isabelle: src/Pure/library.ML@a6b56d03ed0d (annotated)

41 97aae241094b added cons, rcons, last_elem, sort_strings, take_suffix; wenzelm parents: 24 diff changeset	1	(* Title: Pure/library.ML
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	2	ID: $Id$
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	3	Author: Lawrence C Paulson, Cambridge University Computer Laboratory
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	4	Copyright 1992 University of Cambridge
a5a9c433f639 Initial revision clasohm parents: diff changeset	5
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	6	Basic library: functions, options, pairs, booleans, lists, integers,
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	7	strings, lists as sets, association lists, generic tables, balanced trees,
2506 965127966331 added datatype order; wenzelm parents: 2471 diff changeset	8	orders, input / output, timing, filenames, misc functions.
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	9	*)
a5a9c433f639 Initial revision clasohm parents: diff changeset	10
1576 af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	11	infix \|> ~~ \ \\ orelf ins ins_string ins_int orf andf prefix upto downto
2175 21fde76bc742 Updated syntax; shortened comments; put in monomorphic versions of ins paulson parents: 2157 diff changeset	12	mem mem_int mem_string union union_int union_string
21fde76bc742 Updated syntax; shortened comments; put in monomorphic versions of ins paulson parents: 2157 diff changeset	13	inter inter_int inter_string subset subset_int subset_string subdir_of;
1364 8ea1a962ad72 files now define a structure to allow SML/NJ to optimize the code clasohm parents: 1290 diff changeset	14
8ea1a962ad72 files now define a structure to allow SML/NJ to optimize the code clasohm parents: 1290 diff changeset	15
8ea1a962ad72 files now define a structure to allow SML/NJ to optimize the code clasohm parents: 1290 diff changeset	16	structure Library =
8ea1a962ad72 files now define a structure to allow SML/NJ to optimize the code clasohm parents: 1290 diff changeset	17	struct
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	18
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	19	( functions )
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	20
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	21	(handy combinators)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	22	fun curry f x y = f (x, y);
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	23	fun uncurry f (x, y) = f x y;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	24	fun I x = x;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	25	fun K x y = x;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	26
380 daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	27	(reverse apply)
410 c8171ee32744 replaced infix also by \|> wenzelm parents: 380 diff changeset	28	fun (x \|> f) = f x;
380 daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	29
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	30	(combine two functions forming the union of their domains)
2175 21fde76bc742 Updated syntax; shortened comments; put in monomorphic versions of ins paulson parents: 2157 diff changeset	31	fun (f orelf g) = fn x => f x handle Match => g x;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	32
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	33	(application of (infix) operator to its left or right argument)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	34	fun apl (x, f) y = f (x, y);
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	35	fun apr (f, y) x = f (x, y);
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	36
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	37	(functional for pairs)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	38	fun pairself f (x, y) = (f x, f y);
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	39
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	40	(function exponentiation: f(...(f x)...) with n applications of f)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	41	fun funpow n f x =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	42	let fun rep (0, x) = x
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	43	\| rep (n, x) = rep (n - 1, f x)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	44	in rep (n, x) end;
160 80ccb6c354ba added equal, not_equal: ''a -> ''a -> bool wenzelm parents: 41 diff changeset	45
80ccb6c354ba added equal, not_equal: ''a -> ''a -> bool wenzelm parents: 41 diff changeset	46
80ccb6c354ba added equal, not_equal: ''a -> ''a -> bool wenzelm parents: 41 diff changeset	47
2471 09634c9cbf3c added stamp util; wenzelm parents: 2403 diff changeset	48	( stamps )
09634c9cbf3c added stamp util; wenzelm parents: 2403 diff changeset	49
09634c9cbf3c added stamp util; wenzelm parents: 2403 diff changeset	50	type stamp = unit ref;
09634c9cbf3c added stamp util; wenzelm parents: 2403 diff changeset	51	val stamp: unit -> stamp = ref;
09634c9cbf3c added stamp util; wenzelm parents: 2403 diff changeset	52
09634c9cbf3c added stamp util; wenzelm parents: 2403 diff changeset	53
09634c9cbf3c added stamp util; wenzelm parents: 2403 diff changeset	54
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	55	( options )
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	56
a5a9c433f639 Initial revision clasohm parents: diff changeset	57	datatype 'a option = None \| Some of 'a;
a5a9c433f639 Initial revision clasohm parents: diff changeset	58
a5a9c433f639 Initial revision clasohm parents: diff changeset	59	exception OPTION of string;
a5a9c433f639 Initial revision clasohm parents: diff changeset	60
a5a9c433f639 Initial revision clasohm parents: diff changeset	61	fun the (Some x) = x
a5a9c433f639 Initial revision clasohm parents: diff changeset	62	\| the None = raise OPTION "the";
a5a9c433f639 Initial revision clasohm parents: diff changeset	63
255 ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	64	fun if_none None y = y
ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	65	\| if_none (Some x) _ = x;
ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	66
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	67	fun is_some (Some _) = true
a5a9c433f639 Initial revision clasohm parents: diff changeset	68	\| is_some None = false;
a5a9c433f639 Initial revision clasohm parents: diff changeset	69
a5a9c433f639 Initial revision clasohm parents: diff changeset	70	fun is_none (Some _) = false
a5a9c433f639 Initial revision clasohm parents: diff changeset	71	\| is_none None = true;
a5a9c433f639 Initial revision clasohm parents: diff changeset	72
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	73	fun apsome f (Some x) = Some (f x)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	74	\| apsome _ None = None;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	75
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	76
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	77
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	78	( pairs )
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	79
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	80	fun pair x y = (x, y);
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	81	fun rpair x y = (y, x);
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	82
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	83	fun fst (x, y) = x;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	84	fun snd (x, y) = y;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	85
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	86	fun eq_fst ((x1, _), (x2, _)) = x1 = x2;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	87	fun eq_snd ((_, y1), (_, y2)) = y1 = y2;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	88
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	89	fun swap (x, y) = (y, x);
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	90
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	91	(apply the function to a component of a pair)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	92	fun apfst f (x, y) = (f x, y);
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	93	fun apsnd f (x, y) = (x, f y);
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	94
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	95
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	96
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	97	( booleans )
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	98
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	99	(* equality *)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	100
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	101	fun equal x y = x = y;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	102	fun not_equal x y = x <> y;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	103
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	104
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	105	(* operators for combining predicates *)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	106
2175 21fde76bc742 Updated syntax; shortened comments; put in monomorphic versions of ins paulson parents: 2157 diff changeset	107	fun (p orf q) = fn x => p x orelse q x;
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	108
2175 21fde76bc742 Updated syntax; shortened comments; put in monomorphic versions of ins paulson parents: 2157 diff changeset	109	fun (p andf q) = fn x => p x andalso q x;
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	110
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	111	fun notf p x = not (p x);
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	112
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	113
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	114	(* predicates on lists *)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	115
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	116	fun orl [] = false
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	117	\| orl (x :: xs) = x orelse orl xs;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	118
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	119	fun andl [] = true
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	120	\| andl (x :: xs) = x andalso andl xs;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	121
2271 7c4744ed8fc3 Declares List_ as a synonym for List paulson parents: 2243 diff changeset	122	(*Needed because several object-logics declare the theory, therefore structure,
7c4744ed8fc3 Declares List_ as a synonym for List paulson parents: 2243 diff changeset	123	List.*)
7c4744ed8fc3 Declares List_ as a synonym for List paulson parents: 2243 diff changeset	124	structure List_ = List;
7c4744ed8fc3 Declares List_ as a synonym for List paulson parents: 2243 diff changeset	125
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	126	(exists pred [x1, ..., xn] ===> pred x1 orelse ... orelse pred xn)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	127	fun exists (pred: 'a -> bool) : 'a list -> bool =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	128	let fun boolf [] = false
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	129	\| boolf (x :: xs) = pred x orelse boolf xs
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	130	in boolf end;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	131
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	132	(forall pred [x1, ..., xn] ===> pred x1 andalso ... andalso pred xn)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	133	fun forall (pred: 'a -> bool) : 'a list -> bool =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	134	let fun boolf [] = true
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	135	\| boolf (x :: xs) = pred x andalso boolf xs
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	136	in boolf end;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	137
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	138
380 daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	139	(* flags *)
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	140
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	141	fun set flag = (flag := true; true);
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	142	fun reset flag = (flag := false; false);
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	143	fun toggle flag = (flag := not (! flag); ! flag);
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	144
2958 7837471d2f27 improved inc, dec; wenzelm parents: 2806 diff changeset	145	fun set_ap flag value f x =
7837471d2f27 improved inc, dec; wenzelm parents: 2806 diff changeset	146	let
7837471d2f27 improved inc, dec; wenzelm parents: 2806 diff changeset	147	val orig_value = ! flag;
7837471d2f27 improved inc, dec; wenzelm parents: 2806 diff changeset	148	fun return y = (flag := orig_value; y);
7837471d2f27 improved inc, dec; wenzelm parents: 2806 diff changeset	149	in
7837471d2f27 improved inc, dec; wenzelm parents: 2806 diff changeset	150	flag := value;
7837471d2f27 improved inc, dec; wenzelm parents: 2806 diff changeset	151	return (f x handle exn => (return (); raise exn))
7837471d2f27 improved inc, dec; wenzelm parents: 2806 diff changeset	152	end;
7837471d2f27 improved inc, dec; wenzelm parents: 2806 diff changeset	153
380 daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	154
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	155
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	156	( lists )
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	157
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	158	exception LIST of string;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	159
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	160	fun null [] = true
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	161	\| null (_ :: _) = false;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	162
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	163	fun hd [] = raise LIST "hd"
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	164	\| hd (x :: _) = x;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	165
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	166	fun tl [] = raise LIST "tl"
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	167	\| tl (_ :: xs) = xs;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	168
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	169	fun cons x xs = x :: xs;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	170
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	171
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	172	(* fold *)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	173
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	174	(the following versions of fold are designed to fit nicely with infixes)
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	175
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	176	(* (op @) (e, [x1, ..., xn]) ===> ((e @ x1) @ x2) ... @ xn
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	177	for operators that associate to the left (TAIL RECURSIVE)*)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	178	fun foldl (f: 'a * 'b -> 'a) : 'a * 'b list -> 'a =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	179	let fun itl (e, []) = e
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	180	\| itl (e, a::l) = itl (f(e, a), l)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	181	in itl end;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	182
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	183	(* (op @) ([x1, ..., xn], e) ===> x1 @ (x2 ... @ (xn @ e))
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	184	for operators that associate to the right (not tail recursive)*)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	185	fun foldr f (l, e) =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	186	let fun itr [] = e
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	187	\| itr (a::l) = f(a, itr l)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	188	in itr l end;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	189
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	190	(* (op @) [x1, ..., xn] ===> x1 @ (x2 ... @ (x[n-1] @ xn))
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	191	for n > 0, operators that associate to the right (not tail recursive)*)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	192	fun foldr1 f l =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	193	let fun itr [x] = x (* FIXME [] case: elim warn (?) *)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	194	\| itr (x::l) = f(x, itr l)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	195	in itr l end;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	196
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	197
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	198	(* basic list functions *)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	199
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	200	(length of a list, should unquestionably be a standard function)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	201	local fun length1 (n, []) = n (TAIL RECURSIVE)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	202	\| length1 (n, x :: xs) = length1 (n + 1, xs)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	203	in fun length l = length1 (0, l) end;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	204
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	205	(take the first n elements from a list)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	206	fun take (n, []) = []
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	207	\| take (n, x :: xs) =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	208	if n > 0 then x :: take (n - 1, xs) else [];
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	209
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	210	(drop the first n elements from a list)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	211	fun drop (n, []) = []
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	212	\| drop (n, x :: xs) =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	213	if n > 0 then drop (n - 1, xs) else x :: xs;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	214
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	215	(*return nth element of a list, where 0 designates the first element;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	216	raise EXCEPTION if list too short*)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	217	fun nth_elem NL =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	218	(case drop NL of
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	219	[] => raise LIST "nth_elem"
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	220	\| x :: _ => x);
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	221
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	222	(last element of a list)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	223	fun last_elem [] = raise LIST "last_elem"
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	224	\| last_elem [x] = x
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	225	\| last_elem (_ :: xs) = last_elem xs;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	226
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	227	(find the position of an element in a list)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	228	fun find (x, ys) =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	229	let fun f (y :: ys, i) = if x = y then i else f (ys, i + 1)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	230	\| f (_, _) = raise LIST "find"
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	231	in f (ys, 0) end;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	232
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	233	(flatten a list of lists to a list)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	234	fun flat (ls: 'c list list) : 'c list = foldr (op @) (ls, []);
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	235
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	236
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	237	(*like Lisp's MAPC -- seq proc [x1, ..., xn] evaluates
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	238	(proc x1; ...; proc xn) for side effects*)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	239	fun seq (proc: 'a -> unit) : 'a list -> unit =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	240	let fun seqf [] = ()
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	241	\| seqf (x :: xs) = (proc x; seqf xs)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	242	in seqf end;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	243
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	244
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	245	(separate s [x1, x2, ..., xn] ===> [x1, s, x2, s, ..., s, xn])
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	246	fun separate s (x :: (xs as _ :: _)) = x :: s :: separate s xs
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	247	\| separate _ xs = xs;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	248
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	249	(make the list [x, x, ..., x] of length n)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	250	fun replicate n (x: 'a) : 'a list =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	251	let fun rep (0, xs) = xs
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	252	\| rep (n, xs) = rep (n - 1, x :: xs)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	253	in
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	254	if n < 0 then raise LIST "replicate"
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	255	else rep (n, [])
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	256	end;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	257
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	258
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	259	(* filter *)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	260
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	261	(copy the list preserving elements that satisfy the predicate)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	262	fun filter (pred: 'a->bool) : 'a list -> 'a list =
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	263	let fun filt [] = []
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	264	\| filt (x :: xs) = if pred x then x :: filt xs else filt xs
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	265	in filt end;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	266
a5a9c433f639 Initial revision clasohm parents: diff changeset	267	fun filter_out f = filter (not o f);
a5a9c433f639 Initial revision clasohm parents: diff changeset	268
a5a9c433f639 Initial revision clasohm parents: diff changeset	269
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	270	fun mapfilter (f: 'a -> 'b option) ([]: 'a list) = [] : 'b list
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	271	\| mapfilter f (x :: xs) =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	272	(case f x of
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	273	None => mapfilter f xs
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	274	\| Some y => y :: mapfilter f xs);
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	275
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	276
380 daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	277	fun find_first _ [] = None
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	278	\| find_first pred (x :: xs) =
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	279	if pred x then Some x else find_first pred xs;
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	280
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	281
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	282	(* lists of pairs *)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	283
380 daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	284	fun map2 _ ([], []) = []
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	285	\| map2 f (x :: xs, y :: ys) = (f (x, y) :: map2 f (xs, ys))
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	286	\| map2 _ _ = raise LIST "map2";
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	287
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	288	fun exists2 _ ([], []) = false
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	289	\| exists2 pred (x :: xs, y :: ys) = pred (x, y) orelse exists2 pred (xs, ys)
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	290	\| exists2 _ _ = raise LIST "exists2";
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	291
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	292	fun forall2 _ ([], []) = true
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	293	\| forall2 pred (x :: xs, y :: ys) = pred (x, y) andalso forall2 pred (xs, ys)
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	294	\| forall2 _ _ = raise LIST "forall2";
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	295
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	296	(*combine two lists forming a list of pairs:
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	297	[x1, ..., xn] ~~ [y1, ..., yn] ===> [(x1, y1), ..., (xn, yn)]*)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	298	fun [] ~~ [] = []
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	299	\| (x :: xs) ~~ (y :: ys) = (x, y) :: (xs ~~ ys)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	300	\| _ ~~ _ = raise LIST "~~";
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	301
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	302
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	303	(*inverse of ~~; the old 'split':
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	304	[(x1, y1), ..., (xn, yn)] ===> ([x1, ..., xn], [y1, ..., yn])*)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	305	fun split_list (l: ('a * 'b) list) = (map #1 l, map #2 l);
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	306
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	307
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	308	(* prefixes, suffixes *)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	309
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	310	fun [] prefix _ = true
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	311	\| (x :: xs) prefix (y :: ys) = x = y andalso (xs prefix ys)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	312	\| _ prefix _ = false;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	313
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	314	(* [x1, ..., xi, ..., xn] ---> ([x1, ..., x(i-1)], [xi, ..., xn])
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	315	where xi is the first element that does not satisfy the predicate*)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	316	fun take_prefix (pred : 'a -> bool) (xs: 'a list) : 'a list * 'a list =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	317	let fun take (rxs, []) = (rev rxs, [])
255 ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	318	\| take (rxs, x :: xs) =
ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	319	if pred x then take(x :: rxs, xs) else (rev rxs, x :: xs)
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	320	in take([], xs) end;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	321
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	322	(* [x1, ..., xi, ..., xn] ---> ([x1, ..., xi], [x(i+1), ..., xn])
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	323	where xi is the last element that does not satisfy the predicate*)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	324	fun take_suffix _ [] = ([], [])
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	325	\| take_suffix pred (x :: xs) =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	326	(case take_suffix pred xs of
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	327	([], sffx) => if pred x then ([], x :: sffx) else ([x], sffx)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	328	\| (prfx, sffx) => (x :: prfx, sffx));
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	329
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	330
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	331
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	332	( integers )
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	333
2958 7837471d2f27 improved inc, dec; wenzelm parents: 2806 diff changeset	334	fun inc i = (i := ! i + 1; ! i);
7837471d2f27 improved inc, dec; wenzelm parents: 2806 diff changeset	335	fun dec i = (i := ! i - 1; ! i);
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	336
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	337
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	338	(* lists of integers *)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	339
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	340	(make the list [from, from + 1, ..., to])
2175 21fde76bc742 Updated syntax; shortened comments; put in monomorphic versions of ins paulson parents: 2157 diff changeset	341	fun (from upto to) =
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	342	if from > to then [] else from :: ((from + 1) upto to);
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	343
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	344	(make the list [from, from - 1, ..., to])
2175 21fde76bc742 Updated syntax; shortened comments; put in monomorphic versions of ins paulson parents: 2157 diff changeset	345	fun (from downto to) =
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	346	if from < to then [] else from :: ((from - 1) downto to);
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	347
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	348	(predicate: downto0 (is, n) <=> is = [n, n - 1, ..., 0])
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	349	fun downto0 (i :: is, n) = i = n andalso downto0 (is, n - 1)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	350	\| downto0 ([], n) = n = ~1;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	351
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	352
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	353	(* convert integers to strings *)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	354
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	355	(*expand the number in the given base;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	356	example: radixpand (2, 8) gives [1, 0, 0, 0]*)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	357	fun radixpand (base, num) : int list =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	358	let
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	359	fun radix (n, tail) =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	360	if n < base then n :: tail
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	361	else radix (n div base, (n mod base) :: tail)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	362	in radix (num, []) end;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	363
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	364	(*expands a number into a string of characters starting from "zerochar";
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	365	example: radixstring (2, "0", 8) gives "1000"*)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	366	fun radixstring (base, zerochar, num) =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	367	let val offset = ord zerochar;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	368	fun chrof n = chr (offset + n)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	369	in implode (map chrof (radixpand (base, num))) end;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	370
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	371
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	372	fun string_of_int n =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	373	if n < 0 then "~" ^ radixstring (10, "0", ~n) else radixstring (10, "0", n);
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	374
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	375
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	376
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	377	( strings )
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	378
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	379	fun is_letter ch =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	380	ord "A" <= ord ch andalso ord ch <= ord "Z" orelse
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	381	ord "a" <= ord ch andalso ord ch <= ord "z";
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	382
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	383	fun is_digit ch =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	384	ord "0" <= ord ch andalso ord ch <= ord "9";
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	385
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	386	(letter or _ or prime ('))
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	387	fun is_quasi_letter "_" = true
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	388	\| is_quasi_letter "'" = true
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	389	\| is_quasi_letter ch = is_letter ch;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	390
512 55755ed9fab9 Pure/library/enclose, Pure/Syntax/pretty/enclose: renamed from parents lcp parents: 410 diff changeset	391	(white space: blanks, tabs, newlines, formfeeds)
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	392	val is_blank : string -> bool =
512 55755ed9fab9 Pure/library/enclose, Pure/Syntax/pretty/enclose: renamed from parents lcp parents: 410 diff changeset	393	fn " " => true \| "\t" => true \| "\n" => true \| "\^L" => true \| _ => false;
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	394
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	395	val is_letdig = is_quasi_letter orf is_digit;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	396
2196 1b36ebc70487 added is_printable: string -> bool; wenzelm parents: 2182 diff changeset	397	(printable chars)
1b36ebc70487 added is_printable: string -> bool; wenzelm parents: 2182 diff changeset	398	fun is_printable c = ord c > ord " " andalso ord c <= ord "~";
1b36ebc70487 added is_printable: string -> bool; wenzelm parents: 2182 diff changeset	399
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	400
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	401	(lower all chars of string)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	402	val to_lower =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	403	let
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	404	fun lower ch =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	405	if ch >= "A" andalso ch <= "Z" then
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	406	chr (ord ch - ord "A" + ord "a")
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	407	else ch;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	408	in implode o (map lower) o explode end;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	409
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	410
512 55755ed9fab9 Pure/library/enclose, Pure/Syntax/pretty/enclose: renamed from parents lcp parents: 410 diff changeset	411	(enclose in brackets)
55755ed9fab9 Pure/library/enclose, Pure/Syntax/pretty/enclose: renamed from parents lcp parents: 410 diff changeset	412	fun enclose lpar rpar str = lpar ^ str ^ rpar;
255 ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	413
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	414	(simple quoting (does not escape special chars))
512 55755ed9fab9 Pure/library/enclose, Pure/Syntax/pretty/enclose: renamed from parents lcp parents: 410 diff changeset	415	val quote = enclose "\"" "\"";
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	416
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	417	(space_implode "..." (explode "hello"); gives "h...e...l...l...o")
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	418	fun space_implode a bs = implode (separate a bs);
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	419
255 ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	420	val commas = space_implode ", ";
380 daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	421	val commas_quote = commas o map quote;
255 ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	422
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	423	(concatenate messages, one per line, into a string)
255 ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	424	val cat_lines = space_implode "\n";
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	425
1290 ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	426	(space_explode "." "h.e..l.lo"; gives ["h", "e", "l", "lo"])
ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	427	fun space_explode sep s =
ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	428	let fun divide [] "" = []
ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	429	\| divide [] part = [part]
ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	430	\| divide (c::s) part =
ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	431	if c = sep then
ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	432	(if part = "" then divide s "" else part :: divide s "")
ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	433	else divide s (part ^ c)
ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	434	in divide (explode s) "" end;
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	435
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	436
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	437	( lists as sets )
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	438
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	439	(membership in a list)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	440	fun x mem [] = false
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	441	\| x mem (y :: ys) = x = y orelse x mem ys;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	442
2175 21fde76bc742 Updated syntax; shortened comments; put in monomorphic versions of ins paulson parents: 2157 diff changeset	443	(membership in a list, optimized version for ints)
1576 af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	444	fun (x:int) mem_int [] = false
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	445	\| x mem_int (y :: ys) = x = y orelse x mem_int ys;
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	446
2175 21fde76bc742 Updated syntax; shortened comments; put in monomorphic versions of ins paulson parents: 2157 diff changeset	447	(membership in a list, optimized version for strings)
1576 af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	448	fun (x:string) mem_string [] = false
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	449	\| x mem_string (y :: ys) = x = y orelse x mem_string ys;
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	450
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	451	(generalized membership test)
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	452	fun gen_mem eq (x, []) = false
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	453	\| gen_mem eq (x, y :: ys) = eq (x, y) orelse gen_mem eq (x, ys);
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	454
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	455
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	456	(insertion into list if not already there)
2175 21fde76bc742 Updated syntax; shortened comments; put in monomorphic versions of ins paulson parents: 2157 diff changeset	457	fun (x ins xs) = if x mem xs then xs else x :: xs;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	458
2175 21fde76bc742 Updated syntax; shortened comments; put in monomorphic versions of ins paulson parents: 2157 diff changeset	459	(insertion into list, optimized version for ints)
21fde76bc742 Updated syntax; shortened comments; put in monomorphic versions of ins paulson parents: 2157 diff changeset	460	fun (x ins_int xs) = if x mem_int xs then xs else x :: xs;
1576 af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	461
2175 21fde76bc742 Updated syntax; shortened comments; put in monomorphic versions of ins paulson parents: 2157 diff changeset	462	(insertion into list, optimized version for strings)
21fde76bc742 Updated syntax; shortened comments; put in monomorphic versions of ins paulson parents: 2157 diff changeset	463	fun (x ins_string xs) = if x mem_string xs then xs else x :: xs;
1576 af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	464
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	465	(generalized insertion)
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	466	fun gen_ins eq (x, xs) = if gen_mem eq (x, xs) then xs else x :: xs;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	467
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	468
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	469	(union of sets represented as lists: no repetitions)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	470	fun xs union [] = xs
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	471	\| [] union ys = ys
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	472	\| (x :: xs) union ys = xs union (x ins ys);
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	473
2175 21fde76bc742 Updated syntax; shortened comments; put in monomorphic versions of ins paulson parents: 2157 diff changeset	474	(union of sets, optimized version for ints)
1576 af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	475	fun (xs:int list) union_int [] = xs
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	476	\| [] union_int ys = ys
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	477	\| (x :: xs) union_int ys = xs union_int (x ins_int ys);
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	478
2175 21fde76bc742 Updated syntax; shortened comments; put in monomorphic versions of ins paulson parents: 2157 diff changeset	479	(union of sets, optimized version for strings)
1576 af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	480	fun (xs:string list) union_string [] = xs
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	481	\| [] union_string ys = ys
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	482	\| (x :: xs) union_string ys = xs union_string (x ins_string ys);
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	483
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	484	(generalized union)
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	485	fun gen_union eq (xs, []) = xs
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	486	\| gen_union eq ([], ys) = ys
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	487	\| gen_union eq (x :: xs, ys) = gen_union eq (xs, gen_ins eq (x, ys));
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	488
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	489
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	490	(intersection)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	491	fun [] inter ys = []
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	492	\| (x :: xs) inter ys =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	493	if x mem ys then x :: (xs inter ys) else xs inter ys;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	494
2175 21fde76bc742 Updated syntax; shortened comments; put in monomorphic versions of ins paulson parents: 2157 diff changeset	495	(intersection, optimized version for ints)
1576 af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	496	fun ([]:int list) inter_int ys = []
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	497	\| (x :: xs) inter_int ys =
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	498	if x mem_int ys then x :: (xs inter_int ys) else xs inter_int ys;
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	499
2175 21fde76bc742 Updated syntax; shortened comments; put in monomorphic versions of ins paulson parents: 2157 diff changeset	500	(intersection, optimized version for strings )
1576 af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	501	fun ([]:string list) inter_string ys = []
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	502	\| (x :: xs) inter_string ys =
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	503	if x mem_string ys then x :: (xs inter_string ys) else xs inter_string ys;
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	504
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	505
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	506	(subset)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	507	fun [] subset ys = true
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	508	\| (x :: xs) subset ys = x mem ys andalso xs subset ys;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	509
2175 21fde76bc742 Updated syntax; shortened comments; put in monomorphic versions of ins paulson parents: 2157 diff changeset	510	(subset, optimized version for ints)
1576 af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	511	fun ([]:int list) subset_int ys = true
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	512	\| (x :: xs) subset_int ys = x mem_int ys andalso xs subset_int ys;
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	513
2175 21fde76bc742 Updated syntax; shortened comments; put in monomorphic versions of ins paulson parents: 2157 diff changeset	514	(subset, optimized version for strings)
1576 af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	515	fun ([]:string list) subset_string ys = true
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	516	\| (x :: xs) subset_string ys = x mem_string ys andalso xs subset_string ys;
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	517
2182 29e56f003599 Removal of polymorphic equality via mem, subset, eq_set, etc paulson parents: 2175 diff changeset	518	(set equality for strings)
1576 af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	519	fun eq_set_string ((xs:string list), ys) =
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	520	xs = ys orelse (xs subset_string ys andalso ys subset_string xs);
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	521
2182 29e56f003599 Removal of polymorphic equality via mem, subset, eq_set, etc paulson parents: 2175 diff changeset	522	fun gen_subset eq (xs, ys) = forall (fn x => gen_mem eq (x, ys)) xs;
29e56f003599 Removal of polymorphic equality via mem, subset, eq_set, etc paulson parents: 2175 diff changeset	523
265 443dc2c37583 added eq_set; wenzelm parents: 255 diff changeset	524
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	525	(removing an element from a list WITHOUT duplicates)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	526	fun (y :: ys) \ x = if x = y then ys else y :: (ys \ x)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	527	\| [] \ x = [];
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	528
2243 3ebeaaacfbd1 Eta-expanded some declarations that are illegal under value polymorphism paulson parents: 2196 diff changeset	529	fun ys \\ xs = foldl (op \) (ys,xs);
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	530
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	531	(removing an element from a list -- possibly WITH duplicates)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	532	fun gen_rem eq (xs, y) = filter_out (fn x => eq (x, y)) xs;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	533
2243 3ebeaaacfbd1 Eta-expanded some declarations that are illegal under value polymorphism paulson parents: 2196 diff changeset	534	fun gen_rems eq = foldl (gen_rem eq);
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	535
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	536
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	537	(*makes a list of the distinct members of the input; preserves order, takes
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	538	first of equal elements*)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	539	fun gen_distinct eq lst =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	540	let
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	541	val memb = gen_mem eq;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	542
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	543	fun dist (rev_seen, []) = rev rev_seen
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	544	\| dist (rev_seen, x :: xs) =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	545	if memb (x, rev_seen) then dist (rev_seen, xs)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	546	else dist (x :: rev_seen, xs);
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	547	in
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	548	dist ([], lst)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	549	end;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	550
2243 3ebeaaacfbd1 Eta-expanded some declarations that are illegal under value polymorphism paulson parents: 2196 diff changeset	551	fun distinct l = gen_distinct (op =) l;
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	552
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	553
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	554	(returns the tail beginning with the first repeated element, or [])
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	555	fun findrep [] = []
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	556	\| findrep (x :: xs) = if x mem xs then x :: xs else findrep xs;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	557
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	558
255 ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	559	(*returns a list containing all repeated elements exactly once; preserves
ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	560	order, takes first of equal elements*)
ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	561	fun gen_duplicates eq lst =
ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	562	let
ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	563	val memb = gen_mem eq;
ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	564
ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	565	fun dups (rev_dups, []) = rev rev_dups
ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	566	\| dups (rev_dups, x :: xs) =
ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	567	if memb (x, rev_dups) orelse not (memb (x, xs)) then
ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	568	dups (rev_dups, xs)
ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	569	else dups (x :: rev_dups, xs);
ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	570	in
ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	571	dups ([], lst)
ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	572	end;
ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	573
2243 3ebeaaacfbd1 Eta-expanded some declarations that are illegal under value polymorphism paulson parents: 2196 diff changeset	574	fun duplicates l = gen_duplicates (op =) l;
255 ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	575
ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	576
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	577
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	578	( association lists )
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	579
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	580	(association list lookup)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	581	fun assoc ([], key) = None
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	582	\| assoc ((keyi, xi) :: pairs, key) =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	583	if key = keyi then Some xi else assoc (pairs, key);
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	584
2175 21fde76bc742 Updated syntax; shortened comments; put in monomorphic versions of ins paulson parents: 2157 diff changeset	585	(association list lookup, optimized version for ints)
1576 af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	586	fun assoc_int ([], (key:int)) = None
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	587	\| assoc_int ((keyi, xi) :: pairs, key) =
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	588	if key = keyi then Some xi else assoc_int (pairs, key);
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	589
2175 21fde76bc742 Updated syntax; shortened comments; put in monomorphic versions of ins paulson parents: 2157 diff changeset	590	(association list lookup, optimized version for strings)
1576 af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	591	fun assoc_string ([], (key:string)) = None
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	592	\| assoc_string ((keyi, xi) :: pairs, key) =
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	593	if key = keyi then Some xi else assoc_string (pairs, key);
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	594
2175 21fde76bc742 Updated syntax; shortened comments; put in monomorphic versions of ins paulson parents: 2157 diff changeset	595	(association list lookup, optimized version for stringints*)
1576 af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	596	fun assoc_string_int ([], (key:string*int)) = None
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	597	\| assoc_string_int ((keyi, xi) :: pairs, key) =
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	598	if key = keyi then Some xi else assoc_string_int (pairs, key);
af8f43f742a0 Added some optimized versions of functions dealing with sets berghofe parents: 1460 diff changeset	599
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	600	fun assocs ps x =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	601	(case assoc (ps, x) of
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	602	None => []
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	603	\| Some ys => ys);
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	604
255 ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	605	(two-fold association list lookup)
ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	606	fun assoc2 (aal, (key1, key2)) =
ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	607	(case assoc (aal, key1) of
ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	608	Some al => assoc (al, key2)
ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	609	\| None => None);
ee132db91681 added if_none, parents, commas, gen_duplicates, duplicates, assoc2; wenzelm parents: 245 diff changeset	610
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	611	(generalized association list lookup)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	612	fun gen_assoc eq ([], key) = None
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	613	\| gen_assoc eq ((keyi, xi) :: pairs, key) =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	614	if eq (key, keyi) then Some xi else gen_assoc eq (pairs, key);
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	615
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	616	(association list update)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	617	fun overwrite (al, p as (key, _)) =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	618	let fun over ((q as (keyi, _)) :: pairs) =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	619	if keyi = key then p :: pairs else q :: (over pairs)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	620	\| over [] = [p]
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	621	in over al end;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	622
2522 a1a18530c4ac added gen_overwrite; wenzelm parents: 2506 diff changeset	623	fun gen_overwrite eq (al, p as (key, _)) =
a1a18530c4ac added gen_overwrite; wenzelm parents: 2506 diff changeset	624	let fun over ((q as (keyi, _)) :: pairs) =
a1a18530c4ac added gen_overwrite; wenzelm parents: 2506 diff changeset	625	if eq (keyi, key) then p :: pairs else q :: (over pairs)
a1a18530c4ac added gen_overwrite; wenzelm parents: 2506 diff changeset	626	\| over [] = [p]
a1a18530c4ac added gen_overwrite; wenzelm parents: 2506 diff changeset	627	in over al end;
a1a18530c4ac added gen_overwrite; wenzelm parents: 2506 diff changeset	628
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	629
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	630
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	631	( generic tables )
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	632
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	633	(*Tables are supposed to be 'efficient' encodings of lists of elements distinct
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	634	wrt. an equality "eq". The extend and merge operations below are optimized
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	635	for long-term space efficiency.*)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	636
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	637	(append (new) elements to a table)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	638	fun generic_extend _ _ _ tab [] = tab
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	639	\| generic_extend eq dest_tab mk_tab tab1 lst2 =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	640	let
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	641	val lst1 = dest_tab tab1;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	642	val new_lst2 = gen_rems eq (lst2, lst1);
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	643	in
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	644	if null new_lst2 then tab1
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	645	else mk_tab (lst1 @ new_lst2)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	646	end;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	647
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	648	(append (new) elements of 2nd table to 1st table)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	649	fun generic_merge eq dest_tab mk_tab tab1 tab2 =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	650	let
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	651	val lst1 = dest_tab tab1;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	652	val lst2 = dest_tab tab2;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	653	val new_lst2 = gen_rems eq (lst2, lst1);
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	654	in
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	655	if null new_lst2 then tab1
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	656	else if gen_subset eq (lst1, lst2) then tab2
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	657	else mk_tab (lst1 @ new_lst2)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	658	end;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	659
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	660
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	661	(lists as tables)
2243 3ebeaaacfbd1 Eta-expanded some declarations that are illegal under value polymorphism paulson parents: 2196 diff changeset	662	fun extend_list tab = generic_extend (op =) I I tab;
3ebeaaacfbd1 Eta-expanded some declarations that are illegal under value polymorphism paulson parents: 2196 diff changeset	663	fun merge_lists tab = generic_merge (op =) I I tab;
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	664
380 daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	665	fun merge_rev_lists xs [] = xs
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	666	\| merge_rev_lists [] ys = ys
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	667	\| merge_rev_lists xs (y :: ys) =
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	668	(if y mem xs then I else cons y) (merge_rev_lists xs ys);
daca5b594fb3 added infix op also: 'a * ('a -> 'b) -> 'b; wenzelm parents: 265 diff changeset	669
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	670
a5a9c433f639 Initial revision clasohm parents: diff changeset	671
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	672	( balanced trees )
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	673
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	674	exception Balance; (indicates non-positive argument to balancing fun)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	675
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	676	(balanced folding; avoids deep nesting)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	677	fun fold_bal f [x] = x
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	678	\| fold_bal f [] = raise Balance
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	679	\| fold_bal f xs =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	680	let val k = length xs div 2
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	681	in f (fold_bal f (take(k, xs)),
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	682	fold_bal f (drop(k, xs)))
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	683	end;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	684
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	685	(construct something of the form f(...g(...(x)...)) for balanced access)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	686	fun access_bal (f, g, x) n i =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	687	let fun acc n i = (1<=i<=n)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	688	if n=1 then x else
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	689	let val n2 = n div 2
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	690	in if i<=n2 then f (acc n2 i)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	691	else g (acc (n-n2) (i-n2))
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	692	end
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	693	in if 1<=i andalso i<=n then acc n i else raise Balance end;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	694
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	695	(construct ALL such accesses; could try harder to share recursive calls!)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	696	fun accesses_bal (f, g, x) n =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	697	let fun acc n =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	698	if n=1 then [x] else
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	699	let val n2 = n div 2
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	700	val acc2 = acc n2
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	701	in if n-n2=n2 then map f acc2 @ map g acc2
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	702	else map f acc2 @ map g (acc (n-n2)) end
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	703	in if 1<=n then acc n else raise Balance end;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	704
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	705
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	706
2506 965127966331 added datatype order; wenzelm parents: 2471 diff changeset	707	( orders )
965127966331 added datatype order; wenzelm parents: 2471 diff changeset	708
965127966331 added datatype order; wenzelm parents: 2471 diff changeset	709	datatype order = LESS \| EQUAL \| GREATER;
965127966331 added datatype order; wenzelm parents: 2471 diff changeset	710
965127966331 added datatype order; wenzelm parents: 2471 diff changeset	711	fun intord (i, j: int) =
965127966331 added datatype order; wenzelm parents: 2471 diff changeset	712	if i < j then LESS
965127966331 added datatype order; wenzelm parents: 2471 diff changeset	713	else if i = j then EQUAL
965127966331 added datatype order; wenzelm parents: 2471 diff changeset	714	else GREATER;
965127966331 added datatype order; wenzelm parents: 2471 diff changeset	715
965127966331 added datatype order; wenzelm parents: 2471 diff changeset	716	fun stringord (a, b: string) =
965127966331 added datatype order; wenzelm parents: 2471 diff changeset	717	if a < b then LESS
965127966331 added datatype order; wenzelm parents: 2471 diff changeset	718	else if a = b then EQUAL
965127966331 added datatype order; wenzelm parents: 2471 diff changeset	719	else GREATER;
965127966331 added datatype order; wenzelm parents: 2471 diff changeset	720
965127966331 added datatype order; wenzelm parents: 2471 diff changeset	721
965127966331 added datatype order; wenzelm parents: 2471 diff changeset	722
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	723	( input / output )
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	724
2243 3ebeaaacfbd1 Eta-expanded some declarations that are illegal under value polymorphism paulson parents: 2196 diff changeset	725	val cd = OS.FileSys.chDir;
2317 672015b535d7 added pwd; wenzelm parents: 2303 diff changeset	726	val pwd = OS.FileSys.getDir;
2243 3ebeaaacfbd1 Eta-expanded some declarations that are illegal under value polymorphism paulson parents: 2196 diff changeset	727
3ebeaaacfbd1 Eta-expanded some declarations that are illegal under value polymorphism paulson parents: 2196 diff changeset	728	val prs_fn = ref(fn s => TextIO.output (TextIO.stdOut, s));
1580 e3fd931e6095 Added some functions which allow redirection of Isabelle's output berghofe parents: 1576 diff changeset	729
e3fd931e6095 Added some functions which allow redirection of Isabelle's output berghofe parents: 1576 diff changeset	730	fun prs s = !prs_fn s;
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	731	fun writeln s = prs (s ^ "\n");
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	732
2243 3ebeaaacfbd1 Eta-expanded some declarations that are illegal under value polymorphism paulson parents: 2196 diff changeset	733	(* TextIO.output to LaTeX / xdvi *)
1628 60136fdd80c4 Added functions pr_latex and printgoal_latex which berghofe parents: 1592 diff changeset	734	fun latex s =
2243 3ebeaaacfbd1 Eta-expanded some declarations that are illegal under value polymorphism paulson parents: 2196 diff changeset	735	execute ( "( cd /tmp ; echo \"" ^ s ^
3ebeaaacfbd1 Eta-expanded some declarations that are illegal under value polymorphism paulson parents: 2196 diff changeset	736	"\" \| isa2latex -s > $$.tex ; latex $$.tex ; xdvi $$.dvi ; rm $$.* ) > /dev/null &" ) ;
1628 60136fdd80c4 Added functions pr_latex and printgoal_latex which berghofe parents: 1592 diff changeset	737
1580 e3fd931e6095 Added some functions which allow redirection of Isabelle's output berghofe parents: 1576 diff changeset	738	(print warning)
2243 3ebeaaacfbd1 Eta-expanded some declarations that are illegal under value polymorphism paulson parents: 2196 diff changeset	739	val warning_fn = ref(fn s => TextIO.output (TextIO.stdOut, s ^ "\n"));
1580 e3fd931e6095 Added some functions which allow redirection of Isabelle's output berghofe parents: 1576 diff changeset	740	fun warning s = !warning_fn ("Warning: " ^ s);
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	741
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	742	(print error message and abort to top level)
1580 e3fd931e6095 Added some functions which allow redirection of Isabelle's output berghofe parents: 1576 diff changeset	743
2243 3ebeaaacfbd1 Eta-expanded some declarations that are illegal under value polymorphism paulson parents: 2196 diff changeset	744	val error_fn = ref(fn s => TextIO.output (TextIO.stdOut, s ^ "\n"));
1580 e3fd931e6095 Added some functions which allow redirection of Isabelle's output berghofe parents: 1576 diff changeset	745
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	746	exception ERROR;
1580 e3fd931e6095 Added some functions which allow redirection of Isabelle's output berghofe parents: 1576 diff changeset	747	fun error msg = (!error_fn msg; raise ERROR);
e3fd931e6095 Added some functions which allow redirection of Isabelle's output berghofe parents: 1576 diff changeset	748	fun sys_error msg = (!error_fn "* SYSTEM ERROR *"; error msg);
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	749
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	750	fun assert p msg = if p then () else error msg;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	751	fun deny p msg = if p then error msg else ();
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	752
544 c53386a5bcf1 Pure/library/assert_all: new, moved from ZF/ind_syntax.ML lcp parents: 512 diff changeset	753	(Assert pred for every member of l, generating a message if pred fails)
c53386a5bcf1 Pure/library/assert_all: new, moved from ZF/ind_syntax.ML lcp parents: 512 diff changeset	754	fun assert_all pred l msg_fn =
c53386a5bcf1 Pure/library/assert_all: new, moved from ZF/ind_syntax.ML lcp parents: 512 diff changeset	755	let fun asl [] = ()
2243 3ebeaaacfbd1 Eta-expanded some declarations that are illegal under value polymorphism paulson parents: 2196 diff changeset	756	\| asl (x::xs) = if pred x then asl xs
3ebeaaacfbd1 Eta-expanded some declarations that are illegal under value polymorphism paulson parents: 2196 diff changeset	757	else error (msg_fn x)
544 c53386a5bcf1 Pure/library/assert_all: new, moved from ZF/ind_syntax.ML lcp parents: 512 diff changeset	758	in asl l end;
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	759
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	760	(for the "test" target in Makefiles -- signifies successful termination)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	761	fun maketest msg =
1592 d89d5ff2397f maketest now closes the output file paulson parents: 1580 diff changeset	762	(writeln msg;
2243 3ebeaaacfbd1 Eta-expanded some declarations that are illegal under value polymorphism paulson parents: 2196 diff changeset	763	let val os = TextIO.openOut "test"
3ebeaaacfbd1 Eta-expanded some declarations that are illegal under value polymorphism paulson parents: 2196 diff changeset	764	in TextIO.output (os, "Test examples ran successfully\n");
3ebeaaacfbd1 Eta-expanded some declarations that are illegal under value polymorphism paulson parents: 2196 diff changeset	765	TextIO.closeOut os
1592 d89d5ff2397f maketest now closes the output file paulson parents: 1580 diff changeset	766	end);
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	767
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	768
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	769	(*print a list surrounded by the brackets lpar and rpar, with comma separator
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	770	print nothing for empty list*)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	771	fun print_list (lpar, rpar, pre: 'a -> unit) (l : 'a list) =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	772	let fun prec x = (prs ","; pre x)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	773	in
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	774	(case l of
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	775	[] => ()
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	776	\| x::l => (prs lpar; pre x; seq prec l; prs rpar))
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	777	end;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	778
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	779	(print a list of items separated by newlines)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	780	fun print_list_ln (pre: 'a -> unit) : 'a list -> unit =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	781	seq (fn x => (pre x; writeln ""));
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	782
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	783
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	784	val print_int = prs o string_of_int;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	785
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	786
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	787
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	788	( timing )
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	789
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	790	(unconditional timing function)
2243 3ebeaaacfbd1 Eta-expanded some declarations that are illegal under value polymorphism paulson parents: 2196 diff changeset	791	fun timeit x = cond_timeit true x;
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	792
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	793	(timed application function)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	794	fun timeap f x = timeit (fn () => f x);
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	795
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	796	(timed "use" function, printing filenames)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	797	fun time_use fname = timeit (fn () =>
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	798	(writeln ("\n** Starting " ^ fname ^ " **"); use fname;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	799	writeln ("\n** Finished " ^ fname ^ " **")));
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	800
955 aa0c5f9daf5b Declares the function exit_use to behave like use but fail if lcp parents: 544 diff changeset	801	(For Makefiles: use the file, but exit with error code if errors found.)
aa0c5f9daf5b Declares the function exit_use to behave like use but fail if lcp parents: 544 diff changeset	802	fun exit_use fname = use fname handle _ => exit 1;
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	803
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	804
1407 c22cc592785f added subdir_of clasohm parents: 1364 diff changeset	805	( filenames and paths )
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	806
1290 ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	807	(*Convert UNIX filename of the form "path/file" to "path/" and "file";
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	808	if filename contains no slash, then it returns "" and "file"*)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	809	val split_filename =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	810	(pairself implode) o take_suffix (not_equal "/") o explode;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	811
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	812	val base_name = #2 o split_filename;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	813
1290 ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	814	(*Merge splitted filename (path and file);
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	815	if path does not end with one a slash is appended*)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	816	fun tack_on "" name = name
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	817	\| tack_on path name =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	818	if last_elem (explode path) = "/" then path ^ name
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	819	else path ^ "/" ^ name;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	820
1290 ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	821	(Remove the extension of a filename, i.e. the part after the last '.')
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	822	val remove_ext = implode o #1 o take_suffix (not_equal ".") o explode;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	823
1290 ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	824	(Make relative path to reach an absolute location from a different one)
ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	825	fun relative_path cur_path dest_path =
ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	826	let (Remove common beginning of both paths and make relative path)
ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	827	fun mk_relative [] [] = []
ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	828	\| mk_relative [] ds = ds
ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	829	\| mk_relative cs [] = map (fn _ => "..") cs
ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	830	\| mk_relative (c::cs) (d::ds) =
ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	831	if c = d then mk_relative cs ds
ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	832	else ".." :: map (fn _ => "..") cs @ (d::ds);
ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	833	in if cur_path = "" orelse hd (explode cur_path) <> "/" orelse
ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	834	dest_path = "" orelse hd (explode dest_path) <> "/" then
ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	835	error "Relative or empty path passed to relative_path"
ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	836	else ();
ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	837	space_implode "/" (mk_relative (space_explode "/" cur_path)
ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	838	(space_explode "/" dest_path))
ee8f41456d28 added space_explode and relative_path clasohm parents: 955 diff changeset	839	end;
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	840
1407 c22cc592785f added subdir_of clasohm parents: 1364 diff changeset	841	(Determine if absolute path1 is a subdirectory of absolute path2)
c22cc592785f added subdir_of clasohm parents: 1364 diff changeset	842	fun path1 subdir_of path2 =
c22cc592785f added subdir_of clasohm parents: 1364 diff changeset	843	if hd (explode path1) <> "/" orelse hd (explode path2) <> "/" then
c22cc592785f added subdir_of clasohm parents: 1364 diff changeset	844	error "Relative or empty path passed to subdir_of"
c22cc592785f added subdir_of clasohm parents: 1364 diff changeset	845	else (space_explode "/" path2) prefix (space_explode "/" path1);
c22cc592785f added subdir_of clasohm parents: 1364 diff changeset	846
1456 2e07cd051ff9 added absolute_path clasohm parents: 1407 diff changeset	847	fun absolute_path cwd file =
2e07cd051ff9 added absolute_path clasohm parents: 1407 diff changeset	848	let fun rm_points [] result = rev result
2e07cd051ff9 added absolute_path clasohm parents: 1407 diff changeset	849	\| rm_points (".."::ds) result = rm_points ds (tl result)
2e07cd051ff9 added absolute_path clasohm parents: 1407 diff changeset	850	\| rm_points ("."::ds) result = rm_points ds result
2e07cd051ff9 added absolute_path clasohm parents: 1407 diff changeset	851	\| rm_points (d::ds) result = rm_points ds (d::result);
2e07cd051ff9 added absolute_path clasohm parents: 1407 diff changeset	852	in if file = "" then ""
2e07cd051ff9 added absolute_path clasohm parents: 1407 diff changeset	853	else if hd (explode file) = "/" then file
2e07cd051ff9 added absolute_path clasohm parents: 1407 diff changeset	854	else "/" ^ space_implode "/"
2e07cd051ff9 added absolute_path clasohm parents: 1407 diff changeset	855	(rm_points (space_explode "/" (tack_on cwd file)) [])
2e07cd051ff9 added absolute_path clasohm parents: 1407 diff changeset	856	end;
2e07cd051ff9 added absolute_path clasohm parents: 1407 diff changeset	857
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	858
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	859	( misc functions )
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	860
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	861	(use the keyfun to make a list of (x, key) pairs)
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	862	fun make_keylist (keyfun: 'a->'b) : 'a list -> ('a * 'b) list =
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	863	let fun keypair x = (x, keyfun x)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	864	in map keypair end;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	865
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	866	(*given a list of (x, key) pairs and a searchkey
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	867	return the list of xs from each pair whose key equals searchkey*)
a5a9c433f639 Initial revision clasohm parents: diff changeset	868	fun keyfilter [] searchkey = []
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	869	\| keyfilter ((x, key) :: pairs) searchkey =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	870	if key = searchkey then x :: keyfilter pairs searchkey
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	871	else keyfilter pairs searchkey;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	872
a5a9c433f639 Initial revision clasohm parents: diff changeset	873
a5a9c433f639 Initial revision clasohm parents: diff changeset	874	(*Partition list into elements that satisfy predicate and those that don't.
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	875	Preserves order of elements in both lists.*)
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	876	fun partition (pred: 'a->bool) (ys: 'a list) : ('a list * 'a list) =
a5a9c433f639 Initial revision clasohm parents: diff changeset	877	let fun part ([], answer) = answer
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	878	\| part (x::xs, (ys, ns)) = if pred(x)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	879	then part (xs, (x::ys, ns))
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	880	else part (xs, (ys, x::ns))
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	881	in part (rev ys, ([], [])) end;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	882
a5a9c433f639 Initial revision clasohm parents: diff changeset	883
a5a9c433f639 Initial revision clasohm parents: diff changeset	884	fun partition_eq (eq:'a * 'a -> bool) =
a5a9c433f639 Initial revision clasohm parents: diff changeset	885	let fun part [] = []
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	886	\| part (x::ys) = let val (xs, xs') = partition (apl(x, eq)) ys
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	887	in (x::xs)::(part xs') end
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	888	in part end;
a5a9c433f639 Initial revision clasohm parents: diff changeset	889
a5a9c433f639 Initial revision clasohm parents: diff changeset	890
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	891	(*Partition a list into buckets [ bi, b(i+1), ..., bj ]
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	892	putting x in bk if p(k)(x) holds. Preserve order of elements if possible.*)
a5a9c433f639 Initial revision clasohm parents: diff changeset	893	fun partition_list p i j =
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	894	let fun part k xs =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	895	if k>j then
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	896	(case xs of [] => []
a5a9c433f639 Initial revision clasohm parents: diff changeset	897	\| _ => raise LIST "partition_list")
a5a9c433f639 Initial revision clasohm parents: diff changeset	898	else
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	899	let val (ns, rest) = partition (p k) xs;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	900	in ns :: part(k+1)rest end
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	901	in part i end;
a5a9c433f639 Initial revision clasohm parents: diff changeset	902
a5a9c433f639 Initial revision clasohm parents: diff changeset	903
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	904	(* sorting *)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	905
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	906	(*insertion sort; stable (does not reorder equal elements)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	907	'less' is less-than test on type 'a*)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	908	fun sort (less: 'a*'a -> bool) =
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	909	let fun insert (x, []) = [x]
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	910	\| insert (x, y::ys) =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	911	if less(y, x) then y :: insert (x, ys) else x::y::ys;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	912	fun sort1 [] = []
a5a9c433f639 Initial revision clasohm parents: diff changeset	913	\| sort1 (x::xs) = insert (x, sort1 xs)
a5a9c433f639 Initial revision clasohm parents: diff changeset	914	in sort1 end;
a5a9c433f639 Initial revision clasohm parents: diff changeset	915
41 97aae241094b added cons, rcons, last_elem, sort_strings, take_suffix; wenzelm parents: 24 diff changeset	916	(sort strings)
97aae241094b added cons, rcons, last_elem, sort_strings, take_suffix; wenzelm parents: 24 diff changeset	917	val sort_strings = sort (op <= : string * string -> bool);
97aae241094b added cons, rcons, last_elem, sort_strings, take_suffix; wenzelm parents: 24 diff changeset	918
97aae241094b added cons, rcons, last_elem, sort_strings, take_suffix; wenzelm parents: 24 diff changeset	919
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	920	(* transitive closure (not Warshall's algorithm) *)
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	921
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	922	fun transitive_closure [] = []
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	923	\| transitive_closure ((x, ys)::ps) =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	924	let val qs = transitive_closure ps
2182 29e56f003599 Removal of polymorphic equality via mem, subset, eq_set, etc paulson parents: 2175 diff changeset	925	val zs = foldl (fn (zs, y) => assocs qs y union_string zs) (ys, ys)
29e56f003599 Removal of polymorphic equality via mem, subset, eq_set, etc paulson parents: 2175 diff changeset	926	fun step(u, us) = (u, if x mem_string us then zs union_string us
2243 3ebeaaacfbd1 Eta-expanded some declarations that are illegal under value polymorphism paulson parents: 2196 diff changeset	927	else us)
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	928	in (x, zs) :: map step qs end;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	929
a5a9c433f639 Initial revision clasohm parents: diff changeset	930
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	931	(* generating identifiers *)
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	932
a5a9c433f639 Initial revision clasohm parents: diff changeset	933	local
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	934	val a = ord "a" and z = ord "z" and A = ord "A" and Z = ord "Z"
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	935	and k0 = ord "0" and k9 = ord "9"
2003 b48f066d52dc Addition of gensym paulson parents: 1628 diff changeset	936
2806 772f6bba48a1 gensym no longer generates random identifiers, but just enumerates them paulson parents: 2522 diff changeset	937	val seedr = ref 0;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	938	in
a5a9c433f639 Initial revision clasohm parents: diff changeset	939
2003 b48f066d52dc Addition of gensym paulson parents: 1628 diff changeset	940	(Maps 0-63 to A-Z, a-z, 0-9 or _ or ' for generating random identifiers)
b48f066d52dc Addition of gensym paulson parents: 1628 diff changeset	941	fun newid n =
b48f066d52dc Addition of gensym paulson parents: 1628 diff changeset	942	let fun char i =
b48f066d52dc Addition of gensym paulson parents: 1628 diff changeset	943	if i<26 then chr (A+i)
b48f066d52dc Addition of gensym paulson parents: 1628 diff changeset	944	else if i<52 then chr (a+i-26)
b48f066d52dc Addition of gensym paulson parents: 1628 diff changeset	945	else if i<62 then chr (k0+i-52)
b48f066d52dc Addition of gensym paulson parents: 1628 diff changeset	946	else if i=62 then "_"
b48f066d52dc Addition of gensym paulson parents: 1628 diff changeset	947	else (i=63) "'"
b48f066d52dc Addition of gensym paulson parents: 1628 diff changeset	948	in implode (map char (radixpand (64,n))) end;
b48f066d52dc Addition of gensym paulson parents: 1628 diff changeset	949
2806 772f6bba48a1 gensym no longer generates random identifiers, but just enumerates them paulson parents: 2522 diff changeset	950	(Freshly generated identifiers with given prefix; MUST start with a letter)
2003 b48f066d52dc Addition of gensym paulson parents: 1628 diff changeset	951	fun gensym pre = pre ^
2806 772f6bba48a1 gensym no longer generates random identifiers, but just enumerates them paulson parents: 2522 diff changeset	952	(#1(newid (!seedr),
772f6bba48a1 gensym no longer generates random identifiers, but just enumerates them paulson parents: 2522 diff changeset	953	seedr := 1+ !seedr))
2003 b48f066d52dc Addition of gensym paulson parents: 1628 diff changeset	954
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	955	(*Increment a list of letters like a reversed base 26 number.
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	956	If head is "z", bumps chars in tail.
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	957	Digits are incremented as if they were integers.
a5a9c433f639 Initial revision clasohm parents: diff changeset	958	"_" and "'" are not changed.
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	959	For making variants of identifiers.*)
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	960
a5a9c433f639 Initial revision clasohm parents: diff changeset	961	fun bump_int_list(c::cs) = if c="9" then "0" :: bump_int_list cs else
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	962	if k0 <= ord(c) andalso ord(c) < k9 then chr(ord(c)+1) :: cs
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	963	else "1" :: c :: cs
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	964	\| bump_int_list([]) = error("bump_int_list: not an identifier");
a5a9c433f639 Initial revision clasohm parents: diff changeset	965
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	966	fun bump_list([], d) = [d]
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	967	\| bump_list(["'"], d) = [d, "'"]
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	968	\| bump_list("z"::cs, _) = "a" :: bump_list(cs, "a")
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	969	\| bump_list("Z"::cs, _) = "A" :: bump_list(cs, "A")
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	970	\| bump_list("9"::cs, _) = "0" :: bump_int_list cs
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	971	\| bump_list(c::cs, _) = let val k = ord(c)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	972	in if (a <= k andalso k < z) orelse (A <= k andalso k < Z) orelse
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	973	(k0 <= k andalso k < k9) then chr(k+1) :: cs else
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	974	if c="'" orelse c="_" then c :: bump_list(cs, "") else
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	975	error("bump_list: not legal in identifier: " ^
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	976	implode(rev(c::cs)))
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	977	end;
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	978
a5a9c433f639 Initial revision clasohm parents: diff changeset	979	end;
a5a9c433f639 Initial revision clasohm parents: diff changeset	980
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	981	fun bump_string s : string = implode (rev (bump_list(rev(explode s), "")));
41 97aae241094b added cons, rcons, last_elem, sort_strings, take_suffix; wenzelm parents: 24 diff changeset	982
97aae241094b added cons, rcons, last_elem, sort_strings, take_suffix; wenzelm parents: 24 diff changeset	983
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	984	(* lexical scanning *)
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	985
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	986	(*scan a list of characters into "words" composed of "letters" (recognized by
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	987	is_let) and separated by any number of non-"letters"*)
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	988	fun scanwords is_let cs =
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	989	let fun scan1 [] = []
233 efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	990	\| scan1 cs =
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	991	let val (lets, rest) = take_prefix is_let cs
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	992	in implode lets :: scanwords is_let rest end;
efd6b4bb14dd major cleanup and reorganisation; wenzelm parents: 205 diff changeset	993	in scan1 (#2 (take_prefix (not o is_let) cs)) end;
24 f3d4ff75d9f2 added functions that operate on filenames: split_filename (originally located clasohm parents: 0 diff changeset	994
1364 8ea1a962ad72 files now define a structure to allow SML/NJ to optimize the code clasohm parents: 1290 diff changeset	995	end;
8ea1a962ad72 files now define a structure to allow SML/NJ to optimize the code clasohm parents: 1290 diff changeset	996
1592 d89d5ff2397f maketest now closes the output file paulson parents: 1580 diff changeset	997	(Variable-branching trees: for proof terms)
d89d5ff2397f maketest now closes the output file paulson parents: 1580 diff changeset	998	datatype 'a mtree = Join of 'a * 'a mtree list;
d89d5ff2397f maketest now closes the output file paulson parents: 1580 diff changeset	999
1364 8ea1a962ad72 files now define a structure to allow SML/NJ to optimize the code clasohm parents: 1290 diff changeset	1000	open Library;

author	wenzelm
	Wed, 16 Apr 1997 18:17:38 +0200
changeset 2960	a6b56d03ed0d
parent 2958	7837471d2f27
child 2978	83a4c4f79dcd
permissions	-rw-r--r--