isabelle: TFL/rules.sml@98a2afab3f86 (annotated)

6498 1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	1	(* Title: TFL/rules
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	2	ID: $Id$
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	3	Author: Konrad Slind, Cambridge University Computer Laboratory
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	4	Copyright 1997 University of Cambridge
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	5
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	6	Emulation of HOL inference rules for TFL
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	7	*)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	8
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	9
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	10	structure Rules : Rules_sig =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	11	struct
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	12
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	13	open Utils;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	14
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	15	structure USyntax = USyntax;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	16	structure S = USyntax;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	17	structure U = Utils;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	18	structure D = Dcterm;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	19
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	20
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	21	fun RULES_ERR{func,mesg} = Utils.ERR{module = "Rules",func=func,mesg=mesg};
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	22
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	23
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	24	fun cconcl thm = D.drop_prop(#prop(crep_thm thm));
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	25	fun chyps thm = map D.drop_prop(#hyps(crep_thm thm));
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	26
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	27	fun dest_thm thm =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	28	let val {prop,hyps,...} = rep_thm thm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	29	in (map HOLogic.dest_Trueprop hyps, HOLogic.dest_Trueprop prop)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	30	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	31
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	32
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	33
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	34	(* Inference rules *)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	35
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	36	(*---------------------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	37	* Equality (one step)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	38	---------------------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	39	fun REFL tm = Thm.reflexive tm RS meta_eq_to_obj_eq;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	40	fun SYM thm = thm RS sym;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	41
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	42	fun ALPHA thm ctm1 =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	43	let val ctm2 = cprop_of thm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	44	val ctm2_eq = reflexive ctm2
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	45	val ctm1_eq = reflexive ctm1
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	46	in equal_elim (transitive ctm2_eq ctm1_eq) thm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	47	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	48
7262 a05dc63ca29b from Konrad: support for schematic definitions paulson parents: 6498 diff changeset	49	fun rbeta th =
a05dc63ca29b from Konrad: support for schematic definitions paulson parents: 6498 diff changeset	50	case Dcterm.strip_comb (cconcl th)
a05dc63ca29b from Konrad: support for schematic definitions paulson parents: 6498 diff changeset	51	of (eeq,[l,r]) => transitive th (beta_conversion r)
a05dc63ca29b from Konrad: support for schematic definitions paulson parents: 6498 diff changeset	52	\| _ => raise RULES_ERR{func="rbeta", mesg =""};
6498 1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	53
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	54	(*----------------------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	55	* typ instantiation
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	56	---------------------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	57	fun INST_TYPE blist thm =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	58	let val {sign,...} = rep_thm thm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	59	val blist' = map (fn (TVar(idx,_), B) => (idx, ctyp_of sign B)) blist
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	60	in Thm.instantiate (blist',[]) thm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	61	end
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	62	handle _ => raise RULES_ERR{func = "INST_TYPE", mesg = ""};
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	63
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	64
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	65	(*----------------------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	66	* Implication and the assumption list
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	67	*
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	68	* Assumptions get stuck on the meta-language assumption list. Implications
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	69	* are in the object language, so discharging an assumption "A" from theorem
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	70	* "B" results in something that looks like "A --> B".
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	71	---------------------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	72	fun ASSUME ctm = Thm.assume (D.mk_prop ctm);
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	73
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	74
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	75	(*---------------------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	76	* Implication in TFL is -->. Meta-language implication (==>) is only used
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	77	* in the implementation of some of the inference rules below.
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	78	---------------------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	79	fun MP th1 th2 = th2 RS (th1 RS mp);
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	80
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	81	(forces the first argument to be a proposition if necessary)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	82	fun DISCH tm thm = Thm.implies_intr (D.mk_prop tm) thm COMP impI;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	83
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	84	fun DISCH_ALL thm = Utils.itlist DISCH (#hyps (crep_thm thm)) thm;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	85
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	86
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	87	fun FILTER_DISCH_ALL P thm =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	88	let fun check tm = U.holds P (#t(rep_cterm tm))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	89	in foldr (fn (tm,th) => if (check tm) then DISCH tm th else th)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	90	(chyps thm, thm)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	91	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	92
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	93	(* freezeT expensive! *)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	94	fun UNDISCH thm =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	95	let val tm = D.mk_prop(#1(D.dest_imp(cconcl (freezeT thm))))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	96	in implies_elim (thm RS mp) (ASSUME tm)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	97	end
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	98	handle _ => raise RULES_ERR{func = "UNDISCH", mesg = ""};
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	99
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	100	fun PROVE_HYP ath bth = MP (DISCH (cconcl ath) bth) ath;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	101
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	102	local val [p1,p2] = goal HOL.thy "(A-->B) ==> (B --> C) ==> (A-->C)"
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	103	val dummy = by (rtac impI 1)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	104	val dummy = by (rtac (p2 RS mp) 1)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	105	val dummy = by (rtac (p1 RS mp) 1)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	106	val dummy = by (assume_tac 1)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	107	val imp_trans = result()
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	108	in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	109	fun IMP_TRANS th1 th2 = th2 RS (th1 RS imp_trans)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	110	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	111
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	112	(*----------------------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	113	* Conjunction
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	114	---------------------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	115	fun CONJUNCT1 thm = (thm RS conjunct1)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	116	fun CONJUNCT2 thm = (thm RS conjunct2);
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	117	fun CONJUNCTS th = (CONJUNCTS (CONJUNCT1 th) @ CONJUNCTS (CONJUNCT2 th))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	118	handle _ => [th];
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	119
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	120	fun LIST_CONJ [] = raise RULES_ERR{func = "LIST_CONJ", mesg = "empty list"}
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	121	\| LIST_CONJ [th] = th
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	122	\| LIST_CONJ (th::rst) = MP(MP(conjI COMP (impI RS impI)) th) (LIST_CONJ rst);
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	123
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	124
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	125	(*----------------------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	126	* Disjunction
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	127	---------------------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	128	local val {prop,sign,...} = rep_thm disjI1
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	129	val [P,Q] = term_vars prop
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	130	val disj1 = forall_intr (cterm_of sign Q) disjI1
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	131	in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	132	fun DISJ1 thm tm = thm RS (forall_elim (D.drop_prop tm) disj1)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	133	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	134
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	135	local val {prop,sign,...} = rep_thm disjI2
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	136	val [P,Q] = term_vars prop
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	137	val disj2 = forall_intr (cterm_of sign P) disjI2
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	138	in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	139	fun DISJ2 tm thm = thm RS (forall_elim (D.drop_prop tm) disj2)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	140	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	141
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	142
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	143	(*----------------------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	144	*
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	145	* A1 \|- M1, ..., An \|- Mn
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	146	* ---------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	147	* [A1 \|- M1 \/ ... \/ Mn, ..., An \|- M1 \/ ... \/ Mn]
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	148	*
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	149	---------------------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	150
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	151
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	152	fun EVEN_ORS thms =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	153	let fun blue ldisjs [] _ = []
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	154	\| blue ldisjs (th::rst) rdisjs =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	155	let val tail = tl rdisjs
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	156	val rdisj_tl = D.list_mk_disj tail
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	157	in itlist DISJ2 ldisjs (DISJ1 th rdisj_tl)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	158	:: blue (ldisjs@[cconcl th]) rst tail
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	159	end handle _ => [itlist DISJ2 ldisjs th]
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	160	in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	161	blue [] thms (map cconcl thms)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	162	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	163
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	164
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	165	(*----------------------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	166	*
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	167	* A \|- P \/ Q B,P \|- R C,Q \|- R
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	168	* ---------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	169	* A U B U C \|- R
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	170	*
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	171	---------------------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	172	local val [p1,p2,p3] = goal HOL.thy "(P \| Q) ==> (P --> R) ==> (Q --> R) ==> R"
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	173	val dummy = by (rtac (p1 RS disjE) 1)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	174	val dummy = by (rtac (p2 RS mp) 1)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	175	val dummy = by (assume_tac 1)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	176	val dummy = by (rtac (p3 RS mp) 1)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	177	val dummy = by (assume_tac 1)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	178	val tfl_exE = result()
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	179	in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	180	fun DISJ_CASES th1 th2 th3 =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	181	let val c = D.drop_prop(cconcl th1)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	182	val (disj1,disj2) = D.dest_disj c
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	183	val th2' = DISCH disj1 th2
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	184	val th3' = DISCH disj2 th3
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	185	in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	186	th3' RS (th2' RS (th1 RS tfl_exE))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	187	end
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	188	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	189
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	190
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	191	(*-----------------------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	192	*
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	193	* \|- A1 \/ ... \/ An [A1 \|- M, ..., An \|- M]
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	194	* ---------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	195	* \|- M
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	196	*
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	197	* Note. The list of theorems may be all jumbled up, so we have to
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	198	* first organize it to align with the first argument (the disjunctive
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	199	* theorem).
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	200	---------------------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	201
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	202	fun organize eq = (* a bit slow - analogous to insertion sort *)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	203	let fun extract a alist =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	204	let fun ex (_,[]) = raise RULES_ERR{func = "organize",
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	205	mesg = "not a permutation.1"}
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	206	\| ex(left,h::t) = if (eq h a) then (h,rev left@t) else ex(h::left,t)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	207	in ex ([],alist)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	208	end
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	209	fun place [] [] = []
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	210	\| place (a::rst) alist =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	211	let val (item,next) = extract a alist
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	212	in item::place rst next
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	213	end
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	214	\| place _ _ = raise RULES_ERR{func = "organize",
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	215	mesg = "not a permutation.2"}
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	216	in place
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	217	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	218	(* freezeT expensive! *)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	219	fun DISJ_CASESL disjth thl =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	220	let val c = cconcl disjth
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	221	fun eq th atm = exists (fn t => HOLogic.dest_Trueprop t
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	222	aconv term_of atm)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	223	(#hyps(rep_thm th))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	224	val tml = D.strip_disj c
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	225	fun DL th [] = raise RULES_ERR{func="DISJ_CASESL",mesg="no cases"}
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	226	\| DL th [th1] = PROVE_HYP th th1
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	227	\| DL th [th1,th2] = DISJ_CASES th th1 th2
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	228	\| DL th (th1::rst) =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	229	let val tm = #2(D.dest_disj(D.drop_prop(cconcl th)))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	230	in DISJ_CASES th th1 (DL (ASSUME tm) rst) end
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	231	in DL (freezeT disjth) (organize eq tml thl)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	232	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	233
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	234
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	235	(*----------------------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	236	* Universals
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	237	---------------------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	238	local (* this is fragile *)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	239	val {prop,sign,...} = rep_thm spec
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	240	val x = hd (tl (term_vars prop))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	241	val (TVar (indx,_)) = type_of x
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	242	val gspec = forall_intr (cterm_of sign x) spec
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	243	in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	244	fun SPEC tm thm =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	245	let val {sign,T,...} = rep_cterm tm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	246	val gspec' = instantiate([(indx,ctyp_of sign T)],[]) gspec
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	247	in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	248	thm RS (forall_elim tm gspec')
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	249	end
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	250	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	251
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	252	fun SPEC_ALL thm = rev_itlist SPEC (#1(D.strip_forall(cconcl thm))) thm;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	253
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	254	val ISPEC = SPEC
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	255	val ISPECL = rev_itlist ISPEC;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	256
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	257	(* Not optimized! Too complicated. *)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	258	local val {prop,sign,...} = rep_thm allI
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	259	val [P] = add_term_vars (prop, [])
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	260	fun cty_theta s = map (fn (i,ty) => (i, ctyp_of s ty))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	261	fun ctm_theta s = map (fn (i,tm2) =>
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	262	let val ctm2 = cterm_of s tm2
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	263	in (cterm_of s (Var(i,#T(rep_cterm ctm2))), ctm2)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	264	end)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	265	fun certify s (ty_theta,tm_theta) = (cty_theta s ty_theta,
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	266	ctm_theta s tm_theta)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	267	in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	268	fun GEN v th =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	269	let val gth = forall_intr v th
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	270	val {prop=Const("all",_)$Abs(x,ty,rst),sign,...} = rep_thm gth
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	271	val P' = Abs(x,ty, HOLogic.dest_Trueprop rst) (* get rid of trueprop *)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	272	val tsig = #tsig(Sign.rep_sg sign)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	273	val theta = Pattern.match tsig (P,P')
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	274	val allI2 = instantiate (certify sign theta) allI
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	275	val thm = implies_elim allI2 gth
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	276	val {prop = tp $ (A $ Abs(_,_,M)),sign,...} = rep_thm thm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	277	val prop' = tp $ (A $ Abs(x,ty,M))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	278	in ALPHA thm (cterm_of sign prop')
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	279	end
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	280	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	281
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	282	val GENL = itlist GEN;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	283
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	284	fun GEN_ALL thm =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	285	let val {prop,sign,...} = rep_thm thm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	286	val tycheck = cterm_of sign
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	287	val vlist = map tycheck (add_term_vars (prop, []))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	288	in GENL vlist thm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	289	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	290
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	291
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	292	fun MATCH_MP th1 th2 =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	293	if (D.is_forall (D.drop_prop(cconcl th1)))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	294	then MATCH_MP (th1 RS spec) th2
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	295	else MP th1 th2;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	296
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	297
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	298	(*----------------------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	299	* Existentials
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	300	---------------------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	301
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	302
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	303
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	304	(*---------------------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	305	* Existential elimination
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	306	*
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	307	* A1 \|- ?x.t[x] , A2, "t[v]" \|- t'
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	308	* ------------------------------------ (variable v occurs nowhere)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	309	* A1 u A2 \|- t'
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	310	*
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	311	---------------------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	312
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	313	local val [p1,p2] = goal HOL.thy "(? x. P x) ==> (!x. P x --> Q) ==> Q"
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	314	val dummy = by (rtac (p1 RS exE) 1)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	315	val dummy = by (rtac ((p2 RS allE) RS mp) 1)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	316	val dummy = by (assume_tac 2)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	317	val dummy = by (assume_tac 1)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	318	val choose_thm = result()
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	319	in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	320	fun CHOOSE(fvar,exth) fact =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	321	let val lam = #2(dest_comb(D.drop_prop(cconcl exth)))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	322	val redex = capply lam fvar
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	323	val {sign, t = t$u,...} = rep_cterm redex
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	324	val residue = cterm_of sign (betapply(t,u))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	325	in GEN fvar (DISCH residue fact) RS (exth RS choose_thm)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	326	end
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	327	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	328
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	329
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	330	local val {prop,sign,...} = rep_thm exI
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	331	val [P,x] = term_vars prop
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	332	in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	333	fun EXISTS (template,witness) thm =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	334	let val {prop,sign,...} = rep_thm thm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	335	val P' = cterm_of sign P
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	336	val x' = cterm_of sign x
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	337	val abstr = #2(dest_comb template)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	338	in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	339	thm RS (cterm_instantiate[(P',abstr), (x',witness)] exI)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	340	end
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	341	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	342
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	343	(*----------------------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	344	*
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	345	* A \|- M
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	346	* ------------------- [v_1,...,v_n]
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	347	* A \|- ?v1...v_n. M
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	348	*
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	349	---------------------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	350
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	351	fun EXISTL vlist th =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	352	U.itlist (fn v => fn thm => EXISTS(D.mk_exists(v,cconcl thm), v) thm)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	353	vlist th;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	354
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	355
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	356	(*----------------------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	357	*
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	358	* A \|- M[x_1,...,x_n]
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	359	* ---------------------------- [(x \|-> y)_1,...,(x \|-> y)_n]
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	360	* A \|- ?y_1...y_n. M
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	361	*
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	362	---------------------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	363	(* Could be improved, but needs "subst_free" for certified terms *)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	364
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	365	fun IT_EXISTS blist th =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	366	let val {sign,...} = rep_thm th
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	367	val tych = cterm_of sign
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	368	val detype = #t o rep_cterm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	369	val blist' = map (fn (x,y) => (detype x, detype y)) blist
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	370	fun ?v M = cterm_of sign (S.mk_exists{Bvar=v,Body = M})
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	371
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	372	in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	373	U.itlist (fn (b as (r1,r2)) => fn thm =>
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	374	EXISTS(?r2(subst_free[b]
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	375	(HOLogic.dest_Trueprop(#prop(rep_thm thm)))), tych r1)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	376	thm)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	377	blist' th
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	378	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	379
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	380	(*---------------------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	381	* Faster version, that fails for some as yet unknown reason
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	382	* fun IT_EXISTS blist th =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	383	* let val {sign,...} = rep_thm th
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	384	* val tych = cterm_of sign
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	385	* fun detype (x,y) = ((#t o rep_cterm) x, (#t o rep_cterm) y)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	386	* in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	387	* fold (fn (b as (r1,r2), thm) =>
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	388	* EXISTS(D.mk_exists(r2, tych(subst_free[detype b](#t(rep_cterm(cconcl thm))))),
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	389	* r1) thm) blist th
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	390	* end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	391	---------------------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	392
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	393	(*----------------------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	394	* Rewriting
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	395	---------------------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	396
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	397	fun SUBS thl =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	398	rewrite_rule (map (fn th => (th RS eq_reflection) handle _ => th) thl);
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	399
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	400	local fun rew_conv mss = Thm.rewrite_cterm (true,false,false) mss (K(K None))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	401	in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	402	fun simpl_conv ss thl ctm =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	403	rew_conv (Thm.mss_of (#simps (Thm.dest_mss (#mss (rep_ss ss))) @ thl)) ctm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	404	RS meta_eq_to_obj_eq
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	405	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	406
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	407	local fun prover s = prove_goal HOL.thy s (fn _ => [fast_tac HOL_cs 1])
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	408	in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	409	val RIGHT_ASSOC = rewrite_rule [prover"((a\|b)\|c) = (a\|(b\|c))" RS eq_reflection]
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	410	val ASM = refl RS iffD1
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	411	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	412
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	413
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	414
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	415
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	416	(*---------------------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	417	* TERMINATION CONDITION EXTRACTION
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	418	---------------------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	419
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	420
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	421	(* Object language quantifier, i.e., "!" *)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	422	fun Forall v M = S.mk_forall{Bvar=v, Body=M};
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	423
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	424
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	425	(* Fragile: it's a cong if it is not "R y x ==> cut f R x y = f y" *)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	426	fun is_cong thm =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	427	let val {prop, ...} = rep_thm thm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	428	in case prop
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	429	of (Const("==>",_)$(Const("Trueprop",_)$ _) $
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	430	(Const("==",_) $ (Const ("cut",_) $ f $ R $ a $ x) $ _)) => false
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	431	\| _ => true
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	432	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	433
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	434
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	435
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	436	fun dest_equal(Const ("==",_) $
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	437	(Const ("Trueprop",_) $ lhs)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	438	$ (Const ("Trueprop",_) $ rhs)) = {lhs=lhs, rhs=rhs}
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	439	\| dest_equal(Const ("==",_) $ lhs $ rhs) = {lhs=lhs, rhs=rhs}
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	440	\| dest_equal tm = S.dest_eq tm;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	441
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	442	fun get_lhs tm = #lhs(dest_equal (HOLogic.dest_Trueprop tm));
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	443
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	444	fun dest_all(Const("all",_) $ (a as Abs _)) = S.dest_abs a
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	445	\| dest_all _ = raise RULES_ERR{func = "dest_all", mesg = "not a !!"};
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	446
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	447	val is_all = Utils.can dest_all;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	448
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	449	fun strip_all fm =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	450	if (is_all fm)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	451	then let val {Bvar,Body} = dest_all fm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	452	val (bvs,core) = strip_all Body
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	453	in ((Bvar::bvs), core)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	454	end
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	455	else ([],fm);
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	456
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	457	fun break_all(Const("all",_) $ Abs (_,_,body)) = body
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	458	\| break_all _ = raise RULES_ERR{func = "break_all", mesg = "not a !!"};
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	459
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	460	fun list_break_all(Const("all",_) $ Abs (s,ty,body)) =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	461	let val (L,core) = list_break_all body
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	462	in ((s,ty)::L, core)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	463	end
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	464	\| list_break_all tm = ([],tm);
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	465
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	466	(*---------------------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	467	* Rename a term of the form
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	468	*
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	469	* !!x1 ...xn. x1=M1 ==> ... ==> xn=Mn
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	470	* ==> ((%v1...vn. Q) x1 ... xn = g x1 ... xn.
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	471	* to one of
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	472	*
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	473	* !!v1 ... vn. v1=M1 ==> ... ==> vn=Mn
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	474	* ==> ((%v1...vn. Q) v1 ... vn = g v1 ... vn.
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	475	*
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	476	* This prevents name problems in extraction, and helps the result to read
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	477	* better. There is a problem with varstructs, since they can introduce more
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	478	* than n variables, and some extra reasoning needs to be done.
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	479	---------------------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	480
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	481	fun get ([],_,L) = rev L
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	482	\| get (ant::rst,n,L) =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	483	case (list_break_all ant)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	484	of ([],_) => get (rst, n+1,L)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	485	\| (vlist,body) =>
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	486	let val eq = Logic.strip_imp_concl body
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	487	val (f,args) = S.strip_comb (get_lhs eq)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	488	val (vstrl,_) = S.strip_abs f
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	489	val names = variantlist (map (#1 o dest_Free) vstrl,
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	490	add_term_names(body, []))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	491	in get (rst, n+1, (names,n)::L)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	492	end handle _ => get (rst, n+1, L);
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	493
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	494	(* Note: rename_params_rule counts from 1, not 0 *)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	495	fun rename thm =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	496	let val {prop,sign,...} = rep_thm thm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	497	val tych = cterm_of sign
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	498	val ants = Logic.strip_imp_prems prop
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	499	val news = get (ants,1,[])
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	500	in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	501	U.rev_itlist rename_params_rule news thm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	502	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	503
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	504
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	505	(*---------------------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	506	* Beta-conversion to the rhs of an equation (taken from hol90/drule.sml)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	507	---------------------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	508
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	509	fun list_beta_conv tm =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	510	let fun rbeta th = transitive th (beta_conversion(#2(D.dest_eq(cconcl th))))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	511	fun iter [] = reflexive tm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	512	\| iter (v::rst) = rbeta (combination(iter rst) (reflexive v))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	513	in iter end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	514
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	515
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	516	(*---------------------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	517	* Trace information for the rewriter
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	518	---------------------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	519	val term_ref = ref[] : term list ref
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	520	val mss_ref = ref [] : meta_simpset list ref;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	521	val thm_ref = ref [] : thm list ref;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	522	val tracing = ref false;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	523
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	524	fun say s = if !tracing then writeln s else ();
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	525
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	526	fun print_thms s L =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	527	say (cat_lines (s :: map string_of_thm L));
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	528
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	529	fun print_cterms s L =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	530	say (cat_lines (s :: map string_of_cterm L));
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	531
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	532
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	533	(*---------------------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	534	* General abstraction handlers, should probably go in USyntax.
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	535	---------------------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	536	fun mk_aabs(vstr,body) = S.mk_abs{Bvar=vstr,Body=body}
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	537	handle _ => S.mk_pabs{varstruct = vstr, body = body};
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	538
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	539	fun list_mk_aabs (vstrl,tm) =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	540	U.itlist (fn vstr => fn tm => mk_aabs(vstr,tm)) vstrl tm;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	541
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	542	fun dest_aabs tm =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	543	let val {Bvar,Body} = S.dest_abs tm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	544	in (Bvar,Body)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	545	end handle _ => let val {varstruct,body} = S.dest_pabs tm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	546	in (varstruct,body)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	547	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	548
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	549	fun strip_aabs tm =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	550	let val (vstr,body) = dest_aabs tm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	551	val (bvs, core) = strip_aabs body
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	552	in (vstr::bvs, core)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	553	end
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	554	handle _ => ([],tm);
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	555
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	556	fun dest_combn tm 0 = (tm,[])
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	557	\| dest_combn tm n =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	558	let val {Rator,Rand} = S.dest_comb tm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	559	val (f,rands) = dest_combn Rator (n-1)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	560	in (f,Rand::rands)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	561	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	562
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	563
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	564
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	565
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	566	local fun dest_pair M = let val {fst,snd} = S.dest_pair M in (fst,snd) end
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	567	fun mk_fst tm =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	568	let val ty as Type("*", [fty,sty]) = type_of tm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	569	in Const ("fst", ty --> fty) $ tm end
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	570	fun mk_snd tm =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	571	let val ty as Type("*", [fty,sty]) = type_of tm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	572	in Const ("snd", ty --> sty) $ tm end
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	573	in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	574	fun XFILL tych x vstruct =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	575	let fun traverse p xocc L =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	576	if (is_Free p)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	577	then tych xocc::L
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	578	else let val (p1,p2) = dest_pair p
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	579	in traverse p1 (mk_fst xocc) (traverse p2 (mk_snd xocc) L)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	580	end
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	581	in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	582	traverse vstruct x []
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	583	end end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	584
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	585	(*---------------------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	586	* Replace a free tuple (vstr) by a universally quantified variable (a).
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	587	* Note that the notion of "freeness" for a tuple is different than for a
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	588	* variable: if variables in the tuple also occur in any other place than
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	589	* an occurrences of the tuple, they aren't "free" (which is thus probably
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	590	* the wrong word to use).
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	591	---------------------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	592
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	593	fun VSTRUCT_ELIM tych a vstr th =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	594	let val L = S.free_vars_lr vstr
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	595	val bind1 = tych (HOLogic.mk_Trueprop (HOLogic.mk_eq(a,vstr)))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	596	val thm1 = implies_intr bind1 (SUBS [SYM(assume bind1)] th)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	597	val thm2 = forall_intr_list (map tych L) thm1
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	598	val thm3 = forall_elim_list (XFILL tych a vstr) thm2
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	599	in refl RS
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	600	rewrite_rule[symmetric (surjective_pairing RS eq_reflection)] thm3
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	601	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	602
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	603	fun PGEN tych a vstr th =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	604	let val a1 = tych a
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	605	val vstr1 = tych vstr
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	606	in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	607	forall_intr a1
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	608	(if (is_Free vstr)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	609	then cterm_instantiate [(vstr1,a1)] th
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	610	else VSTRUCT_ELIM tych a vstr th)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	611	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	612
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	613
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	614	(*---------------------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	615	* Takes apart a paired beta-redex, looking like "(\(x,y).N) vstr", into
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	616	*
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	617	* (([x,y],N),vstr)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	618	---------------------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	619	fun dest_pbeta_redex M n =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	620	let val (f,args) = dest_combn M n
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	621	val dummy = dest_aabs f
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	622	in (strip_aabs f,args)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	623	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	624
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	625	fun pbeta_redex M n = U.can (U.C dest_pbeta_redex n) M;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	626
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	627	fun dest_impl tm =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	628	let val ants = Logic.strip_imp_prems tm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	629	val eq = Logic.strip_imp_concl tm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	630	in (ants,get_lhs eq)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	631	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	632
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	633	fun restricted t = is_some (S.find_term
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	634	(fn (Const("cut",_)) =>true \| _ => false)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	635	t)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	636
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	637	fun CONTEXT_REWRITE_RULE (func, G, cut_lemma, congs) th =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	638	let val globals = func::G
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	639	val pbeta_reduce = simpl_conv empty_ss [split RS eq_reflection];
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	640	val tc_list = ref[]: term list ref
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	641	val dummy = term_ref := []
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	642	val dummy = thm_ref := []
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	643	val dummy = mss_ref := []
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	644	val cut_lemma' = cut_lemma RS eq_reflection
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	645	fun prover mss thm =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	646	let fun cong_prover mss thm =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	647	let val dummy = say "cong_prover:"
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	648	val cntxt = prems_of_mss mss
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	649	val dummy = print_thms "cntxt:" cntxt
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	650	val dummy = say "cong rule:"
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	651	val dummy = say (string_of_thm thm)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	652	val dummy = thm_ref := (thm :: !thm_ref)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	653	val dummy = mss_ref := (mss :: !mss_ref)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	654	(* Unquantified eliminate *)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	655	fun uq_eliminate (thm,imp,sign) =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	656	let val tych = cterm_of sign
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	657	val dummy = print_cterms "To eliminate:" [tych imp]
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	658	val ants = map tych (Logic.strip_imp_prems imp)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	659	val eq = Logic.strip_imp_concl imp
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	660	val lhs = tych(get_lhs eq)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	661	val mss' = add_prems(mss, map ASSUME ants)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	662	val lhs_eq_lhs1 = Thm.rewrite_cterm(false,true,false)mss' prover lhs
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	663	handle _ => reflexive lhs
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	664	val dummy = print_thms "proven:" [lhs_eq_lhs1]
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	665	val lhs_eq_lhs2 = implies_intr_list ants lhs_eq_lhs1
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	666	val lhs_eeq_lhs2 = lhs_eq_lhs2 RS meta_eq_to_obj_eq
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	667	in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	668	lhs_eeq_lhs2 COMP thm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	669	end
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	670	fun pq_eliminate (thm,sign,vlist,imp_body,lhs_eq) =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	671	let val ((vstrl,_),args) = dest_pbeta_redex lhs_eq(length vlist)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	672	val dummy = assert (forall (op aconv)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	673	(ListPair.zip (vlist, args)))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	674	"assertion failed in CONTEXT_REWRITE_RULE"
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	675	val imp_body1 = subst_free (ListPair.zip (args, vstrl))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	676	imp_body
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	677	val tych = cterm_of sign
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	678	val ants1 = map tych (Logic.strip_imp_prems imp_body1)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	679	val eq1 = Logic.strip_imp_concl imp_body1
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	680	val Q = get_lhs eq1
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	681	val QeqQ1 = pbeta_reduce (tych Q)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	682	val Q1 = #2(D.dest_eq(cconcl QeqQ1))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	683	val mss' = add_prems(mss, map ASSUME ants1)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	684	val Q1eeqQ2 = Thm.rewrite_cterm (false,true,false) mss' prover Q1
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	685	handle _ => reflexive Q1
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	686	val Q2 = #2 (Logic.dest_equals (#prop(rep_thm Q1eeqQ2)))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	687	val Q3 = tych(list_comb(list_mk_aabs(vstrl,Q2),vstrl))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	688	val Q2eeqQ3 = symmetric(pbeta_reduce Q3 RS eq_reflection)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	689	val thA = transitive(QeqQ1 RS eq_reflection) Q1eeqQ2
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	690	val QeeqQ3 = transitive thA Q2eeqQ3 handle _ =>
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	691	((Q2eeqQ3 RS meta_eq_to_obj_eq)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	692	RS ((thA RS meta_eq_to_obj_eq) RS trans))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	693	RS eq_reflection
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	694	val impth = implies_intr_list ants1 QeeqQ3
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	695	val impth1 = impth RS meta_eq_to_obj_eq
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	696	(* Need to abstract *)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	697	val ant_th = U.itlist2 (PGEN tych) args vstrl impth1
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	698	in ant_th COMP thm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	699	end
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	700	fun q_eliminate (thm,imp,sign) =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	701	let val (vlist,imp_body) = strip_all imp
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	702	val (ants,Q) = dest_impl imp_body
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	703	in if (pbeta_redex Q) (length vlist)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	704	then pq_eliminate (thm,sign,vlist,imp_body,Q)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	705	else
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	706	let val tych = cterm_of sign
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	707	val ants1 = map tych ants
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	708	val mss' = add_prems(mss, map ASSUME ants1)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	709	val Q_eeq_Q1 = Thm.rewrite_cterm(false,true,false) mss'
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	710	prover (tych Q)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	711	handle _ => reflexive (tych Q)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	712	val lhs_eeq_lhs2 = implies_intr_list ants1 Q_eeq_Q1
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	713	val lhs_eq_lhs2 = lhs_eeq_lhs2 RS meta_eq_to_obj_eq
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	714	val ant_th = forall_intr_list(map tych vlist)lhs_eq_lhs2
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	715	in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	716	ant_th COMP thm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	717	end end
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	718
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	719	fun eliminate thm =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	720	case (rep_thm thm)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	721	of {prop = (Const("==>",_) $ imp $ _), sign, ...} =>
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	722	eliminate
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	723	(if not(is_all imp)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	724	then uq_eliminate (thm,imp,sign)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	725	else q_eliminate (thm,imp,sign))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	726	(* Assume that the leading constant is ==, *)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	727	\| _ => thm (* if it is not a ==> *)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	728	in Some(eliminate (rename thm))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	729	end handle _ => None
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	730
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	731	fun restrict_prover mss thm =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	732	let val dummy = say "restrict_prover:"
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	733	val cntxt = rev(prems_of_mss mss)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	734	val dummy = print_thms "cntxt:" cntxt
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	735	val {prop = Const("==>",_) $ (Const("Trueprop",_) $ A) $ _,
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	736	sign,...} = rep_thm thm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	737	fun genl tm = let val vlist = gen_rems (op aconv)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	738	(add_term_frees(tm,[]), globals)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	739	in U.itlist Forall vlist tm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	740	end
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	741	(*--------------------------------------------------------------
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	742	* This actually isn't quite right, since it will think that
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	743	* not-fully applied occs. of "f" in the context mean that the
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	744	* current call is nested. The real solution is to pass in a
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	745	* term "f v1..vn" which is a pattern that any full application
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	746	* of "f" will match.
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	747	-------------------------------------------------------------)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	748	val func_name = #1(dest_Const func)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	749	fun is_func (Const (name,_)) = (name = func_name)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	750	\| is_func _ = false
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	751	val rcontext = rev cntxt
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	752	val cncl = HOLogic.dest_Trueprop o #prop o rep_thm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	753	val antl = case rcontext of [] => []
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	754	\| _ => [S.list_mk_conj(map cncl rcontext)]
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	755	val TC = genl(S.list_mk_imp(antl, A))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	756	val dummy = print_cterms "func:" [cterm_of sign func]
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	757	val dummy = print_cterms "TC:"
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	758	[cterm_of sign (HOLogic.mk_Trueprop TC)]
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	759	val dummy = tc_list := (TC :: !tc_list)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	760	val nestedp = is_some (S.find_term is_func TC)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	761	val dummy = if nestedp then say "nested" else say "not_nested"
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	762	val dummy = term_ref := ([func,TC]@(!term_ref))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	763	val th' = if nestedp then raise RULES_ERR{func = "solver",
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	764	mesg = "nested function"}
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	765	else let val cTC = cterm_of sign
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	766	(HOLogic.mk_Trueprop TC)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	767	in case rcontext of
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	768	[] => SPEC_ALL(ASSUME cTC)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	769	\| _ => MP (SPEC_ALL (ASSUME cTC))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	770	(LIST_CONJ rcontext)
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	771	end
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	772	val th'' = th' RS thm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	773	in Some (th'')
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	774	end handle _ => None
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	775	in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	776	(if (is_cong thm) then cong_prover else restrict_prover) mss thm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	777	end
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	778	val ctm = cprop_of th
7262 a05dc63ca29b from Konrad: support for schematic definitions paulson parents: 6498 diff changeset	779	val th1 = Thm.rewrite_cterm(false,true,false)
a05dc63ca29b from Konrad: support for schematic definitions paulson parents: 6498 diff changeset	780	(add_congs(mss_of [cut_lemma'], congs))
6498 1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	781	prover ctm
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	782	val th2 = equal_elim th1 th
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	783	in
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	784	(th2, filter (not o restricted) (!tc_list))
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	785	end;
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	786
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	787
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	788
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	789	fun prove (ptm,tac) =
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	790	#1 (freeze_thaw (prove_goalw_cterm [] ptm (fn _ => [tac])));
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	791
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	792
1ebbe18fe236 Now for recdefs that omit the WF relation; paulson parents: diff changeset	793	end; (* Rules *)

author	paulson
	Thu, 26 Aug 1999 11:33:24 +0200
changeset 7359	98a2afab3f86
parent 7262	a05dc63ca29b
child 8882	9df44a4f1bf7
permissions	-rw-r--r--