc., for the new " ^
52899 3ff23987f316 tuning blanchet parents: 52898 diff changeset	2750	co_prefix fp ^ "datatype"));
49112 4de4635d8f93 started work on sugared "(co)data" commands blanchet parents: diff changeset	2751	in
62324 ae44f16dcea5 make predicator a first-class bnf citizen traytel parents: 62322 diff changeset	2752	lthy''
49112 4de4635d8f93 started work on sugared "(co)data" commands blanchet parents: diff changeset	2753	end;
4de4635d8f93 started work on sugared "(co)data" commands blanchet parents: diff changeset	2754
58659 6c9821c32dd5 Local_Interpretation is superseded by Plugin with formal Plugin_Name management, avoiding undeclared strings; wenzelm parents: 58634 diff changeset	2755	fun co_datatypes x = define_co_datatypes (K I) (K I) (K I) (K I) x;
49297 47fbf2e3e89c provide a programmatic interface for FP sugar blanchet parents: 49287 diff changeset	2756
53974 612505263257 make SML/NJ more happy; wenzelm parents: 53907 diff changeset	2757	fun co_datatype_cmd x =
58659 6c9821c32dd5 Local_Interpretation is superseded by Plugin with formal Plugin_Name management, avoiding undeclared strings; wenzelm parents: 58634 diff changeset	2758	define_co_datatypes Plugin_Name.make_filter Typedecl.read_constraint
6c9821c32dd5 Local_Interpretation is superseded by Plugin with formal Plugin_Name management, avoiding undeclared strings; wenzelm parents: 58634 diff changeset	2759	Syntax.parse_typ Syntax.parse_term x;
49119 1f605c36869c more work on FP sugar blanchet parents: 49112 diff changeset	2760
55469 b19dd108f0c2 aligned the syntax for 'free_constructors' on the 'datatype_new' and 'codatatype' syntax blanchet parents: 55468 diff changeset	2761	val parse_ctr_arg =
57205 c7b06cdf108a tuning blanchet parents: 57200 diff changeset	2762	@{keyword "("} \|-- parse_binding_colon -- Parse.typ --\| @{keyword ")"}
c7b06cdf108a tuning blanchet parents: 57200 diff changeset	2763	\|\| Parse.typ >> pair Binding.empty;
55469 b19dd108f0c2 aligned the syntax for 'free_constructors' on the 'datatype_new' and 'codatatype' syntax blanchet parents: 55468 diff changeset	2764
b19dd108f0c2 aligned the syntax for 'free_constructors' on the 'datatype_new' and 'codatatype' syntax blanchet parents: 55468 diff changeset	2765	val parse_ctr_specs =
57091 1fa9c19ba2c9 got rid of '=:' squiggly blanchet parents: 57046 diff changeset	2766	Parse.enum1 "\|" (parse_ctr_spec Parse.binding parse_ctr_arg -- Parse.opt_mixfix);
51767 bbcdd8519253 honor user-specified name for relator + generalize syntax blanchet parents: 51766 diff changeset	2767
bbcdd8519253 honor user-specified name for relator + generalize syntax blanchet parents: 51766 diff changeset	2768	val parse_spec =
57206 d9be905d6283 changed syntax of map: and rel: arguments to BNF-based datatypes blanchet parents: 57205 diff changeset	2769	parse_type_args_named_constrained -- Parse.binding -- Parse.opt_mixfix --
62324 ae44f16dcea5 make predicator a first-class bnf citizen traytel parents: 62322 diff changeset	2770	(@{keyword "="} \|-- parse_ctr_specs) -- parse_map_rel_pred_bindings -- parse_sel_default_eqs;
51767 bbcdd8519253 honor user-specified name for relator + generalize syntax blanchet parents: 51766 diff changeset	2771
55469 b19dd108f0c2 aligned the syntax for 'free_constructors' on the 'datatype_new' and 'codatatype' syntax blanchet parents: 55468 diff changeset	2772	val parse_co_datatype = parse_ctr_options -- Parse.and_list1 parse_spec;
49278 718e4ad1517e added no_dests option blanchet parents: 49277 diff changeset	2773
52207 21026c312cc3 tuning -- avoided unreadable true/false all over the place for LFP/GFP blanchet parents: 52197 diff changeset	2774	fun parse_co_datatype_cmd fp construct_fp = parse_co_datatype >> co_datatype_cmd fp construct_fp;
49112 4de4635d8f93 started work on sugared "(co)data" commands blanchet parents: diff changeset	2775
4de4635d8f93 started work on sugared "(co)data" commands blanchet parents: diff changeset	2776	end;

author	blanchet
	Tue, 22 Mar 2016 07:57:02 +0100
changeset 62687	1c4842b32bfb
parent 62395	4ceda7d0c955
child 62720	2ceae1e761bd
permissions	-rw-r--r--