wneuper/isa: src/Tools/misc_legacy.ML@0da9433f959e (annotated)

wenzelm@37781	1	(* Title: Tools/misc_legacy.ML
wenzelm@37781	2
wenzelm@37781	3	Misc legacy stuff -- to be phased out eventually.
wenzelm@37781	4	*)
wenzelm@37781	5
wenzelm@37781	6	signature MISC_LEGACY =
wenzelm@37781	7	sig
wenzelm@45004	8	val add_term_names: term * string list -> string list
wenzelm@45004	9	val add_typ_tvars: typ * (indexname * sort) list -> (indexname * sort) list
wenzelm@45004	10	val add_typ_tfree_names: typ * string list -> string list
wenzelm@45004	11	val add_typ_tfrees: typ * (string * sort) list -> (string * sort) list
wenzelm@45004	12	val add_term_tvars: term * (indexname * sort) list -> (indexname * sort) list
wenzelm@45004	13	val add_term_tfrees: term * (string * sort) list -> (string * sort) list
wenzelm@45004	14	val add_term_tfree_names: term * string list -> string list
wenzelm@45004	15	val typ_tfrees: typ -> (string * sort) list
wenzelm@45004	16	val typ_tvars: typ -> (indexname * sort) list
wenzelm@45004	17	val term_tfrees: term -> (string * sort) list
wenzelm@45004	18	val term_tvars: term -> (indexname * sort) list
wenzelm@45004	19	val add_term_vars: term * term list -> term list
wenzelm@45004	20	val term_vars: term -> term list
wenzelm@45004	21	val add_term_frees: term * term list -> term list
wenzelm@45004	22	val term_frees: term -> term list
wenzelm@37781	23	val mk_defpair: term * term -> string * term
wenzelm@37781	24	val get_def: theory -> xstring -> thm
wenzelm@37781	25	val METAHYPS: (thm list -> tactic) -> int -> tactic
wenzelm@37781	26	end;
wenzelm@37781	27
wenzelm@37781	28	structure Misc_Legacy: MISC_LEGACY =
wenzelm@37781	29	struct
wenzelm@37781	30
wenzelm@45004	31	(iterate a function over all types in a term)
wenzelm@45004	32	fun it_term_types f =
wenzelm@45004	33	let fun iter(Const(_,T), a) = f(T,a)
wenzelm@45004	34	\| iter(Free(_,T), a) = f(T,a)
wenzelm@45004	35	\| iter(Var(_,T), a) = f(T,a)
wenzelm@45004	36	\| iter(Abs(_,T,t), a) = iter(t,f(T,a))
wenzelm@45004	37	\| iter(f$u, a) = iter(f, iter(u, a))
wenzelm@45004	38	\| iter(Bound _, a) = a
wenzelm@45004	39	in iter end
wenzelm@45004	40
wenzelm@45004	41	(*Accumulates the names in the term, suppressing duplicates.
wenzelm@45004	42	Includes Frees and Consts. For choosing unambiguous bound var names.*)
wenzelm@45004	43	fun add_term_names (Const(a,_), bs) = insert (op =) (Long_Name.base_name a) bs
wenzelm@45004	44	\| add_term_names (Free(a,_), bs) = insert (op =) a bs
wenzelm@45004	45	\| add_term_names (f$u, bs) = add_term_names (f, add_term_names(u, bs))
wenzelm@45004	46	\| add_term_names (Abs(_,_,t), bs) = add_term_names(t,bs)
wenzelm@45004	47	\| add_term_names (_, bs) = bs;
wenzelm@45004	48
wenzelm@45004	49	(Accumulates the TVars in a type, suppressing duplicates.)
wenzelm@45004	50	fun add_typ_tvars(Type(_,Ts),vs) = List.foldr add_typ_tvars vs Ts
wenzelm@45004	51	\| add_typ_tvars(TFree(_),vs) = vs
wenzelm@45004	52	\| add_typ_tvars(TVar(v),vs) = insert (op =) v vs;
wenzelm@45004	53
wenzelm@45004	54	(Accumulates the TFrees in a type, suppressing duplicates.)
wenzelm@45004	55	fun add_typ_tfree_names(Type(_,Ts),fs) = List.foldr add_typ_tfree_names fs Ts
wenzelm@45004	56	\| add_typ_tfree_names(TFree(f,_),fs) = insert (op =) f fs
wenzelm@45004	57	\| add_typ_tfree_names(TVar(_),fs) = fs;
wenzelm@45004	58
wenzelm@45004	59	fun add_typ_tfrees(Type(_,Ts),fs) = List.foldr add_typ_tfrees fs Ts
wenzelm@45004	60	\| add_typ_tfrees(TFree(f),fs) = insert (op =) f fs
wenzelm@45004	61	\| add_typ_tfrees(TVar(_),fs) = fs;
wenzelm@45004	62
wenzelm@45004	63	(Accumulates the TVars in a term, suppressing duplicates.)
wenzelm@45004	64	val add_term_tvars = it_term_types add_typ_tvars;
wenzelm@45004	65
wenzelm@45004	66	(Accumulates the TFrees in a term, suppressing duplicates.)
wenzelm@45004	67	val add_term_tfrees = it_term_types add_typ_tfrees;
wenzelm@45004	68	val add_term_tfree_names = it_term_types add_typ_tfree_names;
wenzelm@45004	69
wenzelm@45004	70	(Non-list versions)
wenzelm@45004	71	fun typ_tfrees T = add_typ_tfrees(T,[]);
wenzelm@45004	72	fun typ_tvars T = add_typ_tvars(T,[]);
wenzelm@45004	73	fun term_tfrees t = add_term_tfrees(t,[]);
wenzelm@45004	74	fun term_tvars t = add_term_tvars(t,[]);
wenzelm@45004	75
wenzelm@45004	76
wenzelm@45004	77	(Accumulates the Vars in the term, suppressing duplicates.)
wenzelm@45004	78	fun add_term_vars (t, vars: term list) = case t of
wenzelm@45004	79	Var _ => Ord_List.insert Term_Ord.term_ord t vars
wenzelm@45004	80	\| Abs (_,_,body) => add_term_vars(body,vars)
wenzelm@45004	81	\| f$t => add_term_vars (f, add_term_vars(t, vars))
wenzelm@45004	82	\| _ => vars;
wenzelm@45004	83
wenzelm@45004	84	fun term_vars t = add_term_vars(t,[]);
wenzelm@45004	85
wenzelm@45004	86	(Accumulates the Frees in the term, suppressing duplicates.)
wenzelm@45004	87	fun add_term_frees (t, frees: term list) = case t of
wenzelm@45004	88	Free _ => Ord_List.insert Term_Ord.term_ord t frees
wenzelm@45004	89	\| Abs (_,_,body) => add_term_frees(body,frees)
wenzelm@45004	90	\| f$t => add_term_frees (f, add_term_frees(t, frees))
wenzelm@45004	91	\| _ => frees;
wenzelm@45004	92
wenzelm@45004	93	fun term_frees t = add_term_frees(t,[]);
wenzelm@45004	94
wenzelm@45004	95
wenzelm@37781	96	fun mk_defpair (lhs, rhs) =
wenzelm@37781	97	(case Term.head_of lhs of
wenzelm@37781	98	Const (name, _) =>
wenzelm@37781	99	(Long_Name.base_name name ^ "_def", Logic.mk_equals (lhs, rhs))
wenzelm@37781	100	\| _ => raise TERM ("Malformed definition: head of lhs not a constant", [lhs, rhs]));
wenzelm@37781	101
wenzelm@37781	102
wenzelm@37781	103	fun get_def thy = Thm.axiom thy o Name_Space.intern (Theory.axiom_space thy) o Thm.def_name;
wenzelm@37781	104
wenzelm@37781	105
wenzelm@37781	106	(**** METAHYPS -- tactical for using hypotheses as meta-level assumptions
wenzelm@37781	107	METAHYPS (fn prems => tac prems) i
wenzelm@37781	108
wenzelm@37781	109	converts subgoal i, of the form !!x1...xm. [\| A1;...;An] ==> A into a new
wenzelm@37781	110	proof state A==>A, supplying A1,...,An as meta-level assumptions (in
wenzelm@37781	111	"prems"). The parameters x1,...,xm become free variables. If the
wenzelm@37781	112	resulting proof state is [\| B1;...;Bk] ==> C (possibly assuming A1,...,An)
wenzelm@37781	113	then it is lifted back into the original context, yielding k subgoals.
wenzelm@37781	114
wenzelm@37781	115	Replaces unknowns in the context by Frees having the prefix METAHYP_
wenzelm@37781	116	New unknowns in [\| B1;...;Bk] ==> C are lifted over x1,...,xm.
wenzelm@37781	117	DOES NOT HANDLE TYPE UNKNOWNS.
wenzelm@37781	118
wenzelm@37781	119
wenzelm@37781	120	NOTE: This version does not observe the proof context, and thus cannot
wenzelm@37781	121	work reliably. See also Subgoal.SUBPROOF and Subgoal.FOCUS for
wenzelm@37781	122	properly localized variants of the same idea.
wenzelm@37781	123	****)
wenzelm@37781	124
wenzelm@37781	125	local
wenzelm@37781	126
wenzelm@37781	127	(*Strips assumptions in goal yielding ( [x1,...,xm], [H1,...,Hn], B )
wenzelm@37781	128	H1,...,Hn are the hypotheses; x1...xm are variants of the parameters.
wenzelm@37781	129	Main difference from strip_assums concerns parameters:
wenzelm@37781	130	it replaces the bound variables by free variables. *)
wenzelm@37781	131	fun strip_context_aux (params, Hs, Const ("==>", _) $ H $ B) =
wenzelm@37781	132	strip_context_aux (params, H :: Hs, B)
wenzelm@37781	133	\| strip_context_aux (params, Hs, Const ("all",_) $ Abs (a, T, t)) =
wenzelm@43156	134	let val (b, u) = Syntax_Trans.variant_abs (a, T, t)
wenzelm@37781	135	in strip_context_aux ((b, T) :: params, Hs, u) end
wenzelm@37781	136	\| strip_context_aux (params, Hs, B) = (rev params, rev Hs, B);
wenzelm@37781	137
wenzelm@37781	138	fun strip_context A = strip_context_aux ([], [], A);
wenzelm@37781	139
wenzelm@37781	140	(*Left-to-right replacements: ctpairs = [...,(vi,ti),...].
wenzelm@37781	141	Instantiates distinct free variables by terms of same type.*)
wenzelm@37781	142	fun free_instantiate ctpairs =
wenzelm@37781	143	forall_elim_list (map snd ctpairs) o forall_intr_list (map fst ctpairs);
wenzelm@37781	144
wenzelm@37781	145	fun free_of s ((a, i), T) =
wenzelm@37781	146	Free (s ^ (case i of 0 => a \| _ => a ^ "_" ^ string_of_int i), T)
wenzelm@37781	147
wenzelm@37781	148	fun mk_inst v = (Var v, free_of "METAHYP1_" v)
wenzelm@37781	149
wenzelm@37781	150	fun metahyps_split_prem prem =
wenzelm@37781	151	let (find all vars in the hyps -- should find tvars also!)
wenzelm@37781	152	val hyps_vars = fold Term.add_vars (Logic.strip_assums_hyp prem) []
wenzelm@37781	153	val insts = map mk_inst hyps_vars
wenzelm@37781	154	(replace the hyps_vars by Frees)
wenzelm@37781	155	val prem' = subst_atomic insts prem
wenzelm@37781	156	val (params,hyps,concl) = strip_context prem'
wenzelm@37781	157	in (insts,params,hyps,concl) end;
wenzelm@37781	158
wenzelm@37781	159	fun metahyps_aux_tac tacf (prem,gno) state =
wenzelm@37781	160	let val (insts,params,hyps,concl) = metahyps_split_prem prem
wenzelm@37781	161	val maxidx = Thm.maxidx_of state
wenzelm@37781	162	val cterm = Thm.cterm_of (Thm.theory_of_thm state)
wenzelm@37781	163	val chyps = map cterm hyps
wenzelm@37781	164	val hypths = map Thm.assume chyps
wenzelm@37781	165	val subprems = map (Thm.forall_elim_vars 0) hypths
wenzelm@37781	166	val fparams = map Free params
wenzelm@37781	167	val cparams = map cterm fparams
wenzelm@37781	168	fun swap_ctpair (t,u) = (cterm u, cterm t)
wenzelm@37781	169	(Subgoal variables: make Free; lift type over params)
wenzelm@37781	170	fun mk_subgoal_inst concl_vars (v, T) =
wenzelm@37781	171	if member (op =) concl_vars (v, T)
wenzelm@37781	172	then ((v, T), true, free_of "METAHYP2_" (v, T))
wenzelm@37781	173	else ((v, T), false, free_of "METAHYP2_" (v, map #2 params ---> T))
wenzelm@37781	174	(Instantiate subgoal vars by Free applied to params)
wenzelm@37781	175	fun mk_ctpair (v, in_concl, u) =
wenzelm@37781	176	if in_concl then (cterm (Var v), cterm u)
wenzelm@37781	177	else (cterm (Var v), cterm (list_comb (u, fparams)))
wenzelm@37781	178	(Restore Vars with higher type and index)
wenzelm@37781	179	fun mk_subgoal_swap_ctpair (((a, i), T), in_concl, u as Free (_, U)) =
wenzelm@37781	180	if in_concl then (cterm u, cterm (Var ((a, i), T)))
wenzelm@37781	181	else (cterm u, cterm (Var ((a, i + maxidx), U)))
wenzelm@37781	182	(Embed B in the original context of params and hyps)
wenzelm@47086	183	fun embed B = fold_rev Logic.all fparams (Logic.list_implies (hyps, B))
wenzelm@37781	184	(Strip the context using elimination rules)
wenzelm@37781	185	fun elim Bhyp = implies_elim_list (forall_elim_list cparams Bhyp) hypths
wenzelm@37781	186	(A form of lifting that discharges assumptions.)
wenzelm@37781	187	fun relift st =
wenzelm@37781	188	let val prop = Thm.prop_of st
wenzelm@37781	189	val subgoal_vars = (Vars introduced in the subgoals)
wenzelm@37781	190	fold Term.add_vars (Logic.strip_imp_prems prop) []
wenzelm@37781	191	and concl_vars = Term.add_vars (Logic.strip_imp_concl prop) []
wenzelm@37781	192	val subgoal_insts = map (mk_subgoal_inst concl_vars) subgoal_vars
wenzelm@37781	193	val st' = Thm.instantiate ([], map mk_ctpair subgoal_insts) st
wenzelm@37781	194	val emBs = map (cterm o embed) (prems_of st')
wenzelm@37781	195	val Cth = implies_elim_list st' (map (elim o Thm.assume) emBs)
wenzelm@37781	196	in (restore the unknowns to the hypotheses)
wenzelm@37781	197	free_instantiate (map swap_ctpair insts @
wenzelm@37781	198	map mk_subgoal_swap_ctpair subgoal_insts)
wenzelm@37781	199	(discharge assumptions from state in same order)
wenzelm@37781	200	(implies_intr_list emBs
wenzelm@37781	201	(forall_intr_list cparams (implies_intr_list chyps Cth)))
wenzelm@37781	202	end
wenzelm@37781	203	(function to replace the current subgoal)
wenzelm@37781	204	fun next st = Thm.bicompose false (false, relift st, nprems_of st) gno state
wenzelm@37781	205	in Seq.maps next (tacf subprems (Thm.trivial (cterm concl))) end;
wenzelm@37781	206
wenzelm@37781	207	fun print_vars_terms n thm =
wenzelm@37781	208	let
wenzelm@37781	209	val thy = theory_of_thm thm
wenzelm@37781	210	fun typed s ty =
wenzelm@37781	211	" " ^ s ^ " has type: " ^ Syntax.string_of_typ_global thy ty;
wenzelm@37781	212	fun find_vars (Const (c, ty)) =
wenzelm@37781	213	if null (Term.add_tvarsT ty []) then I
wenzelm@37781	214	else insert (op =) (typed c ty)
wenzelm@37781	215	\| find_vars (Var (xi, ty)) =
wenzelm@37781	216	insert (op =) (typed (Term.string_of_vname xi) ty)
wenzelm@37781	217	\| find_vars (Free _) = I
wenzelm@37781	218	\| find_vars (Bound _) = I
wenzelm@37781	219	\| find_vars (Abs (_, _, t)) = find_vars t
wenzelm@37781	220	\| find_vars (t1 $ t2) = find_vars t1 #> find_vars t2;
wenzelm@37781	221	val prem = Logic.nth_prem (n, Thm.prop_of thm)
wenzelm@37781	222	val tms = find_vars prem []
wenzelm@37781	223	in warning (cat_lines ("Found schematic vars in assumptions:" :: tms)) end;
wenzelm@37781	224
wenzelm@37781	225	in
wenzelm@37781	226
wenzelm@37781	227	fun METAHYPS tacf n thm = SUBGOAL (metahyps_aux_tac tacf) n thm
wenzelm@37781	228	handle THM("assume: variables",_,_) => (print_vars_terms n thm; Seq.empty)
wenzelm@37781	229
wenzelm@37781	230	end;
wenzelm@37781	231
wenzelm@37781	232	end;
wenzelm@37781	233

author	wenzelm
	Sat, 14 Jan 2012 17:45:04 +0100
changeset 47086	0da9433f959e
parent 46734	fcb897b39fa3
child 47780	3c73a121a387
permissions	-rw-r--r--