wneuper/isa: src/Tools/isac/ProgLang/term.sml@22235e4dbe5f (annotated)

neuper@37906	1	(* extends Isabelle/src/Pure/term.ML
neuper@37906	2	(c) Walther Neuper 1999
neuper@37906	3
neuper@37947	4	use"ProgLang/term.sml";
neuper@37947	5	use"term.sml";
neuper@37906	6	*)
neuper@37906	7
neuper@37906	8	(*
neuper@37938	9	> (cterm_of thy) a_term;
neuper@37906	10	val it = "empty" : cterm *)
neuper@37906	11
neuper@37934	12	(*2003 fun match thy t pat =
neuper@37906	13	(snd (Pattern.match (Sign.tsig_of (sign_of thy)) (pat, t)))
neuper@37906	14	handle _ => [];
neuper@37931	15	fn : theory ->
neuper@37906	16	Term.term -> Term.term -> (Term.indexname * Term.term) list*)
neuper@37906	17	(see src/Tools/eqsubst.ML fun clean_match)
neuper@37934	18	(2003 fun matches thy tm pa = if match thy tm pa = [] then false else true;)
neuper@37906	19	fun matches thy tm pa =
neuper@37906	20	(Pattern.match thy (pa, tm) (Vartab.empty, Vartab.empty); true)
neuper@37906	21	handle _ => false
neuper@37906	22
neuper@37906	23	fun atomtyp t = (see raw_pp_typ)
neuper@37906	24	let
neuper@37906	25	fun ato n (Type (s,[])) =
neuper@37906	26	("\n*** "^indent n^"Type ("^s^",[])")
neuper@37906	27	\| ato n (Type (s,Ts)) =
neuper@37906	28	("\n*** "^indent n^"Type ("^s^",["^ atol (n+1) Ts)
neuper@37906	29
neuper@37906	30	\| ato n (TFree (s,sort)) =
neuper@37906	31	("\n*** "^indent n^"TFree ("^s^",["^ strs2str' sort)
neuper@37906	32
neuper@37906	33	\| ato n (TVar ((s,i),sort)) =
neuper@37906	34	("\n*** "^indent n^"TVar (("^s^","^
neuper@37906	35	string_of_int i ^ strs2str' sort)
neuper@37906	36	and atol n [] =
neuper@37906	37	("\n*** "^indent n^"]")
neuper@37906	38	\| atol n (T::Ts) = (ato n T ^ atol n Ts)
neuper@37906	39	(in print (ato 0 t ^ "\n") end; TODO TUM10)
neuper@37906	40	in writeln(ato 0 t) end;
neuper@37906	41
neuper@37906	42	(Prog.Tutorial.p.34)
neuper@37906	43	local
neuper@37906	44	fun pp_pair (x, y) = Pretty.list "(" ")" [x, y]
neuper@37906	45	fun pp_list xs = Pretty.list "[" "]" xs
neuper@37906	46	fun pp_str s = Pretty.str s
neuper@37906	47	fun pp_qstr s = Pretty.quote (pp_str s)
neuper@37906	48	fun pp_int i = pp_str (string_of_int i)
neuper@37906	49	fun pp_sort S = pp_list (map pp_qstr S)
neuper@37906	50	fun pp_constr a args = Pretty.block [pp_str a, Pretty.brk 1, args]
neuper@37906	51	in
neuper@37906	52	fun raw_pp_typ (TVar ((a, i), S)) =
neuper@37906	53	pp_constr "TVar" (pp_pair (pp_pair (pp_qstr a, pp_int i), pp_sort S))
neuper@37906	54	\| raw_pp_typ (TFree (a, S)) =
neuper@37906	55	pp_constr "TFree" (pp_pair (pp_qstr a, pp_sort S))
neuper@37906	56	\| raw_pp_typ (Type (a, tys)) =
neuper@37906	57	pp_constr "Type" (pp_pair (pp_qstr a, pp_list (map raw_pp_typ tys)))
neuper@37906	58	end
neuper@37906	59	(* install
neuper@37906	60	PolyML.addPrettyPrinter
neuper@37906	61	(fn _ => fn _ => ml_pretty o Pretty.to_ML o raw_pp_typ);
neuper@37906	62	de-install
neuper@37906	63	PolyML.addPrettyPrinter
neuper@37906	64	(fn _ => fn _ => ml_pretty o Pretty.to_ML o Proof_Display.pp_typ Pure.thy);
neuper@37906	65	*)
neuper@37906	66
neuper@37906	67	(*
neuper@37906	68	> val T = (type_of o term_of o the o (parse thy)) "a::[real,int] => nat";
neuper@37906	69	> atomtyp T;
neuper@37906	70	*** Type (fun,[
neuper@37906	71	*** Type (RealDef.real,[])
neuper@37906	72	*** Type (fun,[
neuper@37906	73	*** Type (IntDef.int,[])
neuper@37906	74	*** Type (nat,[])
neuper@37906	75	*** ]
neuper@37906	76	*** ]
neuper@37906	77	*)
neuper@37906	78
neuper@37906	79	fun atomt t =
neuper@37906	80	let fun ato (Const(a,T)) n =
neuper@37906	81	("\n*** "^indent n^"Const ("^a^")")
neuper@37906	82	\| ato (Free (a,T)) n =
neuper@37906	83	("\n*** "^indent n^"Free ("^a^", "^")")
neuper@37906	84	\| ato (Var ((a,ix),T)) n =
neuper@37906	85	("\n*** "^indent n^"Var (("^a^", "^(string_of_int ix)^"), "^")")
neuper@37906	86	\| ato (Bound ix) n =
neuper@37906	87	("\n*** "^indent n^"Bound "^(string_of_int ix))
neuper@37906	88	\| ato (Abs(a,T,body)) n =
neuper@37906	89	("\n*** "^indent n^"Abs("^a^",..")^ato body (n+1)
neuper@37906	90	\| ato (f$t') n = (ato f n; ato t' (n+1))
neuper@37906	91	in writeln("\n* -------------"^ ato t 0 ^"\n*") end;
neuper@37906	92
neuper@37906	93	fun term_detail2str t =
neuper@37906	94	let fun ato (Const (a, T)) n =
neuper@37906	95	"\n*** "^indent n^"Const ("^a^", "^string_of_typ T^")"
neuper@37906	96	\| ato (Free (a, T)) n =
neuper@37906	97	"\n*** "^indent n^"Free ("^a^", "^string_of_typ T^")"
neuper@37906	98	\| ato (Var ((a, ix), T)) n =
neuper@37906	99	"\n*** "^indent n^"Var (("^a^", "^string_of_int ix^"), "^
neuper@37906	100	string_of_typ T^")"
neuper@37906	101	\| ato (Bound ix) n =
neuper@37906	102	"\n*** "^indent n^"Bound "^string_of_int ix
neuper@37906	103	\| ato (Abs(a, T, body)) n =
neuper@37906	104	"\n*** "^indent n^"Abs ("^a^", "^
neuper@37906	105	(string_of_typ T)^",.."
neuper@37906	106	^ato body (n + 1)
neuper@37906	107	\| ato (f $ t') n = ato f n^ato t' (n+1)
neuper@37906	108	in "\n* "^ato t 0^"\n*" end;
neuper@37906	109	fun atomty t = (writeln o term_detail2str) t;
neuper@37906	110
neuper@37906	111	fun term_str thy (Const(s,_)) = s
neuper@37906	112	\| term_str thy (Free(s,_)) = s
neuper@37906	113	\| term_str thy (Var((s,i),_)) = s^(string_of_int i)
neuper@37906	114	\| term_str thy (Bound i) = "B."^(string_of_int i)
neuper@37906	115	\| term_str thy (Abs(s,_,_)) = s
neuper@37906	116	\| term_str thy t = raise error("term_str not for "^term2str t);
neuper@37906	117
neuper@37906	118	(.contains the fst argument the second argument (a leave! of term).)
neuper@37906	119	fun contains_term (Abs(_,_,body)) t = contains_term body t
neuper@37906	120	\| contains_term (f $ f') t =
neuper@37906	121	contains_term f t orelse contains_term f' t
neuper@37906	122	\| contains_term s t = t = s;
neuper@37906	123	(.contains the term a VAR(("",_),_) ?.*)
neuper@37906	124	fun contains_Var (Abs(_,_,body)) = contains_Var body
neuper@37906	125	\| contains_Var (f $ f') = contains_Var f orelse contains_Var f'
neuper@37906	126	\| contains_Var (Var _) = true
neuper@37906	127	\| contains_Var _ = false;
neuper@37906	128	(* contains_Var (str2term "?z = 3") (true);
neuper@37906	129	contains_Var (str2term "z = 3") (false);
neuper@37906	130	*)
neuper@37906	131
neuper@37906	132	(*fun int_of_str str =
neuper@37906	133	let val ss = explode str
neuper@37906	134	val str' = case ss of
neuper@37906	135	"("::s => drop_last s \| _ => ss
neuper@37906	136	in case BasisLibrary.Int.fromString (implode str') of
neuper@37906	137	SOME i => SOME i
neuper@37906	138	\| NONE => NONE end;*)
neuper@37906	139	fun int_of_str str =
neuper@37906	140	let val ss = explode str
neuper@37906	141	val str' = case ss of
neuper@37906	142	"("::s => drop_last s \| _ => ss
neuper@37906	143	in (SOME (Thy_Output.integer (implode str'))) handle _ => NONE end;
neuper@37906	144	(*
neuper@37906	145	> int_of_str "123";
neuper@37906	146	val it = SOME 123 : int option
neuper@37906	147	> int_of_str "(-123)";
neuper@37906	148	val it = SOME 123 : int option
neuper@37906	149	> int_of_str "#123";
neuper@37906	150	val it = NONE : int option
neuper@37906	151	> int_of_str "-123";
neuper@37906	152	val it = SOME ~123 : int option
neuper@37906	153	*)
neuper@37906	154	fun int_of_str' str =
neuper@37906	155	case int_of_str str of
neuper@37906	156	SOME i => i
neuper@37906	157	\| NONE => raise TERM ("int_of_string: no int-string",[]);
neuper@37906	158	val str2int = int_of_str';
neuper@37906	159
neuper@37906	160	fun is_numeral str = case int_of_str str of
neuper@37906	161	SOME _ => true
neuper@37906	162	\| NONE => false;
neuper@37906	163	val is_no = is_numeral;
neuper@37906	164	fun is_num (Free (s,_)) = if is_numeral s then true else false
neuper@37906	165	\| is_num _ = false;
neuper@37906	166	(*>
neuper@37906	167	> is_num ((term_of o the o (parse thy)) "#1");
neuper@37906	168	val it = true : bool
neuper@37906	169	> is_num ((term_of o the o (parse thy)) "#-1");
neuper@37906	170	val it = true : bool
neuper@37906	171	> is_num ((term_of o the o (parse thy)) "a123");
neuper@37906	172	val it = false : bool
neuper@37906	173	*)
neuper@37906	174
neuper@37906	175	(*fun int_of_Free (Free (intstr, _)) =
neuper@37906	176	(case BasisLibrary.Int.fromString intstr of
neuper@37906	177	SOME i => i
neuper@37906	178	\| NONE => raise error ("int_of_Free ( "^ intstr ^", _)"))
neuper@37906	179	\| int_of_Free t = raise error ("int_of_Free ( "^ term2str t ^" )");*)
neuper@37906	180	fun int_of_Free (Free (intstr, _)) = (Thy_Output.integer intstr
neuper@37906	181	handle _ => raise error ("int_of_Free ( "^ intstr ^", _)"))
neuper@37906	182	\| int_of_Free t = raise error ("int_of_Free ( "^ term2str t ^" )");
neuper@37906	183
neuper@37906	184	fun vars t =
neuper@37906	185	let
neuper@37906	186	fun scan vs (Const(s,T)) = vs
neuper@37906	187	\| scan vs (t as Free(s,T)) = if is_no s then vs else t::vs
neuper@37906	188	\| scan vs (t as Var((s,i),T)) = t::vs
neuper@37906	189	\| scan vs (Bound i) = vs
neuper@37906	190	\| scan vs (Abs(s,T,t)) = scan vs t
neuper@37906	191	\| scan vs (t1 $ t2) = (scan vs t1) @ (scan vs t2)
neuper@37906	192	in (distinct o (scan [])) t end;
neuper@37906	193
neuper@37906	194	fun is_Free (Free _) = true
neuper@37906	195	\| is_Free _ = false;
neuper@37906	196	fun is_fun_id (Const _) = true
neuper@37906	197	\| is_fun_id (Free _) = true
neuper@37906	198	\| is_fun_id _ = false;
neuper@37906	199	fun is_f_x (f $ x) = is_fun_id f andalso is_Free x
neuper@37906	200	\| is_f_x _ = false;
neuper@37906	201	(* is_f_x (str2term "q_0/2 * L * x") (false);
neuper@37906	202	is_f_x (str2term "M_b x") (true);
neuper@37906	203	*)
neuper@37906	204	fun vars_str t =
neuper@37906	205	let
neuper@37906	206	fun scan vs (Const(s,T)) = vs
neuper@37906	207	\| scan vs (t as Free(s,T)) = if is_no s then vs else s::vs
neuper@37906	208	\| scan vs (t as Var((s,i),T)) = (s^"_"^(string_of_int i))::vs
neuper@37906	209	\| scan vs (Bound i) = vs
neuper@37906	210	\| scan vs (Abs(s,T,t)) = scan vs t
neuper@37906	211	\| scan vs (t1 $ t2) = (scan vs t1) @ (scan vs t2)
neuper@37906	212	in (distinct o (scan [])) t end;
neuper@37906	213
neuper@37906	214	fun ids2str t =
neuper@37906	215	let
neuper@37906	216	fun scan vs (Const(s,T)) = if is_no s then vs else s::vs
neuper@37906	217	\| scan vs (t as Free(s,T)) = if is_no s then vs else s::vs
neuper@37906	218	\| scan vs (t as Var((s,i),T)) = (s^"_"^(string_of_int i))::vs
neuper@37906	219	\| scan vs (Bound i) = vs
neuper@37906	220	\| scan vs (Abs(s,T,t)) = scan (s::vs) t
neuper@37906	221	\| scan vs (t1 $ t2) = (scan vs t1) @ (scan vs t2)
neuper@37906	222	in (distinct o (scan [])) t end;
neuper@37906	223	fun is_bdv str =
neuper@37906	224	case explode str of
neuper@37906	225	"b"::"d"::"v"::_ => true
neuper@37906	226	\| _ => false;
neuper@37906	227	fun is_bdv_ (Free (s,_)) = is_bdv s
neuper@37906	228	\| is_bdv_ _ = false;
neuper@37906	229
neuper@37906	230	fun free2str (Free (s,_)) = s
neuper@37906	231	\| free2str t = raise error ("free2str not for "^ term2str t);
neuper@37906	232	fun free2int (t as Free (s, _)) = ((str2int s)
neuper@37906	233	handle _ => raise error ("free2int: "^term_detail2str t))
neuper@37906	234	\| free2int t = raise error ("free2int: "^term_detail2str t);
neuper@37906	235
neuper@37906	236	(27.8.01: unused)
neuper@37906	237	fun var2free (t as Const(s,T)) = t
neuper@37906	238	\| var2free (t as Free(s,T)) = t
neuper@37906	239	\| var2free (Var((s,i),T)) = Free(s,T)
neuper@37906	240	\| var2free (t as Bound i) = t
neuper@37906	241	\| var2free (Abs(s,T,t)) = Abs(s,T,var2free t)
neuper@37906	242	\| var2free (t1 $ t2) = (var2free t1) $ (var2free t2);
neuper@37906	243
neuper@37906	244	(27.8.01: doesn't find some subterm ???!???)
neuper@37906	245	(2010 Logic.varify !!!)
neuper@37906	246	fun free2var (t as Const(s,T)) = t
neuper@37906	247	\| free2var (t as Free(s,T)) = if is_no s then t else Var((s,0),T)
neuper@37906	248	\| free2var (t as Var((s,i),T)) = t
neuper@37906	249	\| free2var (t as Bound i) = t
neuper@37906	250	\| free2var (Abs(s,T,t)) = Abs(s,T,free2var t)
neuper@37906	251	\| free2var (t1 $ t2) = (free2var t1) $ (free2var t2);
neuper@37906	252
neuper@37906	253
neuper@37906	254	fun mk_listT T = Type ("List.list", [T]);
neuper@37906	255	fun list_const T =
neuper@37906	256	Const("List.list.Cons", [T, mk_listT T] ---> mk_listT T);
neuper@37906	257	(28.8.01: TODO: get type from head of list: 1 arg less!!!)
neuper@37906	258	fun list2isalist T [] = Const("List.list.Nil",mk_listT T)
neuper@37906	259	\| list2isalist T (t::ts) = (list_const T) $ t $ (list2isalist T ts);
neuper@37906	260	(*
neuper@37906	261	> val tt = (term_of o the o (parse thy)) "R=(R::real)";
neuper@37906	262	> val TT = type_of tt;
neuper@37906	263	> val ss = list2isalist TT [tt,tt,tt];
neuper@37938	264	> (cterm_of thy) ss;
neuper@37906	265	val it = "[R = R, R = R, R = R]" : cterm *)
neuper@37906	266
neuper@37906	267	fun isapair2pair (Const ("Pair",_) $ a $ b) = (a,b)
neuper@37906	268	\| isapair2pair t =
neuper@37906	269	raise error ("isapair2pair called with "^term2str t);
neuper@37906	270
neuper@37906	271	val listType = Type ("List.list",[Type ("bool",[])]);
neuper@37906	272	fun isalist2list ls =
neuper@37906	273	let
neuper@37906	274	fun get es (Const("List.list.Cons",_) $ t $ ls) = get (t::es) ls
neuper@37906	275	\| get es (Const("List.list.Nil",_)) = es
neuper@37906	276	\| get _ t =
neuper@37906	277	raise error ("isalist2list applied to NON-list '"^term2str t^"'")
neuper@37906	278	in (rev o (get [])) ls end;
neuper@37906	279	(*
neuper@37906	280	> val il = str2term "[a=b,c=d,e=f]";
neuper@37906	281	> val l = isalist2list il;
neuper@37906	282	> (writeln o terms2str) l;
neuper@37906	283	["a = b","c = d","e = f"]
neuper@37906	284
neuper@37906	285	> val il = str2term "ss___::bool list";
neuper@37906	286	> val l = isalist2list il;
neuper@37906	287	[Free ("ss___", "bool List.list")]
neuper@37906	288	*)
neuper@37906	289
neuper@37906	290
neuper@37906	291	(review Isabelle2009/src/HOL/Tools/hologic.ML)
neuper@37906	292	val prop = Type ("prop",[]); (* ~/Diss.99/Integers-Isa/tools.sml*)
neuper@37906	293	val bool = Type ("bool",[]); (* 2002 Integ.int *)
neuper@37906	294	val Trueprop = Const("Trueprop",bool-->prop);
neuper@37906	295	fun mk_prop t = Trueprop $ t;
neuper@37906	296	val true_as_term = Const("True",bool);
neuper@37906	297	val false_as_term = Const("False",bool);
neuper@37924	298	val true_as_cterm = cterm_of (theory "HOL") true_as_term;
neuper@37924	299	val false_as_cterm = cterm_of (theory "HOL") false_as_term;
neuper@37906	300
neuper@37906	301	infixr 5 -->; (2002 /Pure/term.ML )
neuper@37906	302	infixr --->; (2002 /Pure/term.ML )
neuper@37906	303	fun S --> T = Type("fun",[S,T]); (2002 /Pure/term.ML )
neuper@37906	304	val op ---> = foldr (op -->); (2002 /Pure/term.ML )
neuper@37906	305	fun list_implies ([], B) = B : term (2002 /term.ML )
neuper@37906	306	\| list_implies (A::AS, B) = Logic.implies $ A $ list_implies(AS,B);
neuper@37906	307
neuper@37906	308
neuper@37906	309
neuper@37906	310	( substitution )
neuper@37906	311
neuper@37906	312	fun match_bvs(Abs(x,_,s),Abs(y,_,t), al) = (* = thm.ML *)
neuper@37906	313	match_bvs(s, t, if x="" orelse y="" then al
neuper@37906	314	else (x,y)::al)
neuper@37906	315	\| match_bvs(f$s, g$t, al) = match_bvs(f,g,match_bvs(s,t,al))
neuper@37906	316	\| match_bvs(_,_,al) = al;
neuper@37906	317	fun ren_inst(insts,prop,pat,obj) = (* = thm.ML *)
neuper@37906	318	let val ren = match_bvs(pat,obj,[])
neuper@37906	319	fun renAbs(Abs(x,T,b)) =
neuper@37906	320	Abs(case assoc_string(ren,x) of NONE => x
neuper@37906	321	\| SOME(y) => y, T, renAbs(b))
neuper@37906	322	\| renAbs(f$t) = renAbs(f) $ renAbs(t)
neuper@37906	323	\| renAbs(t) = t
neuper@37906	324	in subst_vars insts (if null(ren) then prop else renAbs(prop)) end;
neuper@37906	325
neuper@37906	326
neuper@37906	327
neuper@37906	328
neuper@37906	329
neuper@37906	330
neuper@37906	331	fun dest_equals' (Const("op =",_) $ t $ u) = (t,u)(* logic.ML: Const("=="*)
neuper@37906	332	\| dest_equals' t = raise TERM("dest_equals'", [t]);
neuper@37906	333	val lhs_ = (fst o dest_equals');
neuper@37906	334	val rhs_ = (snd o dest_equals');
neuper@37906	335
neuper@37906	336	fun is_equality (Const("op =",_) $ t $ u) = true (* logic.ML: Const("=="*)
neuper@37906	337	\| is_equality _ = false;
neuper@37906	338	fun mk_equality (t,u) = (Const("op =",[type_of t,type_of u]--->bool) $ t $ u);
neuper@37906	339	fun is_expliceq (Const("op =",_) $ (Free _) $ u) = true
neuper@37906	340	\| is_expliceq _ = false;
neuper@37906	341	fun strip_trueprop (Const("Trueprop",_) $ t) = t
neuper@37906	342	\| strip_trueprop t = t;
neuper@37906	343	(* \| strip_trueprop t = raise TERM("strip_trueprop", [t]);
neuper@37906	344	*)
neuper@37906	345
neuper@37906	346	(.(A1==>...An==>B) goes to (A1==>...An==>).)
neuper@37906	347	fun strip_imp_prems' (Const("==>", T) $ A $ t) =
neuper@37906	348	let fun coll_prems As (Const("==>", _) $ A $ t) =
neuper@37906	349	coll_prems (As $ (Logic.implies $ A)) t
neuper@37906	350	\| coll_prems As _ = SOME As
neuper@37906	351	in coll_prems (Logic.implies $ A) t end
neuper@37906	352	\| strip_imp_prems' _ = NONE; (* logic.ML: term -> term list*)
neuper@37906	353	(*
neuper@37906	354	val thm = real_mult_div_cancel1;
neuper@37906	355	val prop = (#prop o rep_thm) thm;
neuper@37906	356	atomt prop;
neuper@37906	357	*** -------------
neuper@37906	358	*** Const ( ==>)
neuper@37906	359	*** . Const ( Trueprop)
neuper@37906	360	*** . . Const ( Not)
neuper@37906	361	*** . . . Const ( op =)
neuper@37906	362	*** . . . . Var ((k, 0), )
neuper@37906	363	*** . . . . Const ( 0)
neuper@37906	364	*** . Const ( Trueprop)
neuper@37906	365	* . . Const ( op =) * .............
neuper@37906	366	val SOME t = strip_imp_prems' ((#prop o rep_thm) thm);
neuper@37906	367	atomt t;
neuper@37906	368	*** -------------
neuper@37906	369	*** Const ( ==>)
neuper@37906	370	*** . Const ( Trueprop)
neuper@37906	371	*** . . Const ( Not)
neuper@37906	372	*** . . . Const ( op =)
neuper@37906	373	*** . . . . Var ((k, 0), )
neuper@37906	374	*** . . . . Const ( 0)
neuper@37906	375
neuper@37906	376	val thm = real_le_anti_sym;
neuper@37906	377	val prop = (#prop o rep_thm) thm;
neuper@37906	378	atomt prop;
neuper@37906	379	*** -------------
neuper@37906	380	*** Const ( ==>)
neuper@37906	381	*** . Const ( Trueprop)
neuper@37906	382	*** . . Const ( op <=)
neuper@37906	383	*** . . . Var ((z, 0), )
neuper@37906	384	*** . . . Var ((w, 0), )
neuper@37906	385	*** . Const ( ==>)
neuper@37906	386	*** . . Const ( Trueprop)
neuper@37906	387	*** . . . Const ( op <=)
neuper@37906	388	*** . . . . Var ((w, 0), )
neuper@37906	389	*** . . . . Var ((z, 0), )
neuper@37906	390	*** . . Const ( Trueprop)
neuper@37906	391	*** . . . Const ( op =)
neuper@37906	392	*** .............
neuper@37906	393	val SOME t = strip_imp_prems' ((#prop o rep_thm) thm);
neuper@37906	394	atomt t;
neuper@37906	395	*** -------------
neuper@37906	396	*** Const ( ==>)
neuper@37906	397	*** . Const ( Trueprop)
neuper@37906	398	*** . . Const ( op <=)
neuper@37906	399	*** . . . Var ((z, 0), )
neuper@37906	400	*** . . . Var ((w, 0), )
neuper@37906	401	*** . Const ( ==>)
neuper@37906	402	*** . . Const ( Trueprop)
neuper@37906	403	*** . . . Const ( op <=)
neuper@37906	404	*** . . . . Var ((w, 0), )
neuper@37906	405	*** . . . . Var ((z, 0), )
neuper@37906	406	*)
neuper@37906	407
neuper@37906	408	(. (A1==>...An==>) (B) goes to (A1==>...An==>B), where B is lowest branch.)
neuper@37906	409	fun ins_concl (Const("==>", T) $ A $ t) B = Logic.implies $ A $ (ins_concl t B)
neuper@37906	410	\| ins_concl (Const("==>", T) $ A ) B = Logic.implies $ A $ B
neuper@37906	411	\| ins_concl t B = raise TERM("ins_concl", [t, B]);
neuper@37906	412	(*
neuper@37906	413	val thm = real_le_anti_sym;
neuper@37906	414	val prop = (#prop o rep_thm) thm;
neuper@37906	415	val concl = Logic.strip_imp_concl prop;
neuper@37906	416	val SOME prems = strip_imp_prems' prop;
neuper@37906	417	val prop' = ins_concl prems concl;
neuper@37906	418	prop = prop';
neuper@37906	419	atomt prop;
neuper@37906	420	atomt prop';
neuper@37906	421	*)
neuper@37906	422
neuper@37906	423
neuper@37906	424	fun vperm (Var _, Var _) = true (2002 Pure/thm.ML )
neuper@37906	425	\| vperm (Abs (_, _, s), Abs (_, _, t)) = vperm (s, t)
neuper@37906	426	\| vperm (t1 $ t2, u1 $ u2) = vperm (t1, u1) andalso vperm (t2, u2)
neuper@37906	427	\| vperm (t, u) = (t = u);
neuper@37906	428
neuper@37906	429	(2002 cp from Pure/term.ML --- since 2009 in Pure/old_term.ML)
neuper@37906	430	fun mem_term (_, []) = false
neuper@37906	431	\| mem_term (t, t'::ts) = t aconv t' orelse mem_term(t,ts);
neuper@37906	432	fun subset_term ([], ys) = true
neuper@37906	433	\| subset_term (x :: xs, ys) = mem_term (x, ys) andalso subset_term(xs, ys);
neuper@37906	434	fun eq_set_term (xs, ys) =
neuper@37906	435	xs = ys orelse (subset_term (xs, ys) andalso subset_term (ys, xs));
neuper@37906	436	(a total, irreflexive ordering on index names)
neuper@37906	437	fun xless ((a,i), (b,j): indexname) = i<j orelse (i=j andalso a<b);
neuper@37906	438	(a partial ordering (not reflexive) for atomic terms)
neuper@37906	439	fun atless (Const (a,_), Const (b,_)) = a<b
neuper@37906	440	\| atless (Free (a,_), Free (b,_)) = a<b
neuper@37906	441	\| atless (Var(v,_), Var(w,_)) = xless(v,w)
neuper@37906	442	\| atless (Bound i, Bound j) = i<j
neuper@37906	443	\| atless _ = false;
neuper@37906	444	(insert atomic term into partially sorted list, suppressing duplicates (?))
neuper@37906	445	fun insert_aterm (t,us) =
neuper@37906	446	let fun inserta [] = [t]
neuper@37906	447	\| inserta (us as u::us') =
neuper@37906	448	if atless(t,u) then t::us
neuper@37906	449	else if t=u then us (duplicate)
neuper@37906	450	else u :: inserta(us')
neuper@37906	451	in inserta us end;
neuper@37906	452
neuper@37906	453	(Accumulates the Vars in the term, suppressing duplicates)
neuper@37906	454	fun add_term_vars (t, vars: term list) = case t of
neuper@37906	455	Var _ => insert_aterm(t,vars)
neuper@37906	456	\| Abs (_,_,body) => add_term_vars(body,vars)
neuper@37906	457	\| f$t => add_term_vars (f, add_term_vars(t, vars))
neuper@37906	458	\| _ => vars;
neuper@37906	459	fun term_vars t = add_term_vars(t,[]);
neuper@37906	460
neuper@37906	461
neuper@37906	462	fun var_perm (t, u) = (2002 Pure/thm.ML )
neuper@37906	463	vperm (t, u) andalso eq_set_term (term_vars t, term_vars u);
neuper@37906	464
neuper@37906	465	(2002 fun decomp_simp, Pure/thm.ML )
neuper@37906	466	fun perm lhs rhs = var_perm (lhs, rhs) andalso not (lhs aconv rhs)
neuper@37906	467	andalso not (is_Var lhs);
neuper@37906	468
neuper@37906	469
neuper@37906	470	fun str_of_int n =
neuper@37906	471	if n < 0 then "-"^((string_of_int o abs) n)
neuper@37906	472	else string_of_int n;
neuper@37906	473	(*
neuper@37906	474	> str_of_int 1;
neuper@37906	475	val it = "1" : string > str_of_int ~1;
neuper@37906	476	val it = "-1" : string
neuper@37906	477	*)
neuper@37906	478
neuper@37906	479
neuper@37906	480	fun power b 0 = 1
neuper@37906	481	\| power b n =
neuper@37906	482	if n>0 then b*(power b (n-1))
neuper@37906	483	else raise error ("power "^(str_of_int b)^" "^(str_of_int n));
neuper@37906	484	(*
neuper@37906	485	> power 2 3;
neuper@37906	486	val it = 8 : int
neuper@37906	487	> power ~2 3;
neuper@37906	488	val it = ~8 : int
neuper@37906	489	> power ~3 2;
neuper@37906	490	val it = 9 : int
neuper@37906	491	> power 3 ~2;
neuper@37906	492	*)
neuper@37906	493	fun gcd 0 b = b
neuper@37906	494	\| gcd a b = if a < b then gcd (b mod a) a
neuper@37906	495	else gcd (a mod b) b;
neuper@37906	496	fun sign n = if n < 0 then ~1
neuper@37906	497	else if n = 0 then 0 else 1;
neuper@37906	498	fun sign2 n1 n2 = (sign n1) * (sign n2);
neuper@37906	499
neuper@37906	500	infix dvd;
neuper@37906	501	fun d dvd n = n mod d = 0;
neuper@37906	502
neuper@37906	503	fun divisors n =
neuper@37906	504	let fun pdiv ds d n =
neuper@37906	505	if d=n then d::ds
neuper@37906	506	else if d dvd n then pdiv (d::ds) d (n div d)
neuper@37906	507	else pdiv ds (d+1) n
neuper@37906	508	in pdiv [] 2 n end;
neuper@37906	509
neuper@37906	510	divisors 30;
neuper@37906	511	divisors 32;
neuper@37906	512	divisors 60;
neuper@37906	513	divisors 11;
neuper@37906	514
neuper@37906	515	fun doubles ds = (* ds is ordered *)
neuper@37906	516	let fun dbls ds [] = ds
neuper@37906	517	\| dbls ds [i] = ds
neuper@37906	518	\| dbls ds (i::i'::is) = if i=i' then dbls (i::ds) is
neuper@37906	519	else dbls ds (i'::is)
neuper@37906	520	in dbls [] ds end;
neuper@37906	521	(*> doubles [2,3,4];
neuper@37906	522	val it = [] : int list
neuper@37906	523	> doubles [2,3,3,5,5,7];
neuper@37906	524	val it = [5,3] : int list*)
neuper@37906	525
neuper@37906	526	fun squfact 0 = 0
neuper@37906	527	\| squfact 1 = 1
neuper@37906	528	\| squfact n = foldl op* (1, (doubles o divisors) n);
neuper@37906	529	(*> squfact 30;
neuper@37906	530	val it = 1 : int
neuper@37906	531	> squfact 32;
neuper@37906	532	val it = 4 : int
neuper@37906	533	> squfact 60;
neuper@37906	534	val it = 2 : int
neuper@37906	535	> squfact 11;
neuper@37906	536	val it = 1 : int*)
neuper@37906	537
neuper@37906	538
neuper@37906	539	fun dest_type (Type(T,[])) = T
neuper@37906	540	\| dest_type T =
neuper@37906	541	(atomtyp T;
neuper@37906	542	raise error ("... dest_type: not impl. for this type"));
neuper@37906	543
neuper@37906	544	fun term_of_num ntyp n = Free (str_of_int n, ntyp);
neuper@37906	545
neuper@37906	546	fun pairT T1 T2 = Type ("*", [T1, T2]);
neuper@37906	547	(*> val t = str2term "(1,2)";
neuper@37906	548	> type_of t = pairT HOLogic.realT HOLogic.realT;
neuper@37906	549	val it = true : bool
neuper@37906	550	*)
neuper@37906	551	fun PairT T1 T2 = ([T1, T2] ---> Type ("*", [T1, T2]));
neuper@37906	552	(*> val t = str2term "(1,2)";
neuper@37906	553	> val Const ("Pair",pT) $ _ $ _ = t;
neuper@37906	554	> pT = PairT HOLogic.realT HOLogic.realT;
neuper@37906	555	val it = true : bool
neuper@37906	556	*)
neuper@37906	557	fun pairt t1 t2 =
neuper@37906	558	Const ("Pair", PairT (type_of t1) (type_of t2)) $ t1 $ t2;
neuper@37906	559	(*> val t = str2term "(1,2)";
neuper@37906	560	> val (t1, t2) = (str2term "1", str2term "2");
neuper@37906	561	> t = pairt t1 t2;
neuper@37906	562	val it = true : bool*)
neuper@37906	563
neuper@37906	564
neuper@37906	565	fun num_of_term (t as Free (s,_)) =
neuper@37906	566	(case int_of_str s of
neuper@37906	567	SOME s' => s'
neuper@37906	568	\| NONE => raise error ("num_of_term not for "^ term2str t))
neuper@37906	569	\| num_of_term t = raise error ("num_of_term not for "^term2str t);
neuper@37906	570
neuper@37906	571	fun mk_factroot op_(=thy.sqrt) T fact root =
neuper@37906	572	Const ("op *", [T, T] ---> T) $ (term_of_num T fact) $
neuper@37906	573	(Const (op_, T --> T) $ term_of_num T root);
neuper@37906	574	(*
neuper@37906	575	val T = (type_of o term_of o the) (parse thy "#12::real");
neuper@37906	576	val t = mk_factroot "SqRoot.sqrt" T 2 3;
neuper@37938	577	(cterm_of thy) t;
neuper@37906	578	val it = "#2 * sqrt #3 " : cterm
neuper@37906	579	*)
neuper@37906	580	fun var_op_num v op_ optype ntyp n =
neuper@37906	581	Const (op_, optype) $ v $
neuper@37906	582	Free (str_of_int n, ntyp);
neuper@37906	583
neuper@37906	584	fun num_op_var v op_ optype ntyp n =
neuper@37906	585	Const (op_,optype) $
neuper@37906	586	Free (str_of_int n, ntyp) $ v;
neuper@37906	587
neuper@37906	588	fun num_op_num T1 T2 (op_,Top) n1 n2 =
neuper@37906	589	Const (op_,Top) $
neuper@37906	590	Free (str_of_int n1, T1) $ Free (str_of_int n2, T2);
neuper@37906	591	(*
neuper@37906	592	> val t = num_op_num "Int" 3 4;
neuper@37906	593	> atomty t;
neuper@37938	594	> string_of_cterm ((cterm_of thy) t);
neuper@37906	595	*)
neuper@37906	596
neuper@37906	597	fun const_in str (Const _) = false
neuper@37906	598	\| const_in str (Free (s,_)) = if strip_thy s = str then true else false
neuper@37906	599	\| const_in str (Bound _) = false
neuper@37906	600	\| const_in str (Var _) = false
neuper@37906	601	\| const_in str (Abs (_,_,body)) = const_in str body
neuper@37906	602	\| const_in str (f$u) = const_in str f orelse const_in str u;
neuper@37906	603	(*
neuper@37906	604	> val t = (term_of o the o (parse thy)) "6 + 5 * sqrt 4 + 3";
neuper@37906	605	> const_in "sqrt" t;
neuper@37906	606	val it = true : bool
neuper@37906	607	> val t = (term_of o the o (parse thy)) "6 + 5 * 4 + 3";
neuper@37906	608	> const_in "sqrt" t;
neuper@37906	609	val it = false : bool
neuper@37906	610	*)
neuper@37906	611
neuper@37906	612	(used for calculating built in binary operations in Isabelle2002->Float.ML)
neuper@37906	613	(*fun calc "op +" (n1, n2) = n1+n2
neuper@37906	614	\| calc "op -" (n1, n2) = n1-n2
neuper@37906	615	\| calc "op " (n1, n2) = n1n2
neuper@37906	616	\| calc "HOL.divide"(n1, n2) = n1 div n2
neuper@37906	617	\| calc "Atools.pow"(n1, n2) = power n1 n2
neuper@37906	618	\| calc op_ _ = raise error ("calc: operator = "^op_^" not defined");-----*)
neuper@37906	619	fun calc_equ "op <" (n1, n2) = n1 < n2
neuper@37906	620	\| calc_equ "op <=" (n1, n2) = n1 <= n2
neuper@37906	621	\| calc_equ op_ _ =
neuper@37906	622	raise error ("calc_equ: operator = "^op_^" not defined");
neuper@37906	623	fun sqrt (n:int) = if n < 0 then 0
neuper@37906	624	(FIXME ~~~) else (trunc o Math.sqrt o Real.fromInt) n;
neuper@37906	625
neuper@37906	626	fun mk_thmid thmid op_ n1 n2 =
neuper@37906	627	thmid ^ (strip_thy n1) ^ "_" ^ (strip_thy n2);
neuper@37906	628
neuper@37906	629	fun dest_binop_typ (Type("fun",[range,Type("fun",[arg2,arg1])])) =
neuper@37906	630	(arg1,arg2,range)
neuper@37906	631	\| dest_binop_typ _ = raise error "dest_binop_typ: not binary";
neuper@37906	632	(* -----
neuper@37906	633	> val t = (term_of o the o (parse thy)) "#3^#4";
neuper@37906	634	> val hT = type_of (head_of t);
neuper@37906	635	> dest_binop_typ hT;
neuper@37906	636	val it = ("'a","nat","'a") : typ * typ * typ
neuper@37906	637	----- *)
neuper@37906	638
neuper@37906	639
neuper@37906	640	( transform binary numeralsstrings )
neuper@37906	641	(Makarius 100308, hacked by WN)
neuper@37906	642	val numbers_to_string =
neuper@37906	643	let
neuper@37906	644	fun dest_num t =
neuper@37906	645	(case try HOLogic.dest_number t of
neuper@37906	646	SOME (T, i) =>
neuper@37906	647	(if T = @{typ int} orelse T = @{typ real} then WN)
neuper@37906	648	SOME (Free (signed_string_of_int i, T))
neuper@37906	649	(else NONE WN)
neuper@37906	650	\| NONE => NONE);
neuper@37906	651
neuper@37906	652	fun to_str (Abs (x, T, b)) = Abs (x, T, to_str b)
neuper@37906	653	\| to_str (t as (u1 $ u2)) =
neuper@37906	654	(case dest_num t of
neuper@37906	655	SOME t' => t'
neuper@37906	656	\| NONE => to_str u1 $ to_str u2)
neuper@37906	657	\| to_str t = perhaps dest_num t;
neuper@37906	658	in to_str end
neuper@37906	659
neuper@37906	660	(*.make uminus uniform:
neuper@37906	661	Const ("uminus", _) $ Free ("2", "RealDef.real") --> Free ("-2", _)
neuper@37906	662	to be used immediately before evaluation of numerals;
neuper@37906	663	see Scripts/calculate.sml .*)
neuper@37906	664	(2002 fun(app_num_tr'2 (Const("0",T)) = Free("0",T)
neuper@37906	665	\| app_num_tr'2 (Const("1",T)) = Free("1",T)
neuper@37906	666	\|*)app_num_tr'2 (t as Const("uminus",_) $ Free(s,T)) =
neuper@37926	667	(case int_of_str s of SOME i =>
neuper@37906	668	if i > 0 then Free("-"^s,T) else Free(s,T)
neuper@37926	669	\| NONE => t)
neuper@37906	670	(*\| app_num_tr'2 (t as Const(s,T)) = t
neuper@37906	671	\| app_num_tr'2 (Const("Numeral.number_of",Type ("fun", [_, T])) $ t) =
neuper@37906	672	Free(NumeralSyntax.dest_bin_str t, T)
neuper@37906	673	\| app_num_tr'2 (t as Free(s,T)) = t
neuper@37906	674	\| app_num_tr'2 (t as Var(n,T)) = t
neuper@37906	675	\| app_num_tr'2 (t as Bound i) = t
neuper@37906	676	*)\| app_num_tr'2 (Abs(s,T,body)) = Abs(s,T, app_num_tr'2 body)
neuper@37906	677	\| app_num_tr'2 (t1 $ t2) = (app_num_tr'2 t1) $ (app_num_tr'2 t2)
neuper@37906	678	\| app_num_tr'2 t = t;
neuper@37906	679	*)
neuper@37906	680	val uminus_to_string =
neuper@37906	681	let
neuper@37906	682	fun dest_num t =
neuper@37906	683	(case t of
neuper@37906	684	(Const ("HOL.uminus_class.uminus", _) $ Free (s, T)) =>
neuper@37906	685	(case int_of_str s of
neuper@37906	686	SOME i =>
neuper@37906	687	SOME (Free (signed_string_of_int (~1 * i), T))
neuper@37906	688	\| NONE => NONE)
neuper@37906	689	\| _ => NONE);
neuper@37906	690
neuper@37906	691	fun to_str (Abs (x, T, b)) = Abs (x, T, to_str b)
neuper@37906	692	\| to_str (t as (u1 $ u2)) =
neuper@37906	693	(case dest_num t of
neuper@37906	694	SOME t' => t'
neuper@37906	695	\| NONE => to_str u1 $ to_str u2)
neuper@37906	696	\| to_str t = perhaps dest_num t;
neuper@37906	697	in to_str end;
neuper@37906	698
neuper@37906	699
neuper@37906	700	(*2002 fun num_str thm =
neuper@37906	701	let
neuper@37906	702	val {sign_ref = sign_ref, der = der, maxidx = maxidx,
neuper@37906	703	shyps = shyps, hyps = hyps, (tpairs = tpairs,) prop = prop} =
neuper@37906	704	rep_thm_G thm;
neuper@37906	705	val prop' = app_num_tr'1 prop;
neuper@37906	706	in assbl_thm sign_ref der maxidx shyps hyps (tpairs) prop' end;*)
neuper@37906	707	fun num_str thm =
neuper@37906	708	let val (deriv,
neuper@37906	709	{thy_ref = thy_ref, tags = tags, maxidx = maxidx, shyps = shyps,
neuper@37906	710	hyps = hyps, tpairs = tpairs, prop = prop}) = rep_thm_G thm
neuper@37906	711	val prop' = numbers_to_string prop;
neuper@37906	712	in assbl_thm deriv thy_ref tags maxidx shyps hyps tpairs prop' end;
neuper@37906	713
neuper@37906	714	fun get_thm' xstring = (*?covers 2009 Thm?!, replaces 2002 fun get_thm :
neuper@37931	715	val it = fn : theory -> xstring -> Thm.thm*)
neuper@37906	716	Thm (xstring,
neuper@37929	717	num_str (ProofContext.get_thm (thy2ctxt' "Isac") xstring));
neuper@37906	718
neuper@37906	719	( get types of Free and Abs for parse' )
neuper@37906	720	(11.1.00: not used, fix-typed +,,-,^ instead *)
neuper@37906	721
neuper@37906	722	val dummyT = Type ("dummy",[]);
neuper@37906	723	val dummyT = TVar (("DUMMY",0),[]);
neuper@37906	724
neuper@37906	725	(* assumes only 1 type for numerals
neuper@37906	726	and different identifiers for Const, Free and Abs *)
neuper@37906	727	fun get_types t =
neuper@37906	728	let
neuper@37906	729	fun get ts (Const(s,T)) = (s,T)::ts
neuper@37906	730	\| get ts (Free(s,T)) = if is_no s
neuper@37906	731	then ("#",T)::ts else (s,T)::ts
neuper@37906	732	\| get ts (Var(n,T)) = ts
neuper@37906	733	\| get ts (Bound i) = ts
neuper@37906	734	\| get ts (Abs(s,T,body)) = get ((s,T)::ts) body
neuper@37906	735	\| get ts (t1 $ t2) = (get ts t1) @ (get ts t2)
neuper@37906	736	in distinct (get [] t) end;
neuper@37906	737	(*
neuper@37906	738	val t = (term_of o the o (parse thy)) "sqrt(#9+#4*x)=sqrt x + sqrt(#-3+x)";
neuper@37906	739	get_types t;
neuper@37906	740	*)
neuper@37906	741
neuper@37906	742	(11.1.00: not used, fix-typed +,,-,^ instead *)
neuper@37906	743	fun set_types al (Const(s,T)) =
neuper@37906	744	(case assoc (al,s) of
neuper@37906	745	SOME T' => Const(s,T')
neuper@37906	746	\| NONE => (warning ("set_types: no type for "^s); Const(s,dummyT)))
neuper@37906	747	\| set_types al (Free(s,T)) =
neuper@37906	748	if is_no s then
neuper@37906	749	(case assoc (al,"#") of
neuper@37906	750	SOME T' => Free(s,T')
neuper@37906	751	\| NONE => (warning ("set_types: no type for numerals"); Free(s,T)))
neuper@37906	752	else (case assoc (al,s) of
neuper@37906	753	SOME T' => Free(s,T')
neuper@37906	754	\| NONE => (warning ("set_types: no type for "^s); Free(s,T)))
neuper@37906	755	\| set_types al (Var(n,T)) = Var(n,T)
neuper@37906	756	\| set_types al (Bound i) = Bound i
neuper@37906	757	\| set_types al (Abs(s,T,body)) =
neuper@37906	758	(case assoc (al,s) of
neuper@37906	759	SOME T' => Abs(s,T', set_types al body)
neuper@37906	760	\| NONE => (warning ("set_types: no type for "^s);
neuper@37906	761	Abs(s,T, set_types al body)))
neuper@37906	762	\| set_types al (t1 $ t2) = (set_types al t1) $ (set_types al t2);
neuper@37906	763	(*
neuper@37906	764	val t = (term_of o the o (parse thy)) "sqrt(#9+#4*x)=sqrt x + sqrt(#-3+x)";
neuper@37906	765	val al = get_types t;
neuper@37906	766
neuper@37906	767	val t = (term_of o the o (parse thy)) "x = #0 + #-1 * #-4";
neuper@37906	768	atomty t; (* 'a *)
neuper@37906	769	val t' = set_types al t;
neuper@37906	770	atomty t'; (real)
neuper@37938	771	(cterm_of thy) t';
neuper@37906	772	val it = "x = #0 + #-1 * #-4" : cterm
neuper@37906	773
neuper@37906	774	val t = (term_of o the o (parse thy))
neuper@37906	775	"#5 * x + x ^^^ #2 = (#2 + x) ^^^ #2";
neuper@37906	776	atomty t;
neuper@37906	777	val t' = set_types al t;
neuper@37906	778	atomty t';
neuper@37938	779	(cterm_of thy) t';
neuper@37906	780	uncaught exception TYPE (^^^ is new, NOT in al)
neuper@37906	781	*)
neuper@37906	782
neuper@37906	783
neuper@37906	784	( from Descript.ML )
neuper@37906	785
neuper@37906	786	(** decompose an isa-list to an ML-list
neuper@37906	787	i.e. [] belong to the meta-language, too **)
neuper@37906	788
neuper@37906	789	fun is_list ((Const("List.list.Cons",_)) $ _ $ _) = true
neuper@37906	790	\| is_list _ = false;
neuper@37906	791	(* val (SOME ct) = parse thy "lll::real list";
neuper@37906	792	> val ty = (#t o rep_cterm) ct;
neuper@37906	793	> is_list ty;
neuper@37906	794	val it = false : bool
neuper@37906	795	> val (SOME ct) = parse thy "[lll]";
neuper@37906	796	> val ty = (#t o rep_cterm) ct;
neuper@37906	797	> is_list ty;
neuper@37906	798	val it = true : bool *)
neuper@37906	799
neuper@37906	800
neuper@37906	801
neuper@37906	802	fun mk_Free (s,T) = Free(s,T);
neuper@37906	803	fun mk_free T s = Free(s,T);
neuper@37906	804
neuper@37906	805	(instantiate let; necessary for ass_up)
neuper@37906	806	fun inst_abs thy (Const sT) = Const sT
neuper@37906	807	\| inst_abs thy (Free sT) = Free sT
neuper@37906	808	\| inst_abs thy (Bound n) = Bound n
neuper@37906	809	\| inst_abs thy (Var iT) = Var iT
neuper@37906	810	\| inst_abs thy (Const ("Let",T1) $ e $ (Abs (v,T2,b))) =
neuper@37906	811	let val (v',b') = variant_abs (v,T2,b); (fun variant_abs: term.ML)
neuper@37906	812	in Const ("Let",T1) $ inst_abs thy e $ (Abs (v',T2,inst_abs thy b')) end
neuper@37906	813	\| inst_abs thy (t1 $ t2) = inst_abs thy t1 $ inst_abs thy t2
neuper@37906	814	\| inst_abs thy t =
neuper@37906	815	(writeln("inst_abs: unchanged t= "^ term2str t);
neuper@37906	816	t);
neuper@37906	817	(*val scr as (Script sc) = Script ((term_of o the o (parse thy))
neuper@37906	818	"Script Testeq (e_::bool) = \
neuper@37906	819	\While (contains_root e_) Do \
neuper@37906	820	\ (let e_ = Try (Repeat (Rewrite rroot_square_inv False e_)); \
neuper@37906	821	\ e_ = Try (Repeat (Rewrite square_equation_left True e_)) \
neuper@37906	822	\ in Try (Repeat (Rewrite radd_0 False e_))) ");
neuper@37906	823	ML> atomt sc;
neuper@37906	824	*** Const ( Script.Testeq)
neuper@37906	825	*** . Free ( e_, )
neuper@37906	826	*** . Const ( Script.While)
neuper@37906	827	*** . . Const ( RatArith.contains'_root)
neuper@37906	828	*** . . . Free ( e_, )
neuper@37906	829	*** . . Const ( Let)
neuper@37906	830	*** . . . Const ( Script.Try)
neuper@37906	831	*** . . . . Const ( Script.Repeat)
neuper@37906	832	*** . . . . . Const ( Script.Rewrite)
neuper@37906	833	*** . . . . . . Free ( rroot_square_inv, )
neuper@37906	834	*** . . . . . . Const ( False)
neuper@37906	835	*** . . . . . . Free ( e_, )
neuper@37906	836	*** . . . Abs( e_,..
neuper@37906	837	*** . . . . Const ( Let)
neuper@37906	838	*** . . . . . Const ( Script.Try)
neuper@37906	839	*** . . . . . . Const ( Script.Repeat)
neuper@37906	840	*** . . . . . . . Const ( Script.Rewrite)
neuper@37906	841	*** . . . . . . . . Free ( square_equation_left, )
neuper@37906	842	*** . . . . . . . . Const ( True)
neuper@37906	843	*** . . . . . . . . Bound 0 <-- !!!
neuper@37906	844	*** . . . . . Abs( e_,..
neuper@37906	845	*** . . . . . . Const ( Script.Try)
neuper@37906	846	*** . . . . . . . Const ( Script.Repeat)
neuper@37906	847	*** . . . . . . . . Const ( Script.Rewrite)
neuper@37906	848	*** . . . . . . . . . Free ( radd_0, )
neuper@37906	849	*** . . . . . . . . . Const ( False)
neuper@37906	850	*** . . . . . . . . . Bound 0 <-- !!!
neuper@37906	851	val it = () : unit
neuper@37906	852	ML> atomt (inst_abs thy sc);
neuper@37906	853	*** Const ( Script.Testeq)
neuper@37906	854	*** . Free ( e_, )
neuper@37906	855	*** . Const ( Script.While)
neuper@37906	856	*** . . Const ( RatArith.contains'_root)
neuper@37906	857	*** . . . Free ( e_, )
neuper@37906	858	*** . . Const ( Let)
neuper@37906	859	*** . . . Const ( Script.Try)
neuper@37906	860	*** . . . . Const ( Script.Repeat)
neuper@37906	861	*** . . . . . Const ( Script.Rewrite)
neuper@37906	862	*** . . . . . . Free ( rroot_square_inv, )
neuper@37906	863	*** . . . . . . Const ( False)
neuper@37906	864	*** . . . . . . Free ( e_, )
neuper@37906	865	*** . . . Abs( e_,..
neuper@37906	866	*** . . . . Const ( Let)
neuper@37906	867	*** . . . . . Const ( Script.Try)
neuper@37906	868	*** . . . . . . Const ( Script.Repeat)
neuper@37906	869	*** . . . . . . . Const ( Script.Rewrite)
neuper@37906	870	*** . . . . . . . . Free ( square_equation_left, )
neuper@37906	871	*** . . . . . . . . Const ( True)
neuper@37906	872	*** . . . . . . . . Free ( e_, ) <-- !!!
neuper@37906	873	*** . . . . . Abs( e_,..
neuper@37906	874	*** . . . . . . Const ( Script.Try)
neuper@37906	875	*** . . . . . . . Const ( Script.Repeat)
neuper@37906	876	*** . . . . . . . . Const ( Script.Rewrite)
neuper@37906	877	*** . . . . . . . . . Free ( radd_0, )
neuper@37906	878	*** . . . . . . . . . Const ( False)
neuper@37906	879	*** . . . . . . . . . Free ( e_, ) <-- ZUFALL vor 5.03!!!
neuper@37906	880	val it = () : unit*)
neuper@37906	881
neuper@37906	882
neuper@37906	883
neuper@37906	884
neuper@37906	885	fun inst_abs thy (Const sT) = Const sT
neuper@37906	886	\| inst_abs thy (Free sT) = Free sT
neuper@37906	887	\| inst_abs thy (Bound n) = Bound n
neuper@37906	888	\| inst_abs thy (Var iT) = Var iT
neuper@37906	889	\| inst_abs thy (Const ("Let",T1) $ e $ (Abs (v,T2,b))) =
neuper@37906	890	let val b' = subst_bound (Free(v,T2),b);
neuper@37906	891	(fun variant_abs: term.ML)
neuper@37906	892	in Const ("Let",T1) $ inst_abs thy e $ (Abs (v,T2,inst_abs thy b')) end
neuper@37906	893	\| inst_abs thy (t1 $ t2) = inst_abs thy t1 $ inst_abs thy t2
neuper@37906	894	\| inst_abs thy t =
neuper@37906	895	(writeln("inst_abs: unchanged t= "^ term2str t);
neuper@37906	896	t);
neuper@37906	897	(*val scr =
neuper@37906	898	"Script Make_fun_by_explicit (f_::real) (v_::real) (eqs_::bool list) = \
neuper@37906	899	\ (let h_ = (hd o (filterVar f_)) eqs_; \
neuper@37906	900	\ e_1 = hd (dropWhile (ident h_) eqs_); \
neuper@37906	901	\ vs_ = dropWhile (ident f_) (Vars h_); \
neuper@37906	902	\ v_1 = hd (dropWhile (ident v_) vs_); \
neuper@37906	903	\ (s_1::bool list)=(SubProblem(DiffApp_,[univar,equation],[no_met])\
neuper@37906	904	\ [bool_ e_1, real_ v_1])\
neuper@37906	905	\ in Substitute [(v_1 = (rhs o hd) s_1)] h_)";
neuper@37906	906	> val ttt = (term_of o the o (parse thy)) scr;
neuper@37906	907	> writeln(term2str ttt);
neuper@37906	908	> atomt ttt;
neuper@37906	909	*** -------------
neuper@37906	910	*** Const ( DiffApp.Make'_fun'_by'_explicit)
neuper@37906	911	*** . Free ( f_, )
neuper@37906	912	*** . Free ( v_, )
neuper@37906	913	*** . Free ( eqs_, )
neuper@37906	914	*** . Const ( Let)
neuper@37906	915	*** . . Const ( Fun.op o)
neuper@37906	916	*** . . . Const ( List.hd)
neuper@37906	917	*** . . . Const ( DiffApp.filterVar)
neuper@37906	918	*** . . . . Free ( f_, )
neuper@37906	919	*** . . . Free ( eqs_, )
neuper@37906	920	*** . . Abs( h_,..
neuper@37906	921	*** . . . Const ( Let)
neuper@37906	922	*** . . . . Const ( List.hd)
neuper@37906	923	*** . . . . . Const ( List.dropWhile)
neuper@37906	924	*** . . . . . . Const ( Atools.ident)
neuper@37906	925	*** . . . . . . . Bound 0 <---- Free ( h_, )
neuper@37906	926	*** . . . . . . Free ( eqs_, )
neuper@37906	927	*** . . . . Abs( e_1,..
neuper@37906	928	*** . . . . . Const ( Let)
neuper@37906	929	*** . . . . . . Const ( List.dropWhile)
neuper@37906	930	*** . . . . . . . Const ( Atools.ident)
neuper@37906	931	*** . . . . . . . . Free ( f_, )
neuper@37906	932	*** . . . . . . . Const ( Tools.Vars)
neuper@37906	933	*** . . . . . . . . Bound 1 <---- Free ( h_, )
neuper@37906	934	*** . . . . . . Abs( vs_,..
neuper@37906	935	*** . . . . . . . Const ( Let)
neuper@37906	936	*** . . . . . . . . Const ( List.hd)
neuper@37906	937	*** . . . . . . . . . Const ( List.dropWhile)
neuper@37906	938	*** . . . . . . . . . . Const ( Atools.ident)
neuper@37906	939	*** . . . . . . . . . . . Free ( v_, )
neuper@37906	940	*** . . . . . . . . . . Bound 0 <---- Free ( vs_, )
neuper@37906	941	*** . . . . . . . . Abs( v_1,..
neuper@37906	942	*** . . . . . . . . . Const ( Let)
neuper@37906	943	*** . . . . . . . . . . Const ( Script.SubProblem)
neuper@37906	944	*** . . . . . . . . . . . Const ( Pair)
neuper@37906	945	*** . . . . . . . . . . . . Free ( DiffApp_, )
neuper@37906	946	*** . . . . . . . . . . . . Const ( Pair)
neuper@37906	947	*** . . . . . . . . . . . . . Const ( List.list.Cons)
neuper@37906	948	*** . . . . . . . . . . . . . . Free ( univar, )
neuper@37906	949	*** . . . . . . . . . . . . . . Const ( List.list.Cons)
neuper@37906	950	*** . . . . . . . . . . . . . . . Free ( equation, )
neuper@37906	951	*** . . . . . . . . . . . . . . . Const ( List.list.Nil)
neuper@37906	952	*** . . . . . . . . . . . . . Const ( List.list.Cons)
neuper@37906	953	*** . . . . . . . . . . . . . . Free ( no_met, )
neuper@37906	954	*** . . . . . . . . . . . . . . Const ( List.list.Nil)
neuper@37906	955	*** . . . . . . . . . . . Const ( List.list.Cons)
neuper@37906	956	*** . . . . . . . . . . . . Const ( Script.bool_)
neuper@37906	957	*** . . . . . . . . . . . . . Bound 2 <----- Free ( e_1, )
neuper@37906	958	*** . . . . . . . . . . . . Const ( List.list.Cons)
neuper@37906	959	*** . . . . . . . . . . . . . Const ( Script.real_)
neuper@37906	960	*** . . . . . . . . . . . . . . Bound 0 <----- Free ( v_1, )
neuper@37906	961	*** . . . . . . . . . . . . . Const ( List.list.Nil)
neuper@37906	962	*** . . . . . . . . . . Abs( s_1,..
neuper@37906	963	*** . . . . . . . . . . . Const ( Script.Substitute)
neuper@37906	964	*** . . . . . . . . . . . . Const ( List.list.Cons)
neuper@37906	965	*** . . . . . . . . . . . . . Const ( Pair)
neuper@37906	966	*** . . . . . . . . . . . . . . Bound 1 <----- Free ( v_1, )
neuper@37906	967	*** . . . . . . . . . . . . . . Const ( Fun.op o)
neuper@37906	968	*** . . . . . . . . . . . . . . . Const ( Tools.rhs)
neuper@37906	969	*** . . . . . . . . . . . . . . . Const ( List.hd)
neuper@37906	970	*** . . . . . . . . . . . . . . . Bound 0 <----- Free ( s_1, )
neuper@37906	971	*** . . . . . . . . . . . . . Const ( List.list.Nil)
neuper@37906	972	*** . . . . . . . . . . . . Bound 4 <----- Free ( h_, )
neuper@37906	973
neuper@37906	974	> val ttt' = inst_abs thy ttt;
neuper@37906	975	> writeln(term2str ttt');
neuper@37906	976	Script Make_fun_by_explicit f_ v_ eqs_ =
neuper@37906	977	... as above ...
neuper@37906	978	> atomt ttt';
neuper@37906	979	*** -------------
neuper@37906	980	*** Const ( DiffApp.Make'_fun'_by'_explicit)
neuper@37906	981	*** . Free ( f_, )
neuper@37906	982	*** . Free ( v_, )
neuper@37906	983	*** . Free ( eqs_, )
neuper@37906	984	*** . Const ( Let)
neuper@37906	985	*** . . Const ( Fun.op o)
neuper@37906	986	*** . . . Const ( List.hd)
neuper@37906	987	*** . . . Const ( DiffApp.filterVar)
neuper@37906	988	*** . . . . Free ( f_, )
neuper@37906	989	*** . . . Free ( eqs_, )
neuper@37906	990	*** . . Abs( h_,..
neuper@37906	991	*** . . . Const ( Let)
neuper@37906	992	*** . . . . Const ( List.hd)
neuper@37906	993	*** . . . . . Const ( List.dropWhile)
neuper@37906	994	*** . . . . . . Const ( Atools.ident)
neuper@37906	995	*** . . . . . . . Free ( h_, ) <---- Bound 0
neuper@37906	996	*** . . . . . . Free ( eqs_, )
neuper@37906	997	*** . . . . Abs( e_1,..
neuper@37906	998	*** . . . . . Const ( Let)
neuper@37906	999	*** . . . . . . Const ( List.dropWhile)
neuper@37906	1000	*** . . . . . . . Const ( Atools.ident)
neuper@37906	1001	*** . . . . . . . . Free ( f_, )
neuper@37906	1002	*** . . . . . . . Const ( Tools.Vars)
neuper@37906	1003	*** . . . . . . . . Free ( h_, ) <---- Bound 1
neuper@37906	1004	*** . . . . . . Abs( vs_,..
neuper@37906	1005	*** . . . . . . . Const ( Let)
neuper@37906	1006	*** . . . . . . . . Const ( List.hd)
neuper@37906	1007	*** . . . . . . . . . Const ( List.dropWhile)
neuper@37906	1008	*** . . . . . . . . . . Const ( Atools.ident)
neuper@37906	1009	*** . . . . . . . . . . . Free ( v_, )
neuper@37906	1010	*** . . . . . . . . . . Free ( vs_, ) <---- Bound 0
neuper@37906	1011	*** . . . . . . . . Abs( v_1,..
neuper@37906	1012	*** . . . . . . . . . Const ( Let)
neuper@37906	1013	*** . . . . . . . . . . Const ( Script.SubProblem)
neuper@37906	1014	*** . . . . . . . . . . . Const ( Pair)
neuper@37906	1015	*** . . . . . . . . . . . . Free ( DiffApp_, )
neuper@37906	1016	*** . . . . . . . . . . . . Const ( Pair)
neuper@37906	1017	*** . . . . . . . . . . . . . Const ( List.list.Cons)
neuper@37906	1018	*** . . . . . . . . . . . . . . Free ( univar, )
neuper@37906	1019	*** . . . . . . . . . . . . . . Const ( List.list.Cons)
neuper@37906	1020	*** . . . . . . . . . . . . . . . Free ( equation, )
neuper@37906	1021	*** . . . . . . . . . . . . . . . Const ( List.list.Nil)
neuper@37906	1022	*** . . . . . . . . . . . . . Const ( List.list.Cons)
neuper@37906	1023	*** . . . . . . . . . . . . . . Free ( no_met, )
neuper@37906	1024	*** . . . . . . . . . . . . . . Const ( List.list.Nil)
neuper@37906	1025	*** . . . . . . . . . . . Const ( List.list.Cons)
neuper@37906	1026	*** . . . . . . . . . . . . Const ( Script.bool_)
neuper@37906	1027	*** . . . . . . . . . . . . . Free ( e_1, ) <----- Bound 2
neuper@37906	1028	*** . . . . . . . . . . . . Const ( List.list.Cons)
neuper@37906	1029	*** . . . . . . . . . . . . . Const ( Script.real_)
neuper@37906	1030	*** . . . . . . . . . . . . . . Free ( v_1, ) <----- Bound 0
neuper@37906	1031	*** . . . . . . . . . . . . . Const ( List.list.Nil)
neuper@37906	1032	*** . . . . . . . . . . Abs( s_1,..
neuper@37906	1033	*** . . . . . . . . . . . Const ( Script.Substitute)
neuper@37906	1034	*** . . . . . . . . . . . . Const ( List.list.Cons)
neuper@37906	1035	*** . . . . . . . . . . . . . Const ( Pair)
neuper@37906	1036	*** . . . . . . . . . . . . . . Free ( v_1, ) <----- Bound 1
neuper@37906	1037	*** . . . . . . . . . . . . . . Const ( Fun.op o)
neuper@37906	1038	*** . . . . . . . . . . . . . . . Const ( Tools.rhs)
neuper@37906	1039	*** . . . . . . . . . . . . . . . Const ( List.hd)
neuper@37906	1040	*** . . . . . . . . . . . . . . . Free ( s_1, ) <----- Bound 0
neuper@37906	1041	*** . . . . . . . . . . . . . Const ( List.list.Nil)
neuper@37906	1042	*** . . . . . . . . . . . . Free ( h_, ) <----- Bound 4
neuper@37906	1043
neuper@37906	1044	Note numbering of de Bruijn indexes !
neuper@37906	1045
neuper@37906	1046	Script Make_fun_by_explicit f_ v_ eqs_ =
neuper@37906	1047	let h_ = (hd o filterVar f_) eqs_;
neuper@37906	1048	e_1 = hd (dropWhile (ident h_ BOUND_0) eqs_);
neuper@37906	1049	vs_ = dropWhile (ident f_) (Vars h_ BOUND_1);
neuper@37906	1050	v_1 = hd (dropWhile (ident v_) vs_ BOUND_0);
neuper@37906	1051	s_1 =
neuper@37906	1052	SubProblem (DiffApp_, [univar, equation], [no_met])
neuper@37906	1053	[bool_ e_1 BOUND_2, real_ v_1 BOUND_0]
neuper@37906	1054	in Substitute [(v_1 BOUND_1 = (rhs o hd) s_1 BOUND_0)] h_ BOUND_4
neuper@37906	1055	*)
neuper@37906	1056
neuper@37906	1057
neuper@37906	1058	fun T_a2real (Type (s, [])) =
neuper@37906	1059	if s = "'a" orelse s = "'b" orelse s = "'c" then HOLogic.realT else Type (s, [])
neuper@37906	1060	\| T_a2real (Type (s, Ts)) = Type (s, map T_a2real Ts)
neuper@37906	1061	\| T_a2real (TFree (s, srt)) =
neuper@37906	1062	if s = "'a" orelse s = "'b" orelse s = "'c" then HOLogic.realT else TFree (s, srt)
neuper@37906	1063	\| T_a2real (TVar (("DUMMY",_),srt)) = HOLogic.realT;
neuper@37906	1064
neuper@37906	1065	(FIXME .. fixes the type (+see Typefix.thy)
neuper@37906	1066	fun typ_a2real (Const( s, T)) = (Const( s, T_a2real T))
neuper@37906	1067	\| typ_a2real (Free( s, T)) = (Free( s, T_a2real T))
neuper@37906	1068	\| typ_a2real (Var( n, T)) = (Var( n, T_a2real T))
neuper@37906	1069	\| typ_a2real (Bound i) = (Bound i)
neuper@37906	1070	\| typ_a2real (Abs(s,T,t)) = Abs(s, T, typ_a2real t)
neuper@37906	1071	\| typ_a2real (t1 $ t2) = (typ_a2real t1) $ (typ_a2real t2);
neuper@37906	1072	(*
neuper@37906	1073	----------------6.8.02---------------------------------------------------
neuper@37906	1074	val str = "1";
neuper@37906	1075	val t = read_cterm (sign_of thy) (str,(TVar(("DUMMY",0),[])));
neuper@37906	1076	atomty (term_of t);
neuper@37906	1077	*** -------------
neuper@37906	1078	*** Const ( 1, 'a)
neuper@37906	1079	val t = (app_num_tr' o term_of) t;
neuper@37906	1080	atomty t;
neuper@37906	1081	*** -------------
neuper@37906	1082	*** Const ( 1, 'a)
neuper@37906	1083	val t = typ_a2real t;
neuper@37906	1084	atomty t;
neuper@37906	1085	*** -------------
neuper@37906	1086	*** Const ( 1, real)
neuper@37906	1087
neuper@37906	1088	val str = "2";
neuper@37906	1089	val t = read_cterm (sign_of thy) (str,(TVar(("DUMMY",0),[])));
neuper@37906	1090	atomty (term_of t);
neuper@37906	1091	*** -------------
neuper@37906	1092	*** Const ( Numeral.number_of, bin => 'a)
neuper@37906	1093	*** . Const ( Numeral.bin.Bit, [bin, bool] => bin)
neuper@37906	1094	*** . . Const ( Numeral.bin.Bit, [bin, bool] => bin)
neuper@37906	1095	*** . . . Const ( Numeral.bin.Pls, bin)
neuper@37906	1096	*** . . . Const ( True, bool)
neuper@37906	1097	*** . . Const ( False, bool)
neuper@37906	1098	val t = (app_num_tr' o term_of) t;
neuper@37906	1099	atomty t;
neuper@37906	1100	*** -------------
neuper@37906	1101	*** Free ( 2, 'a)
neuper@37906	1102	val t = typ_a2real t;
neuper@37906	1103	atomty t;
neuper@37906	1104	*** -------------
neuper@37906	1105	*** Free ( 2, real)
neuper@37906	1106	----------------6.8.02---------------------------------------------------
neuper@37906	1107
neuper@37906	1108
neuper@37906	1109	> val str = "R";
neuper@37906	1110	> val t = term_of (read_cterm(sign_of thy)(str,(TVar(("DUMMY",0),[]))));
neuper@37906	1111	val t = Free ("R","?DUMMY") : term
neuper@37906	1112	> val t' = typ_a2real t;
neuper@37938	1113	> (cterm_of thy) t';
neuper@37906	1114	val it = "R::RealDef.real" : cterm
neuper@37906	1115
neuper@37906	1116	> val str = "R=R";
neuper@37906	1117	> val t = term_of (read_cterm(sign_of thy)(str,(TVar(("DUMMY",0),[]))));
neuper@37906	1118	> atomty (typ_a2real t);
neuper@37906	1119	*** -------------
neuper@37906	1120	*** Const ( op =, [RealDef.real, RealDef.real] => bool)
neuper@37906	1121	*** Free ( R, RealDef.real)
neuper@37906	1122	*** Free ( R, RealDef.real)
neuper@37906	1123	> val t' = typ_a2real t;
neuper@37938	1124	> (cterm_of thy) t';
neuper@37906	1125	val it = "(R::RealDef.real) = R" : cterm
neuper@37906	1126
neuper@37906	1127	> val str = "fixed_values [R=R]";
neuper@37906	1128	> val t = term_of (read_cterm(sign_of thy)(str,(TVar(("DUMMY",0),[]))));
neuper@37906	1129	> val t' = typ_a2real t;
neuper@37938	1130	> (cterm_of thy) t';
neuper@37906	1131	val it = "fixed_values [(R::RealDef.real) = R]" : cterm
neuper@37906	1132	*)
neuper@37906	1133
neuper@37906	1134	(*TODO.WN0609: parse should return a term or a string
neuper@37906	1135	(or even more comprehensive datastructure for error-messages)
neuper@37906	1136	i.e. in wrapping with SOME term or NONE the latter is not sufficient*)
neuper@37906	1137	(*2002 fun parseold thy str =
neuper@37906	1138	(let
neuper@37906	1139	val sgn = sign_of thy;
neuper@37906	1140	val t = ((typ_a2real o) app_num_tr'1 o term_of)
neuper@37906	1141	(read_cterm sgn (str,(TVar(("DUMMY",0),[]))));
neuper@37906	1142	in SOME (cterm_of sgn t) end)
neuper@37906	1143	handle _ => NONE;*)
neuper@37906	1144
neuper@37906	1145
neuper@37906	1146
neuper@37906	1147	fun parseold thy str =
neuper@37906	1148	(let val t = ((typ_a2real o) numbers_to_string)
neuper@37906	1149	(Syntax.read_term_global thy str)
neuper@37906	1150	in SOME (cterm_of thy t) end)
neuper@37906	1151	handle _ => NONE;
neuper@37906	1152	(*2002 fun parseN thy str =
neuper@37906	1153	(let
neuper@37906	1154	val sgn = sign_of thy;
neuper@37906	1155	val t = ((typ_a2real o app_num_tr'1 o) term_of)
neuper@37906	1156	(read_cterm sgn (str,(TVar(("DUMMY",0),[]))));
neuper@37906	1157	in SOME (cterm_of sgn t) end)
neuper@37906	1158	handle _ => NONE;*)
neuper@37906	1159	fun parseN thy str =
neuper@37906	1160	(let val t = ((typ_a2real o numbers_to_string))
neuper@37906	1161	(Syntax.read_term_global thy str)
neuper@37906	1162	in SOME (cterm_of thy t) end)
neuper@37906	1163	handle _ => NONE;
neuper@37906	1164	(*2002 fun parse thy str =
neuper@37906	1165	(let
neuper@37906	1166	val sgn = sign_of thy;
neuper@37906	1167	val t = (typ_a2real o app_num_tr'1 o term_of)
neuper@37906	1168	(read_cterm sgn (str,(TVar(("DUMMY",0),[]))));
neuper@37906	1169	in SOME (cterm_of sgn t) end) (FIXXXXME 10.8.02: return term !!!)
neuper@37906	1170	handle _ => NONE;*)
neuper@37906	1171	(*2010 fun parse thy str =
neuper@37906	1172	(let val t = (typ_a2real o app_num_tr'1) (Syntax.read_term_global thy str)
neuper@37906	1173	in SOME (cterm_of thy t) end) (FIXXXXME 10.8.02: return term !!!)
neuper@37906	1174	handle _ => NONE;*)
neuper@37906	1175	fun parse thy str =
neuper@37906	1176	(let val t = (typ_a2real o numbers_to_string)
neuper@37906	1177	(Syntax.read_term_global thy str)
neuper@37906	1178	in SOME (cterm_of thy t) end) (FIXXXXME 10.8.02: return term !!!)
neuper@37906	1179	handle _ => NONE;
neuper@37906	1180
neuper@37906	1181	(* 10.8.02: for this reason we still have ^^^--------------------
neuper@37906	1182	val thy = SqRoot.thy;
neuper@37906	1183	val str = "(1::real) ^ (2::nat)";
neuper@37906	1184	val sgn = sign_of thy;
neuper@37906	1185	val ct = (read_cterm sgn (str,(TVar(("DUMMY",0),[])))) handle e =>print_exn e;
neuper@37906	1186	(1)"(1::real) ^ 2";
neuper@37906	1187	atomty (term_of ct);
neuper@37906	1188	*** -------------
neuper@37906	1189	*** Const ( Nat.power, [real, nat] => real)
neuper@37906	1190	*** . Const ( 1, real)
neuper@37906	1191	*** . Const ( Numeral.number_of, bin => nat)
neuper@37906	1192	*** . . Const ( Numeral.bin.Bit, [bin, bool] => bin)
neuper@37906	1193	*** . . . Const ( Numeral.bin.Bit, [bin, bool] => bin)
neuper@37906	1194	*** . . . . Const ( Numeral.bin.Pls, bin)
neuper@37906	1195	*** . . . . Const ( True, bool)
neuper@37906	1196	*** . . . Const ( False, bool)
neuper@37906	1197	val t = ((app_num_tr' o term_of)
neuper@37906	1198	(read_cterm sgn (str,(TVar(("DUMMY",0),[])))))handle e => print_exn e;
neuper@37906	1199	val ct = (cterm_of sgn t) handle e => print_exn e;
neuper@37906	1200	(2)"(1::real) ^ (2::nat)";
neuper@37906	1201	atomty (term_of ct);
neuper@37906	1202	*** -------------
neuper@37906	1203	*** Const ( Nat.power, [real, nat] => real)
neuper@37906	1204	*** . Free ( 1, real)
neuper@37906	1205	*** . Free ( 2, nat) (1) Const("2",_) (2) Free("2",_)
neuper@37906	1206
neuper@37906	1207
neuper@37906	1208	val str = "(2::real) ^ (2::nat)";
neuper@37906	1209	val t = (read_cterm sgn (str,(TVar(("DUMMY",0),[])))) handle e => print_exn e;
neuper@37906	1210	val t = "(2::real) ^ 2" : cterm
neuper@37906	1211	val t = ((app_num_tr' o term_of)
neuper@37906	1212	(read_cterm sgn (str,(TVar(("DUMMY",0),[])))))handle e => print_exn e;
neuper@37906	1213	val ct = (cterm_of sgn t) handle e => print_exn e;
neuper@37906	1214	Variable "2" has two distinct types
neuper@37906	1215	real
neuper@37906	1216	nat
neuper@37906	1217	uncaught exception TYPE
neuper@37906	1218	raised at: sign.ML:672.26-673.56
neuper@37906	1219	goals.ML:1100.61
neuper@37906	1220
neuper@37906	1221
neuper@37906	1222	val str = "(3::real) ^ (2::nat)";
neuper@37906	1223	val t = (read_cterm sgn (str,(TVar(("DUMMY",0),[])))) handle e => print_exn e;
neuper@37906	1224	val t = "(3::real) ^ 2" : cterm
neuper@37906	1225	val t = ((app_num_tr' o term_of)
neuper@37906	1226	(read_cterm sgn (str,(TVar(("DUMMY",0),[])))))handle e => print_exn e;
neuper@37906	1227	val ct = (cterm_of sgn t) handle e => print_exn e;
neuper@37906	1228	val ct = "(3::real) ^ (2::nat)" : cterm
neuper@37906	1229
neuper@37906	1230
neuper@37906	1231	Conclusion: The type inference allows different types
neuper@37906	1232	for one and the same Numeral.number_of
neuper@37906	1233	BUT the type inference doesn't allow
neuper@37906	1234	Free ( 2, real) and Free ( 2, nat) within one term
neuper@37906	1235	--------------- ~~~~ ~~~ *)
neuper@37906	1236	(*
neuper@37906	1237	> val (SOME ct) = parse thy "(-#5)^^^#3";
neuper@37906	1238	> atomty (term_of ct);
neuper@37906	1239	*** -------------
neuper@37906	1240	*** Const ( Nat.op ^, ['a, nat] => 'a)
neuper@37906	1241	*** Const ( uminus, 'a => 'a)
neuper@37906	1242	*** Free ( #5, 'a)
neuper@37906	1243	*** Free ( #3, nat)
neuper@37906	1244	> val (SOME ct) = parse thy "R=R";
neuper@37906	1245	> atomty (term_of ct);
neuper@37906	1246	*** -------------
neuper@37906	1247	*** Const ( op =, [real, real] => bool)
neuper@37906	1248	*** Free ( R, real)
neuper@37906	1249	*** Free ( R, real)
neuper@37906	1250
neuper@37906	1251	THIS IS THE OUTPUT FOR VERSION (3) above at typ_a2real !!!!!
neuper@37906	1252	*** -------------
neuper@37906	1253	*** Const ( op =, [RealDef.real, RealDef.real] => bool)
neuper@37906	1254	*** Free ( R, RealDef.real)
neuper@37906	1255	*** Free ( R, RealDef.real) *)
neuper@37906	1256
neuper@37906	1257	(version for testing local to theories)
neuper@37924	1258	fun str2term_ thy str = (term_of o the o (parse thy)) str;
neuper@37924	1259	fun str2term str = (term_of o the o (parse (theory "Isac"))) str;
neuper@37906	1260	fun strs2terms ss = map str2term ss;
neuper@37924	1261	fun str2termN str = (term_of o the o (parseN (theory "Isac"))) str;
neuper@37906	1262
neuper@37906	1263	(+ makes a substitution from the output of Pattern.match +)
neuper@37906	1264	(fun mk_subs ((id, _):indexname, t:term) = (Free (id,type_of t), t);)
neuper@37906	1265	fun mk_subs (subs: ((string * int) * (Term.typ * Term.term)) list) =
neuper@37906	1266	let fun mk_sub ((id, _), (ty, tm)) = (Free (id, ty), tm) in
neuper@37906	1267	map mk_sub subs end;
neuper@37906	1268
neuper@37906	1269	val atomthm = atomt o #prop o rep_thm;
neuper@37906	1270
neuper@37906	1271	(.instantiate #prop thm with bound variables (as Free).)
neuper@37906	1272	fun inst_bdv [] t = t : term
neuper@37906	1273	\| inst_bdv (instl: (term*term) list) t =
neuper@37906	1274	let fun subst (v as Var((s,_),T)) =
neuper@37906	1275	(case explode s of
neuper@37906	1276	"b"::"d"::"v"::_ =>
neuper@37906	1277	if_none (assoc(instl,Free(s,T))) (Free(s,T))
neuper@37906	1278	\| _ => v)
neuper@37906	1279	\| subst (Abs(a,T,body)) = Abs(a, T, subst body)
neuper@37906	1280	\| subst (f$t') = subst f $ subst t'
neuper@37906	1281	\| subst t = if_none (assoc(instl,t)) t
neuper@37906	1282	in subst t end;
neuper@37906	1283
neuper@37906	1284
neuper@37906	1285	(WN050829 caution: is_atom (str2term"q_0/2 L * x") = true !!!
neuper@37906	1286	use length (vars term) = 1 instead*)
neuper@37906	1287	fun is_atom (Const ("Float.Float",_) $ _) = true
neuper@37906	1288	\| is_atom (Const ("ComplexI.I'_'_",_)) = true
neuper@37906	1289	\| is_atom (Const ("op *",_) $ t $ Const ("ComplexI.I'_'_",_)) = is_atom t
neuper@37906	1290	\| is_atom (Const ("op +",_) $ t1 $ Const ("ComplexI.I'_'_",_)) = is_atom t1
neuper@37906	1291	\| is_atom (Const ("op +",_) $ t1 $
neuper@37906	1292	(Const ("op *",_) $ t2 $ Const ("ComplexI.I'_'_",_))) =
neuper@37906	1293	is_atom t1 andalso is_atom t2
neuper@37906	1294	\| is_atom (Const _) = true
neuper@37906	1295	\| is_atom (Free _) = true
neuper@37906	1296	\| is_atom (Var _) = true
neuper@37906	1297	\| is_atom _ = false;
neuper@37906	1298	(* val t = str2term "q_0/2 * L * x";
neuper@37906	1299
neuper@37906	1300
neuper@37906	1301	*)
neuper@37906	1302	(*val t = str2term "Float ((1,2),(0,0))";
neuper@37906	1303	> is_atom t;
neuper@37906	1304	val it = true : bool
neuper@37906	1305	> val t = str2term "Float ((1,2),(0,0)) * I__";
neuper@37906	1306	> is_atom t;
neuper@37906	1307	val it = true : bool
neuper@37906	1308	> val t = str2term "Float ((1,2),(0,0)) + Float ((3,4),(0,0)) * I__";
neuper@37906	1309	> is_atom t;
neuper@37906	1310	val it = true : bool
neuper@37906	1311	> val t = str2term "1 + 2*I__";
neuper@37906	1312	> val Const ("op +",_) $ t1 $ (Const ("op *",_) $ t2 $ Const ("ComplexI.I'_'_",_)) = t;
neuper@37906	1313	*)
neuper@37906	1314
neuper@37906	1315	(*.adaption from Isabelle/src/Pure/term.ML; reports if ALL Free's
neuper@37906	1316	have found a substitution (required for evaluating the preconditions
neuper@37906	1317	of _incomplete_ models).*)
neuper@37906	1318	fun subst_atomic_all [] t = (false, (TODO may be 'true' for some terms ?)
neuper@37906	1319	t : term)
neuper@37906	1320	\| subst_atomic_all (instl: (term*term) list) t =
neuper@37906	1321	let fun subst (Abs(a,T,body)) =
neuper@37906	1322	let val (all, body') = subst body
neuper@37906	1323	in (all, Abs(a, T, body')) end
neuper@37906	1324	\| subst (f$tt) =
neuper@37906	1325	let val (all1, f') = subst f
neuper@37906	1326	val (all2, tt') = subst tt
neuper@37906	1327	in (all1 andalso all2, f' $ tt') end
neuper@37906	1328	\| subst (t as Free _) =
neuper@37906	1329	if is_num t then (true, t) (numerals cannot be subst)
neuper@37906	1330	else (case assoc(instl,t) of
neuper@37906	1331	SOME t' => (true, t')
neuper@37906	1332	\| NONE => (false, t))
neuper@37906	1333	\| subst t = (true, if_none (assoc(instl,t)) t)
neuper@37906	1334	in subst t end;
neuper@37906	1335
neuper@37906	1336	(.add two terms with a type given.)
neuper@37906	1337	fun mk_add t1 t2 =
neuper@37906	1338	let val T1 = type_of t1
neuper@37906	1339	val T2 = type_of t2
neuper@37906	1340	in if T1 <> T2 then raise TYPE ("mk_add gets ",[T1, T2],[t1,t2])
neuper@37906	1341	else (Const ("op +", [T1, T2] ---> T1) $ t1 $ t2)
neuper@37906	1342	end;
neuper@37906	1343

author	Walther Neuper <neuper@ist.tugraz.at>
	Wed, 25 Aug 2010 16:20:07 +0200
branch	isac-update-Isa09-2
changeset 37947	22235e4dbe5f
parent 37938	src/Tools/isac/Scripts/term_G.sml@f6164be9280d
child 37976	98868effcfc8
permissions	-rw-r--r--