wneuper/isa: src/Tools/isac/Knowledge/EqSystem.thy@7497ff20f1e8 (annotated)

neuper@37906	1	(* equational systems, minimal -- for use in Biegelinie
neuper@37906	2	author: Walther Neuper
neuper@37906	3	050826,
neuper@37906	4	(c) due to copyright terms
neuper@37906	5	*)
neuper@37906	6
neuper@37997	7	theory EqSystem imports Integrate Rational Root begin
neuper@37906	8
neuper@37906	9	consts
neuper@37906	10
neuper@37906	11	occur'_exactly'_in ::
neuper@37998	12	"[real list, real list, 'a] => bool" ("_ from _ occur'_exactly'_in _")
neuper@37906	13
neuper@37906	14	(descriptions in the related problems)
neuper@37997	15	solveForVars :: "real list => toreall"
neuper@37997	16	solution :: "bool list => toreall"
neuper@37906	17
neuper@37906	18	(the CAS-command, eg. "solveSystem [x+y=1,y=2] [x,y]")
neuper@37906	19	solveSystem :: "[bool list, real list] => bool list"
neuper@37906	20
neuper@37906	21	(Script-names)
neuper@37954	22	SolveSystemScript :: "[bool list, real list, bool list]
neuper@37954	23	=> bool list"
neuper@37906	24	("((Script SolveSystemScript (_ _ =))// (_))" 9)
neuper@37906	25
t@42197	26	axiomatization where
neuper@37906	27	(*stated as axioms, todo: prove as theorems
neuper@37906	28	'bdv' is a constant handled on the meta-level
neuper@37906	29	specifically as a 'bound variable' *)
neuper@37906	30
t@42197	31	commute_0_equality: "(0 = a) = (a = 0)" and
neuper@37906	32
neuper@37906	33	(*WN0510 see simliar rules 'isolate_' 'separate_' (by RL)
neuper@37906	34	[bdv_1,bdv_2,bdv_3,bdv_4] work also for 2 and 3 bdvs, ugly !*)
neuper@37983	35	separate_bdvs_add:
neuper@37998	36	"[\| [] from [bdv_1,bdv_2,bdv_3,bdv_4] occur_exactly_in a \|]
t@42197	37	==> (a + b = c) = (b = c + -1*a)" and
neuper@37983	38	separate_bdvs0:
neuper@37954	39	"[\| some_of [bdv_1,bdv_2,bdv_3,bdv_4] occur_in b; Not (b=!=0) \|]
t@42197	40	==> (a = b) = (a + -1*b = 0)" and
neuper@37983	41	separate_bdvs_add1:
neuper@37954	42	"[\| some_of [bdv_1,bdv_2,bdv_3,bdv_4] occur_in c \|]
t@42197	43	==> (a = b + c) = (a + -1*c = b)" and
neuper@37983	44	separate_bdvs_add2:
neuper@37954	45	"[\| Not (some_of [bdv_1,bdv_2,bdv_3,bdv_4] occur_in a) \|]
t@42197	46	==> (a + b = c) = (b = -1*a + c)" and
neuper@37983	47	separate_bdvs_mult:
neuper@37998	48	"[\| [] from [bdv_1,bdv_2,bdv_3,bdv_4] occur_exactly_in a; Not (a=!=0) \|]
t@42197	49	==>(a * b = c) = (b = c / a)"
t@42197	50	axiomatization where (*..if replaced by "and" we get an error in
t@42197	51	--- rewrite in [EqSystem,normalize,2x2] --- step "--- 3---";*)
t@42197	52	order_system_NxN: "[a,b] = [b,a]"
neuper@37906	53	(*requires rew_ord for termination, eg. ord_simplify_Integral;
neuper@37906	54	works for lists of any length, interestingly !?!*)
neuper@37906	55
neuper@37954	56	ML {*
neuper@37972	57	val thy = @{theory};
neuper@37972	58
neuper@37954	59	( eval functions )
neuper@37954	60
neuper@37954	61	(*certain variables of a given list occur _all_ in a term
neuper@37954	62	args: all: ..variables, which are under consideration (eg. the bound vars)
neuper@37954	63	vs: variables which must be in t,
neuper@37954	64	and none of the others in all must be in t
neuper@37954	65	t: the term under consideration
neuper@37954	66	*)
neuper@37954	67	fun occur_exactly_in vs all t =
neuper@37954	68	let fun occurs_in' a b = occurs_in b a
neuper@37954	69	in foldl and_ (true, map (occurs_in' t) vs)
neuper@37954	70	andalso not (foldl or_ (false, map (occurs_in' t)
neuper@37954	71	(subtract op = vs all)))
neuper@37954	72	end;
neuper@37954	73
neuper@37954	74	(*("occur_exactly_in", ("EqSystem.occur'_exactly'_in",
neuper@37954	75	eval_occur_exactly_in "#eval_occur_exactly_in_"))*)
neuper@37954	76	fun eval_occur_exactly_in _ "EqSystem.occur'_exactly'_in"
neuper@37954	77	(p as (Const ("EqSystem.occur'_exactly'_in",_)
neuper@37954	78	$ vs $ all $ t)) _ =
neuper@37954	79	if occur_exactly_in (isalist2list vs) (isalist2list all) t
neuper@37954	80	then SOME ((term2str p) ^ " = True",
neuper@37954	81	Trueprop $ (mk_equality (p, HOLogic.true_const)))
neuper@37954	82	else SOME ((term2str p) ^ " = False",
neuper@37954	83	Trueprop $ (mk_equality (p, HOLogic.false_const)))
neuper@37954	84	\| eval_occur_exactly_in _ _ _ _ = NONE;
neuper@37954	85
neuper@37954	86	calclist':=
neuper@37954	87	overwritel (!calclist',
neuper@37954	88	[("occur_exactly_in",
neuper@37954	89	("EqSystem.occur'_exactly'_in",
neuper@37954	90	eval_occur_exactly_in "#eval_occur_exactly_in_"))
neuper@37954	91	]);
neuper@37954	92
neuper@37954	93
neuper@37954	94	( rewrite order 'ord_simplify_System' )
neuper@37954	95
neuper@37954	96	(* order wrt. several linear (i.e. without exponents) variables "c","c_2",..
neuper@37954	97	which leaves the monomials containing c, c_2,... at the end of an Integral
neuper@37954	98	and puts the c, c_2,... rightmost within a monomial.
neuper@37954	99
neuper@37954	100	WN050906 this is a quick and dirty adaption of ord_make_polynomial_in,
neuper@37954	101	which was most adequate, because it uses size_of_term*)
neuper@37954	102	(**)
neuper@37954	103	local (. for simplify_System .)
neuper@37954	104	(**)
neuper@37954	105	open Term; (* for type order = EQUAL \| LESS \| GREATER *)
neuper@37954	106
neuper@37954	107	fun pr_ord EQUAL = "EQUAL"
neuper@37954	108	\| pr_ord LESS = "LESS"
neuper@37954	109	\| pr_ord GREATER = "GREATER";
neuper@37954	110
neuper@37954	111	fun dest_hd' (Const (a, T)) = (((a, 0), T), 0)
neuper@37954	112	\| dest_hd' (Free (ccc, T)) =
neuper@40836	113	(case Symbol.explode ccc of
neuper@37954	114	"c"::[] => ((("\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|", 0), T), 1)(greatest string WN)
neuper@37954	115	\| "c"::"_"::_ => ((("\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|", 0), T), 1)
neuper@37954	116	\| _ => (((ccc, 0), T), 1))
neuper@37954	117	\| dest_hd' (Var v) = (v, 2)
neuper@37954	118	\| dest_hd' (Bound i) = ((("", i), dummyT), 3)
neuper@37954	119	\| dest_hd' (Abs (_, T, _)) = ((("", 0), T), 4);
neuper@37954	120
neuper@37954	121	fun size_of_term' (Free (ccc, _)) =
neuper@40836	122	(case Symbol.explode ccc of (WN0510 hack for the bound variables)
neuper@37954	123	"c"::[] => 1000
neuper@37954	124	\| "c"::"_"::is => 1000 * ((str2int o implode) is)
neuper@37954	125	\| _ => 1)
neuper@37954	126	\| size_of_term' (Abs (_,_,body)) = 1 + size_of_term' body
neuper@37954	127	\| size_of_term' (f$t) = size_of_term' f + size_of_term' t
neuper@37954	128	\| size_of_term' _ = 1;
neuper@37954	129
neuper@37997	130	fun term_ord' pr thy (Abs (_, T, t), Abs(_, U, u)) = (* ~ term.ML *)
neuper@37997	131	(case term_ord' pr thy (t, u) of EQUAL => Term_Ord.typ_ord (T, U) \| ord => ord)
neuper@37997	132	\| term_ord' pr thy (t, u) =
neuper@37954	133	(if pr then
neuper@37954	134	let
neuper@37954	135	val (f, ts) = strip_comb t and (g, us) = strip_comb u;
neuper@38053	136	val _ = tracing ("t= f@ts= \"" ^
neuper@38053	137	(Print_Mode.setmp [] (Syntax.string_of_term (thy2ctxt thy)) f) ^
neuper@38053	138	"\" @ \"[" ^
neuper@38053	139	(commas (map (Print_Mode.setmp [] (Syntax.string_of_term
neuper@38053	140	(thy2ctxt thy))) ts)) ^ "]\"");
neuper@38053	141	val _ = tracing ("u= g@us= \"" ^
neuper@38053	142	(Print_Mode.setmp [] (Syntax.string_of_term (thy2ctxt thy)) g) ^
neuper@38053	143	"\" @ \"[" ^
neuper@38053	144	(commas (map (Print_Mode.setmp [] (Syntax.string_of_term
neuper@38053	145	(thy2ctxt thy))) us)) ^ "]\"");
neuper@38053	146	val _ = tracing ("size_of_term(t,u)= (" ^
neuper@38053	147	(string_of_int (size_of_term' t)) ^ ", " ^
neuper@38053	148	(string_of_int (size_of_term' u)) ^ ")");
neuper@38053	149	val _ = tracing ("hd_ord(f,g) = " ^ ((pr_ord o hd_ord) (f,g)));
neuper@38053	150	val _ = tracing ("terms_ord (ts,us) = " ^
neuper@38053	151	((pr_ord o terms_ord str false) (ts,us)));
neuper@38015	152	val _=tracing("-------");
neuper@37954	153	in () end
neuper@37954	154	else ();
neuper@37954	155	case int_ord (size_of_term' t, size_of_term' u) of
neuper@37954	156	EQUAL =>
neuper@37954	157	let val (f, ts) = strip_comb t and (g, us) = strip_comb u in
neuper@37954	158	(case hd_ord (f, g) of EQUAL => (terms_ord str pr) (ts, us)
neuper@37954	159	\| ord => ord)
neuper@37954	160	end
neuper@37954	161	\| ord => ord)
neuper@37954	162	and hd_ord (f, g) = (* ~ term.ML *)
neuper@37991	163	prod_ord (prod_ord Term_Ord.indexname_ord Term_Ord.typ_ord) int_ord (dest_hd' f,
neuper@37954	164	dest_hd' g)
neuper@37954	165	and terms_ord str pr (ts, us) =
neuper@37991	166	list_ord (term_ord' pr (assoc_thy "Isac"))(ts, us);
neuper@37954	167	(**)
neuper@37954	168	in
neuper@37954	169	(**)
neuper@37954	170	(*WN0510 for preliminary use in eval_order_system, see case-study mat-eng.tex
neuper@37954	171	fun ord_simplify_System_rev (pr:bool) thy subst tu =
neuper@37954	172	(term_ord' pr thy (Library.swap tu) = LESS);*)
neuper@37954	173
neuper@37954	174	(for the rls's)
neuper@37954	175	fun ord_simplify_System (pr:bool) thy subst tu =
neuper@37954	176	(term_ord' pr thy tu = LESS);
neuper@37954	177	(**)
neuper@37954	178	end;
neuper@37954	179	(**)
neuper@37954	180	rew_ord' := overwritel (!rew_ord',
neuper@37954	181	[("ord_simplify_System", ord_simplify_System false thy)
neuper@37954	182	]);
neuper@37997	183	*}
neuper@37997	184	ML {*
neuper@37954	185	( rulesets )
neuper@37954	186
neuper@37954	187	(.adapted from 'order_add_mult_in' by just replacing the rew_ord.)
neuper@37954	188	val order_add_mult_System =
neuper@37954	189	Rls{id = "order_add_mult_System", preconds = [],
neuper@37954	190	rew_ord = ("ord_simplify_System",
bonzai@41919	191	ord_simplify_System false @{theory "Integrate"}),
neuper@37954	192	erls = e_rls,srls = Erls, calc = [],
neuper@37969	193	rules = [Thm ("real_mult_commute",num_str @{thm real_mult_commute}),
neuper@37954	194	(* z * w = w * z *)
neuper@37969	195	Thm ("real_mult_left_commute",num_str @{thm real_mult_left_commute}),
neuper@37954	196	(z1.0 (z2.0 * z3.0) = z2.0 * (z1.0 * z3.0)*)
neuper@37969	197	Thm ("real_mult_assoc",num_str @{thm real_mult_assoc}),
neuper@37954	198	(z1.0 z2.0 * z3.0 = z1.0 * (z2.0 * z3.0)*)
neuper@37965	199	Thm ("add_commute",num_str @{thm add_commute}),
neuper@37954	200	(z + w = w + z)
neuper@37965	201	Thm ("add_left_commute",num_str @{thm add_left_commute}),
neuper@37954	202	(x + (y + z) = y + (x + z))
neuper@37965	203	Thm ("add_assoc",num_str @{thm add_assoc})
neuper@37954	204	(z1.0 + z2.0 + z3.0 = z1.0 + (z2.0 + z3.0))
neuper@37954	205	],
neuper@37954	206	scr = EmptyScr}:rls;
neuper@37997	207	*}
neuper@37997	208	ML {*
neuper@37954	209	(*.adapted from 'norm_Rational' by
neuper@37954	210	#1 using 'ord_simplify_System' in 'order_add_mult_System'
neuper@37954	211	#2 NOT using common_nominator_p .*)
neuper@37954	212	val norm_System_noadd_fractions =
neuper@37954	213	Rls {id = "norm_System_noadd_fractions", preconds = [],
neuper@37954	214	rew_ord = ("dummy_ord",dummy_ord),
neuper@37954	215	erls = norm_rat_erls, srls = Erls, calc = [],
neuper@37954	216	rules = [(sequence given by operator precedence)
neuper@37954	217	Rls_ discard_minus,
neuper@37954	218	Rls_ powers,
neuper@37954	219	Rls_ rat_mult_divide,
neuper@37954	220	Rls_ expand,
neuper@37954	221	Rls_ reduce_0_1_2,
neuper@37954	222	Rls_ (order_add_mult #1) order_add_mult_System,
neuper@37954	223	Rls_ collect_numerals,
neuper@37954	224	(Rls_ add_fractions_p, #2)
neuper@37954	225	Rls_ cancel_p
neuper@37954	226	],
neuper@37954	227	scr = Script ((term_of o the o (parse thy))
neuper@37954	228	"empty_script")
neuper@37954	229	}:rls;
neuper@37997	230	*}
neuper@37997	231	ML {*
neuper@37954	232	(*.adapted from 'norm_Rational' by
neuper@37954	233	1 using 'ord_simplify_System' in 'order_add_mult_System'.*)
neuper@37954	234	val norm_System =
neuper@37954	235	Rls {id = "norm_System", preconds = [],
neuper@37954	236	rew_ord = ("dummy_ord",dummy_ord),
neuper@37954	237	erls = norm_rat_erls, srls = Erls, calc = [],
neuper@37954	238	rules = [(sequence given by operator precedence)
neuper@37954	239	Rls_ discard_minus,
neuper@37954	240	Rls_ powers,
neuper@37954	241	Rls_ rat_mult_divide,
neuper@37954	242	Rls_ expand,
neuper@37954	243	Rls_ reduce_0_1_2,
neuper@37954	244	Rls_ (order_add_mult 1*) order_add_mult_System,
neuper@37954	245	Rls_ collect_numerals,
neuper@37954	246	Rls_ add_fractions_p,
neuper@37954	247	Rls_ cancel_p
neuper@37954	248	],
neuper@37954	249	scr = Script ((term_of o the o (parse thy))
neuper@37954	250	"empty_script")
neuper@37954	251	}:rls;
neuper@37997	252	*}
neuper@37997	253	ML {*
neuper@37954	254	(*.simplify an equational system BEFORE solving it such that parentheses are
neuper@37954	255	( ((u0v0)w0) + ( ((u1v1)w1) * c + ... +((u4v4)w4) * c_4 ) )
neuper@37954	256	ATTENTION: works ONLY for bound variables c, c_1, c_2, c_3, c_4 :ATTENTION
neuper@37954	257	This is a copy from 'make_ratpoly_in' with respective reductions:
neuper@37954	258	0 expand the term, ie. distribute * and / over +
neuper@37954	259	1 ord_simplify_System instead of termlessI
neuper@37954	260	2 no add_fractions_p (= common_nominator_p_rls !)
neuper@37954	261	3 discard_parentheses only for (.(..))
neuper@37954	262	analoguous to simplify_Integral .*)
neuper@37954	263	val simplify_System_parenthesized =
neuper@37954	264	Seq {id = "simplify_System_parenthesized", preconds = []:term list,
neuper@37954	265	rew_ord = ("dummy_ord", dummy_ord),
neuper@37954	266	erls = Atools_erls, srls = Erls, calc = [],
neuper@37965	267	rules = [Thm ("left_distrib",num_str @{thm left_distrib}),
neuper@37954	268	("(?z1.0 + ?z2.0) ?w = ?z1.0 * ?w + ?z2.0 * ?w"*)
neuper@37991	269	Thm ("add_divide_distrib",num_str @{thm add_divide_distrib}),
neuper@37954	270	("(?x + ?y) / ?z = ?x / ?z + ?y / ?z")
neuper@37954	271	(^^^^^ 0* ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^*)
neuper@37954	272	Rls_ norm_Rational_noadd_fractions(2),
neuper@37954	273	Rls_ (order_add_mult_in) norm_System_noadd_fractions (1),
neuper@37969	274	Thm ("sym_real_mult_assoc",
neuper@37969	275	num_str (@{thm real_mult_assoc} RS @{thm sym}))
neuper@37954	276	(Rls_ discard_parentheses 3**),
neuper@37954	277	Rls_ collect_bdv, (from make_polynomial_in WN051031 welldone?)
neuper@37954	278	Rls_ separate_bdv2,
neuper@38014	279	Calc ("Rings.inverse_class.divide" ,eval_cancel "#divide_e")
neuper@37954	280	],
neuper@37954	281	scr = EmptyScr}:rls;
neuper@37997	282	*}
neuper@37997	283	ML {*
neuper@37954	284	(*.simplify an equational system AFTER solving it;
neuper@37954	285	This is a copy of 'make_ratpoly_in' with the differences
neuper@37954	286	1 ord_simplify_System instead of termlessI .*)
neuper@37954	287	(TODO.WN051031 ^^^^^^^^^^ should be in EACH rls contained )
neuper@37954	288	val simplify_System =
neuper@37954	289	Seq {id = "simplify_System", preconds = []:term list,
neuper@37954	290	rew_ord = ("dummy_ord", dummy_ord),
neuper@37954	291	erls = Atools_erls, srls = Erls, calc = [],
neuper@37954	292	rules = [Rls_ norm_Rational,
neuper@37954	293	Rls_ (order_add_mult_in) norm_System (1),
neuper@37954	294	Rls_ discard_parentheses,
neuper@37954	295	Rls_ collect_bdv, (from make_polynomial_in WN051031 welldone?)
neuper@37954	296	Rls_ separate_bdv2,
neuper@38014	297	Calc ("Rings.inverse_class.divide" ,eval_cancel "#divide_e")
neuper@37954	298	],
neuper@37954	299	scr = EmptyScr}:rls;
neuper@37906	300	(*
neuper@37954	301	val simplify_System =
neuper@37954	302	append_rls "simplify_System" simplify_System_parenthesized
neuper@37974	303	[Thm ("sym_add_assoc",
neuper@37974	304	num_str (@{thm add_assoc} RS @{thm sym}))];
neuper@37954	305	*)
neuper@37997	306	*}
neuper@37997	307	ML {*
neuper@37954	308	val isolate_bdvs =
neuper@37954	309	Rls {id="isolate_bdvs", preconds = [],
neuper@37954	310	rew_ord = ("e_rew_ord", e_rew_ord),
neuper@37954	311	erls = append_rls "erls_isolate_bdvs" e_rls
neuper@37954	312	[(Calc ("EqSystem.occur'_exactly'_in",
neuper@37954	313	eval_occur_exactly_in
neuper@37954	314	"#eval_occur_exactly_in_"))
neuper@37954	315	],
neuper@37954	316	srls = Erls, calc = [],
neuper@37997	317	rules =
neuper@37997	318	[Thm ("commute_0_equality", num_str @{thm commute_0_equality}),
neuper@37997	319	Thm ("separate_bdvs_add", num_str @{thm separate_bdvs_add}),
neuper@37997	320	Thm ("separate_bdvs_mult", num_str @{thm separate_bdvs_mult})],
neuper@37954	321	scr = EmptyScr};
neuper@37997	322	*}
neuper@37997	323	ML {*
neuper@37954	324	val isolate_bdvs_4x4 =
neuper@37954	325	Rls {id="isolate_bdvs_4x4", preconds = [],
neuper@37954	326	rew_ord = ("e_rew_ord", e_rew_ord),
neuper@37954	327	erls = append_rls
neuper@37954	328	"erls_isolate_bdvs_4x4" e_rls
neuper@37954	329	[Calc ("EqSystem.occur'_exactly'_in",
neuper@37954	330	eval_occur_exactly_in "#eval_occur_exactly_in_"),
neuper@37954	331	Calc ("Atools.ident",eval_ident "#ident_"),
neuper@37954	332	Calc ("Atools.some'_occur'_in",
neuper@37954	333	eval_some_occur_in "#some_occur_in_"),
neuper@37969	334	Thm ("not_true",num_str @{thm not_true}),
neuper@37969	335	Thm ("not_false",num_str @{thm not_false})
neuper@37954	336	],
neuper@37954	337	srls = Erls, calc = [],
neuper@37997	338	rules = [Thm ("commute_0_equality", num_str @{thm commute_0_equality}),
neuper@37969	339	Thm ("separate_bdvs0", num_str @{thm separate_bdvs0}),
neuper@37969	340	Thm ("separate_bdvs_add1", num_str @{thm separate_bdvs_add1}),
neuper@37969	341	Thm ("separate_bdvs_add1", num_str @{thm separate_bdvs_add2}),
neuper@37969	342	Thm ("separate_bdvs_mult", num_str @{thm separate_bdvs_mult})
neuper@37969	343	], scr = EmptyScr};
neuper@37954	344
neuper@37997	345	*}
neuper@37997	346	ML {*
neuper@37997	347
neuper@37954	348	(*.order the equations in a system such, that a triangular system (if any)
neuper@37954	349	appears as [..c_4 = .., ..., ..., ..c_1 + ..c_2 + ..c_3 ..c_4 = ..].*)
neuper@37954	350	val order_system =
neuper@37954	351	Rls {id="order_system", preconds = [],
neuper@37954	352	rew_ord = ("ord_simplify_System",
neuper@37954	353	ord_simplify_System false thy),
neuper@37954	354	erls = Erls, srls = Erls, calc = [],
neuper@37969	355	rules = [Thm ("order_system_NxN", num_str @{thm order_system_NxN})
neuper@37954	356	],
neuper@37954	357	scr = EmptyScr};
neuper@37954	358
neuper@37954	359	val prls_triangular =
neuper@37954	360	Rls {id="prls_triangular", preconds = [],
neuper@37954	361	rew_ord = ("e_rew_ord", e_rew_ord),
neuper@37954	362	erls = Rls {id="erls_prls_triangular", preconds = [],
neuper@37954	363	rew_ord = ("e_rew_ord", e_rew_ord),
neuper@37954	364	erls = Erls, srls = Erls, calc = [],
neuper@37997	365	rules = [(for precond NTH_CONS ...)
neuper@38045	366	Calc ("Orderings.ord_class.less",eval_equ "#less_"),
neuper@38014	367	Calc ("Groups.plus_class.plus", eval_binop "#add_")
neuper@37954	368	(*immediately repeated rewrite pushes
neuper@37954	369	'+' into precondition !*)
neuper@37954	370	],
neuper@37954	371	scr = EmptyScr},
neuper@37954	372	srls = Erls, calc = [],
neuper@37997	373	rules = [Thm ("NTH_CONS",num_str @{thm NTH_CONS}),
neuper@38014	374	Calc ("Groups.plus_class.plus", eval_binop "#add_"),
neuper@37997	375	Thm ("NTH_NIL",num_str @{thm NTH_NIL}),
neuper@37969	376	Thm ("tl_Cons",num_str @{thm tl_Cons}),
neuper@37969	377	Thm ("tl_Nil",num_str @{thm tl_Nil}),
neuper@37954	378	Calc ("EqSystem.occur'_exactly'_in",
neuper@37954	379	eval_occur_exactly_in
neuper@37954	380	"#eval_occur_exactly_in_")
neuper@37954	381	],
neuper@37954	382	scr = EmptyScr};
neuper@37997	383	*}
neuper@37997	384	ML {*
neuper@37954	385
neuper@37954	386	(*WN060914 quickly created for 4x4;
neuper@37954	387	more similarity to prls_triangular desirable*)
neuper@37954	388	val prls_triangular4 =
neuper@37954	389	Rls {id="prls_triangular4", preconds = [],
neuper@37954	390	rew_ord = ("e_rew_ord", e_rew_ord),
neuper@37954	391	erls = Rls {id="erls_prls_triangular4", preconds = [],
neuper@37954	392	rew_ord = ("e_rew_ord", e_rew_ord),
neuper@37954	393	erls = Erls, srls = Erls, calc = [],
neuper@37997	394	rules = [(for precond NTH_CONS ...)
neuper@38045	395	Calc ("Orderings.ord_class.less",eval_equ "#less_"),
neuper@38014	396	Calc ("Groups.plus_class.plus", eval_binop "#add_")
neuper@37954	397	(*immediately repeated rewrite pushes
neuper@37954	398	'+' into precondition !*)
neuper@37954	399	],
neuper@37954	400	scr = EmptyScr},
neuper@37954	401	srls = Erls, calc = [],
neuper@37997	402	rules = [Thm ("NTH_CONS",num_str @{thm NTH_CONS}),
neuper@38014	403	Calc ("Groups.plus_class.plus", eval_binop "#add_"),
neuper@37997	404	Thm ("NTH_NIL",num_str @{thm NTH_NIL}),
neuper@37969	405	Thm ("tl_Cons",num_str @{thm tl_Cons}),
neuper@37969	406	Thm ("tl_Nil",num_str @{thm tl_Nil}),
neuper@37954	407	Calc ("EqSystem.occur'_exactly'_in",
neuper@37954	408	eval_occur_exactly_in
neuper@37954	409	"#eval_occur_exactly_in_")
neuper@37954	410	],
neuper@37954	411	scr = EmptyScr};
neuper@37997	412	*}
t@42197	413
neuper@37997	414	ML {*
neuper@37954	415	ruleset' :=
neuper@37967	416	overwritelthy @{theory}
neuper@37954	417	(!ruleset',
neuper@37954	418	[("simplify_System_parenthesized", prep_rls simplify_System_parenthesized),
neuper@37954	419	("simplify_System", prep_rls simplify_System),
neuper@37954	420	("isolate_bdvs", prep_rls isolate_bdvs),
neuper@37954	421	("isolate_bdvs_4x4", prep_rls isolate_bdvs_4x4),
neuper@37954	422	("order_system", prep_rls order_system),
neuper@37954	423	("order_add_mult_System", prep_rls order_add_mult_System),
neuper@37954	424	("norm_System_noadd_fractions", prep_rls norm_System_noadd_fractions),
neuper@37954	425	("norm_System", prep_rls norm_System)
neuper@37954	426	]);
neuper@37997	427	*}
t@42197	428
neuper@37997	429	ML {*
neuper@37954	430	( problems )
neuper@37954	431
neuper@37954	432	store_pbt
neuper@37972	433	(prep_pbt thy "pbl_equsys" [] e_pblID
neuper@37954	434	(["system"],
neuper@37997	435	[("#Given" ,["equalities e_s", "solveForVars v_s"]),
neuper@37997	436	("#Find" ,["solution ss'''"](''' is copy-named))
neuper@37954	437	],
neuper@37954	438	append_rls "e_rls" e_rls [(for preds in where_)],
neuper@37997	439	SOME "solveSystem e_s v_s",
neuper@37954	440	[]));
neuper@37954	441	store_pbt
neuper@37972	442	(prep_pbt thy "pbl_equsys_lin" [] e_pblID
neuper@37954	443	(["linear", "system"],
neuper@37997	444	[("#Given" ,["equalities e_s", "solveForVars v_s"]),
neuper@37954	445	(TODO.WN050929 check linearity)
neuper@37997	446	("#Find" ,["solution ss'''"])
neuper@37954	447	],
neuper@37954	448	append_rls "e_rls" e_rls [(for preds in where_)],
neuper@37997	449	SOME "solveSystem e_s v_s",
neuper@37954	450	[]));
neuper@37954	451	store_pbt
neuper@37972	452	(prep_pbt thy "pbl_equsys_lin_2x2" [] e_pblID
neuper@37954	453	(["2x2", "linear", "system"],
neuper@37954	454	(~~~~~~~~~~~~~~~~~~~~~~~~~)
neuper@37997	455	[("#Given" ,["equalities e_s", "solveForVars v_s"]),
neuper@37997	456	("#Where" ,["LENGTH (e_s:: bool list) = 2", "LENGTH v_s = 2"]),
neuper@37997	457	("#Find" ,["solution ss'''"])
neuper@37954	458	],
neuper@37954	459	append_rls "prls_2x2_linear_system" e_rls
neuper@37997	460	[Thm ("LENGTH_CONS",num_str @{thm LENGTH_CONS}),
neuper@37997	461	Thm ("LENGTH_NIL",num_str @{thm LENGTH_NIL}),
neuper@38014	462	Calc ("Groups.plus_class.plus", eval_binop "#add_"),
neuper@41922	463	Calc ("HOL.eq",eval_equal "#equal_")
neuper@37954	464	],
neuper@37997	465	SOME "solveSystem e_s v_s",
neuper@37954	466	[]));
neuper@37997	467	*}
neuper@37997	468	ML {*
neuper@37954	469	store_pbt
neuper@37972	470	(prep_pbt thy "pbl_equsys_lin_2x2_tri" [] e_pblID
neuper@37954	471	(["triangular", "2x2", "linear", "system"],
neuper@37997	472	[("#Given" ,["equalities e_s", "solveForVars v_s"]),
neuper@37954	473	("#Where" ,
neuper@37998	474	["(tl v_s) from v_s occur_exactly_in (NTH 1 (e_s::bool list))",
neuper@37998	475	" v_s from v_s occur_exactly_in (NTH 2 (e_s::bool list))"]),
neuper@37997	476	("#Find" ,["solution ss'''"])
neuper@37954	477	],
neuper@37954	478	prls_triangular,
neuper@37997	479	SOME "solveSystem e_s v_s",
neuper@37954	480	[["EqSystem","top_down_substitution","2x2"]]));
neuper@37954	481	store_pbt
neuper@37972	482	(prep_pbt thy "pbl_equsys_lin_2x2_norm" [] e_pblID
neuper@37954	483	(["normalize", "2x2", "linear", "system"],
neuper@37997	484	[("#Given" ,["equalities e_s", "solveForVars v_s"]),
neuper@37997	485	("#Find" ,["solution ss'''"])
neuper@37954	486	],
neuper@37954	487	append_rls "e_rls" e_rls [(for preds in where_)],
neuper@37997	488	SOME "solveSystem e_s v_s",
neuper@37954	489	[["EqSystem","normalize","2x2"]]));
neuper@37954	490	store_pbt
neuper@37972	491	(prep_pbt thy "pbl_equsys_lin_3x3" [] e_pblID
neuper@37954	492	(["3x3", "linear", "system"],
neuper@37954	493	(~~~~~~~~~~~~~~~~~~~~~~~~~)
neuper@37997	494	[("#Given" ,["equalities e_s", "solveForVars v_s"]),
neuper@37997	495	("#Where" ,["LENGTH (e_s:: bool list) = 3", "LENGTH v_s = 3"]),
neuper@37997	496	("#Find" ,["solution ss'''"])
neuper@37954	497	],
neuper@37954	498	append_rls "prls_3x3_linear_system" e_rls
neuper@37997	499	[Thm ("LENGTH_CONS",num_str @{thm LENGTH_CONS}),
neuper@37997	500	Thm ("LENGTH_NIL",num_str @{thm LENGTH_NIL}),
neuper@38014	501	Calc ("Groups.plus_class.plus", eval_binop "#add_"),
neuper@41922	502	Calc ("HOL.eq",eval_equal "#equal_")
neuper@37954	503	],
neuper@37997	504	SOME "solveSystem e_s v_s",
neuper@37954	505	[]));
neuper@37954	506	store_pbt
neuper@37972	507	(prep_pbt thy "pbl_equsys_lin_4x4" [] e_pblID
neuper@37954	508	(["4x4", "linear", "system"],
neuper@37954	509	(~~~~~~~~~~~~~~~~~~~~~~~~~)
neuper@37997	510	[("#Given" ,["equalities e_s", "solveForVars v_s"]),
neuper@37997	511	("#Where" ,["LENGTH (e_s:: bool list) = 4", "LENGTH v_s = 4"]),
neuper@37997	512	("#Find" ,["solution ss'''"])
neuper@37954	513	],
neuper@37954	514	append_rls "prls_4x4_linear_system" e_rls
neuper@37997	515	[Thm ("LENGTH_CONS",num_str @{thm LENGTH_CONS}),
neuper@37997	516	Thm ("LENGTH_NIL",num_str @{thm LENGTH_NIL}),
neuper@38014	517	Calc ("Groups.plus_class.plus", eval_binop "#add_"),
neuper@41922	518	Calc ("HOL.eq",eval_equal "#equal_")
neuper@37954	519	],
neuper@37997	520	SOME "solveSystem e_s v_s",
neuper@37954	521	[]));
neuper@37997	522	*}
neuper@37997	523	ML {*
neuper@37954	524	store_pbt
neuper@37972	525	(prep_pbt thy "pbl_equsys_lin_4x4_tri" [] e_pblID
neuper@37954	526	(["triangular", "4x4", "linear", "system"],
neuper@37997	527	[("#Given" ,["equalities e_s", "solveForVars v_s"]),
neuper@37954	528	("#Where" , (accepts missing variables up to diagional form)
neuper@37997	529	["(NTH 1 (v_s::real list)) occurs_in (NTH 1 (e_s::bool list))",
neuper@37997	530	"(NTH 2 (v_s::real list)) occurs_in (NTH 2 (e_s::bool list))",
neuper@37997	531	"(NTH 3 (v_s::real list)) occurs_in (NTH 3 (e_s::bool list))",
neuper@37997	532	"(NTH 4 (v_s::real list)) occurs_in (NTH 4 (e_s::bool list))"
neuper@37954	533	]),
neuper@37997	534	("#Find" ,["solution ss'''"])
neuper@37954	535	],
neuper@37954	536	append_rls "prls_tri_4x4_lin_sys" prls_triangular
neuper@37954	537	[Calc ("Atools.occurs'_in",eval_occurs_in "")],
neuper@37997	538	SOME "solveSystem e_s v_s",
neuper@37954	539	[["EqSystem","top_down_substitution","4x4"]]));
neuper@37997	540	*}
neuper@37997	541	ML {*
neuper@37954	542	store_pbt
neuper@37972	543	(prep_pbt thy "pbl_equsys_lin_4x4_norm" [] e_pblID
neuper@37954	544	(["normalize", "4x4", "linear", "system"],
neuper@37997	545	[("#Given" ,["equalities e_s", "solveForVars v_s"]),
neuper@37997	546	(LENGTH is checked 1 level above)
neuper@37997	547	("#Find" ,["solution ss'''"])
neuper@37954	548	],
neuper@37954	549	append_rls "e_rls" e_rls [(for preds in where_)],
neuper@37997	550	SOME "solveSystem e_s v_s",
neuper@37954	551	[["EqSystem","normalize","4x4"]]));
neuper@37954	552
neuper@37954	553
neuper@37954	554	(* show_ptyps();
neuper@37954	555	*)
neuper@37954	556
neuper@37997	557	*}
neuper@37997	558	ML {*
neuper@37954	559	( methods )
neuper@37954	560
neuper@37954	561	store_met
neuper@37972	562	(prep_met thy "met_eqsys" [] e_metID
neuper@37954	563	(["EqSystem"],
neuper@37954	564	[],
neuper@37954	565	{rew_ord'="tless_true", rls' = Erls, calc = [],
neuper@37954	566	srls = Erls, prls = Erls, crls = Erls, nrls = Erls},
neuper@37954	567	"empty_script"
neuper@37954	568	));
neuper@37954	569	store_met
neuper@37972	570	(prep_met thy "met_eqsys_topdown" [] e_metID
neuper@37954	571	(["EqSystem","top_down_substitution"],
neuper@37954	572	[],
neuper@37954	573	{rew_ord'="tless_true", rls' = Erls, calc = [],
neuper@37954	574	srls = Erls, prls = Erls, crls = Erls, nrls = Erls},
neuper@37954	575	"empty_script"
neuper@37954	576	));
neuper@37997	577	*}
neuper@37997	578	ML {*
neuper@37954	579	store_met
neuper@37972	580	(prep_met thy "met_eqsys_topdown_2x2" [] e_metID
neuper@37954	581	(["EqSystem","top_down_substitution","2x2"],
neuper@37997	582	[("#Given" ,["equalities e_s", "solveForVars v_s"]),
neuper@37954	583	("#Where" ,
neuper@37998	584	["(tl v_s) from v_s occur_exactly_in (NTH 1 (e_s::bool list))",
neuper@37998	585	" v_s from v_s occur_exactly_in (NTH 2 (e_s::bool list))"]),
neuper@37997	586	("#Find" ,["solution ss'''"])
neuper@37954	587	],
neuper@37954	588	{rew_ord'="ord_simplify_System", rls' = Erls, calc = [],
neuper@37954	589	srls = append_rls "srls_top_down_2x2" e_rls
neuper@37969	590	[Thm ("hd_thm",num_str @{thm hd_thm}),
neuper@37969	591	Thm ("tl_Cons",num_str @{thm tl_Cons}),
neuper@37969	592	Thm ("tl_Nil",num_str @{thm tl_Nil})
neuper@37954	593	],
neuper@37954	594	prls = prls_triangular, crls = Erls, nrls = Erls},
neuper@37997	595	"Script SolveSystemScript (e_s::bool list) (v_s::real list) = " ^
neuper@37997	596	" (let e_1 = Take (hd e_s); " ^
neuper@37997	597	" e_1 = ((Try (Rewrite_Set_Inst [(bdv_1, hd v_s),(bdv_2, hd (tl v_s))]" ^
neuper@37954	598	" isolate_bdvs False)) @@ " ^
neuper@37995	599	" (Try (Rewrite_Set_Inst [(bdv_1, hd v_s),(bdv_2, hd (tl v_s))]" ^
neuper@37997	600	" simplify_System False))) e_1; " ^
neuper@37997	601	" e_2 = Take (hd (tl e_s)); " ^
neuper@37997	602	" e_2 = ((Substitute [e_1]) @@ " ^
neuper@37995	603	" (Try (Rewrite_Set_Inst [(bdv_1, hd v_s),(bdv_2, hd (tl v_s))]" ^
neuper@37954	604	" simplify_System_parenthesized False)) @@ " ^
neuper@37995	605	" (Try (Rewrite_Set_Inst [(bdv_1, hd v_s),(bdv_2, hd (tl v_s))]" ^
neuper@37954	606	" isolate_bdvs False)) @@ " ^
neuper@37995	607	" (Try (Rewrite_Set_Inst [(bdv_1, hd v_s),(bdv_2, hd (tl v_s))]" ^
neuper@37997	608	" simplify_System False))) e_2; " ^
neuper@37997	609	" e__s = Take [e_1, e_2] " ^
neuper@37997	610	" in (Try (Rewrite_Set order_system False)) e__s)"
neuper@37954	611	(*---------------------------------------------------------------------------
neuper@37997	612	this script does NOT separate the equations as above,
neuper@37954	613	but it does not yet work due to preliminary script-interpreter,
neuper@37954	614	see eqsystem.sml 'script [EqSystem,top_down_substitution,2x2] Vers.2'
neuper@37954	615
neuper@37997	616	"Script SolveSystemScript (e_s::bool list) (v_s::real list) = " ^
neuper@37997	617	" (let e__s = Take e_s; " ^
neuper@37997	618	" e_1 = hd e__s; " ^
neuper@37997	619	" e_2 = hd (tl e__s); " ^
neuper@37997	620	" e__s = [e_1, Substitute [e_1] e_2] " ^
neuper@37995	621	" in ((Try (Rewrite_Set_Inst [(bdv_1, hd v_s),(bdv_2, hd (tl v_s))]" ^
neuper@37954	622	" simplify_System_parenthesized False)) @@ " ^
neuper@37995	623	" (Try (Rewrite_Set_Inst [(bdv_1, hd v_s),(bdv_2, hd (tl v_s))] " ^
neuper@37954	624	" isolate_bdvs False)) @@ " ^
neuper@37995	625	" (Try (Rewrite_Set_Inst [(bdv_1, hd v_s),(bdv_2, hd (tl v_s))]" ^
neuper@37997	626	" simplify_System False))) e__s)"
neuper@37954	627	---------------------------------------------------------------------------*)
neuper@37954	628	));
neuper@37997	629	*}
neuper@37997	630	ML {*
neuper@37954	631	store_met
neuper@37972	632	(prep_met thy "met_eqsys_norm" [] e_metID
neuper@37954	633	(["EqSystem","normalize"],
neuper@37954	634	[],
neuper@37954	635	{rew_ord'="tless_true", rls' = Erls, calc = [],
neuper@37954	636	srls = Erls, prls = Erls, crls = Erls, nrls = Erls},
neuper@37954	637	"empty_script"
neuper@37954	638	));
neuper@37998	639	*}
neuper@37998	640	ML {*
neuper@37954	641	store_met
neuper@37972	642	(prep_met thy "met_eqsys_norm_2x2" [] e_metID
neuper@37954	643	(["EqSystem","normalize","2x2"],
neuper@37997	644	[("#Given" ,["equalities e_s", "solveForVars v_s"]),
neuper@37997	645	("#Find" ,["solution ss'''"])],
neuper@37954	646	{rew_ord'="tless_true", rls' = Erls, calc = [],
neuper@37954	647	srls = append_rls "srls_normalize_2x2" e_rls
neuper@37969	648	[Thm ("hd_thm",num_str @{thm hd_thm}),
neuper@37969	649	Thm ("tl_Cons",num_str @{thm tl_Cons}),
neuper@37969	650	Thm ("tl_Nil",num_str @{thm tl_Nil})
neuper@37954	651	],
neuper@37954	652	prls = Erls, crls = Erls, nrls = Erls},
neuper@37997	653	"Script SolveSystemScript (e_s::bool list) (v_s::real list) = " ^
neuper@37997	654	" (let e__s = ((Try (Rewrite_Set norm_Rational False)) @@ " ^
neuper@37995	655	" (Try (Rewrite_Set_Inst [(bdv_1, hd v_s),(bdv_2, hd (tl v_s))]" ^
neuper@37954	656	" simplify_System_parenthesized False)) @@ " ^
neuper@37995	657	" (Try (Rewrite_Set_Inst [(bdv_1, hd v_s),(bdv_2, hd (tl v_s))]" ^
neuper@37954	658	" isolate_bdvs False)) @@ " ^
neuper@37995	659	" (Try (Rewrite_Set_Inst [(bdv_1, hd v_s),(bdv_2, hd (tl v_s))]" ^
neuper@37954	660	" simplify_System_parenthesized False)) @@ " ^
neuper@37997	661	" (Try (Rewrite_Set order_system False))) e_s " ^
neuper@37998	662	" in (SubProblem (EqSystem',[linear,system],[no_met]) " ^
neuper@37997	663	" [BOOL_LIST e__s, REAL_LIST v_s]))"
neuper@37954	664	));
neuper@37954	665
neuper@37998	666	*}
neuper@37998	667	ML {*
neuper@37997	668	(this is for NTH only)
neuper@37954	669	val srls = Rls {id="srls_normalize_4x4",
neuper@37954	670	preconds = [],
neuper@37954	671	rew_ord = ("termlessI",termlessI),
neuper@37954	672	erls = append_rls "erls_in_srls_IntegrierenUnd.." e_rls
neuper@37997	673	[(for asm in NTH_CONS ...)
neuper@38045	674	Calc ("Orderings.ord_class.less",eval_equ "#less_"),
neuper@37997	675	(2nd NTH_CONS pushes n+-1 into asms)
neuper@38014	676	Calc("Groups.plus_class.plus", eval_binop "#add_")
neuper@37954	677	],
neuper@37954	678	srls = Erls, calc = [],
neuper@37997	679	rules = [Thm ("NTH_CONS",num_str @{thm NTH_CONS}),
neuper@38014	680	Calc("Groups.plus_class.plus", eval_binop "#add_"),
neuper@37997	681	Thm ("NTH_NIL",num_str @{thm NTH_NIL})],
neuper@37954	682	scr = EmptyScr};
neuper@37954	683	store_met
neuper@37972	684	(prep_met thy "met_eqsys_norm_4x4" [] e_metID
neuper@37954	685	(["EqSystem","normalize","4x4"],
neuper@37997	686	[("#Given" ,["equalities e_s", "solveForVars v_s"]),
neuper@37997	687	("#Find" ,["solution ss'''"])],
neuper@37954	688	{rew_ord'="tless_true", rls' = Erls, calc = [],
neuper@37954	689	srls = append_rls "srls_normalize_4x4" srls
neuper@37969	690	[Thm ("hd_thm",num_str @{thm hd_thm}),
neuper@37969	691	Thm ("tl_Cons",num_str @{thm tl_Cons}),
neuper@37969	692	Thm ("tl_Nil",num_str @{thm tl_Nil})
neuper@37954	693	],
neuper@37954	694	prls = Erls, crls = Erls, nrls = Erls},
neuper@41977	695	(STOPPED.WN06? met ["EqSystem","normalize","4x4"] @@@@@@@@@@@@@@@@@@@@@@@@@@@)
neuper@37997	696	"Script SolveSystemScript (e_s::bool list) (v_s::real list) = " ^
neuper@37997	697	" (let e__s = " ^
neuper@37954	698	" ((Try (Rewrite_Set norm_Rational False)) @@ " ^
neuper@37954	699	" (Repeat (Rewrite commute_0_equality False)) @@ " ^
neuper@37997	700	" (Try (Rewrite_Set_Inst [(bdv_1, NTH 1 v_s),(bdv_2, NTH 2 v_s ), " ^
neuper@37997	701	" (bdv_3, NTH 3 v_s),(bdv_3, NTH 4 v_s )] " ^
neuper@37954	702	" simplify_System_parenthesized False)) @@ " ^
neuper@37997	703	" (Try (Rewrite_Set_Inst [(bdv_1, NTH 1 v_s),(bdv_2, NTH 2 v_s ), " ^
neuper@37997	704	" (bdv_3, NTH 3 v_s),(bdv_3, NTH 4 v_s )] " ^
neuper@37954	705	" isolate_bdvs_4x4 False)) @@ " ^
neuper@37997	706	" (Try (Rewrite_Set_Inst [(bdv_1, NTH 1 v_s),(bdv_2, NTH 2 v_s ), " ^
neuper@37997	707	" (bdv_3, NTH 3 v_s),(bdv_3, NTH 4 v_s )] " ^
neuper@37954	708	" simplify_System_parenthesized False)) @@ " ^
neuper@37997	709	" (Try (Rewrite_Set order_system False))) e_s " ^
neuper@37998	710	" in (SubProblem (EqSystem',[linear,system],[no_met]) " ^
neuper@37997	711	" [BOOL_LIST e__s, REAL_LIST v_s]))"
neuper@37954	712	));
neuper@37954	713	store_met
neuper@37972	714	(prep_met thy "met_eqsys_topdown_4x4" [] e_metID
neuper@37954	715	(["EqSystem","top_down_substitution","4x4"],
neuper@37997	716	[("#Given" ,["equalities e_s", "solveForVars v_s"]),
neuper@37954	717	("#Where" , (accepts missing variables up to diagonal form)
neuper@37997	718	["(NTH 1 (v_s::real list)) occurs_in (NTH 1 (e_s::bool list))",
neuper@37997	719	"(NTH 2 (v_s::real list)) occurs_in (NTH 2 (e_s::bool list))",
neuper@37997	720	"(NTH 3 (v_s::real list)) occurs_in (NTH 3 (e_s::bool list))",
neuper@37997	721	"(NTH 4 (v_s::real list)) occurs_in (NTH 4 (e_s::bool list))"
neuper@37954	722	]),
neuper@37997	723	("#Find" ,["solution ss'''"])
neuper@37954	724	],
neuper@37954	725	{rew_ord'="ord_simplify_System", rls' = Erls, calc = [],
neuper@37954	726	srls = append_rls "srls_top_down_4x4" srls [],
neuper@37954	727	prls = append_rls "prls_tri_4x4_lin_sys" prls_triangular
neuper@37954	728	[Calc ("Atools.occurs'_in",eval_occurs_in "")],
neuper@37954	729	crls = Erls, nrls = Erls},
neuper@37954	730	(FIXXXXME.WN060916: this script works ONLY for exp 7.79 @@@@@@@@@@@@@@@@@@@@)
neuper@37997	731	"Script SolveSystemScript (e_s::bool list) (v_s::real list) = " ^
neuper@37997	732	" (let e_1 = NTH 1 e_s; " ^
neuper@37997	733	" e_2 = Take (NTH 2 e_s); " ^
neuper@37997	734	" e_2 = ((Substitute [e_1]) @@ " ^
neuper@37997	735	" (Try (Rewrite_Set_Inst [(bdv_1,NTH 1 v_s),(bdv_2,NTH 2 v_s)," ^
neuper@37997	736	" (bdv_3,NTH 3 v_s),(bdv_4,NTH 4 v_s)]" ^
neuper@37954	737	" simplify_System_parenthesized False)) @@ " ^
neuper@37997	738	" (Try (Rewrite_Set_Inst [(bdv_1,NTH 1 v_s),(bdv_2,NTH 2 v_s)," ^
neuper@37997	739	" (bdv_3,NTH 3 v_s),(bdv_4,NTH 4 v_s)]" ^
neuper@37954	740	" isolate_bdvs False)) @@ " ^
neuper@37997	741	" (Try (Rewrite_Set_Inst [(bdv_1,NTH 1 v_s),(bdv_2,NTH 2 v_s)," ^
neuper@37997	742	" (bdv_3,NTH 3 v_s),(bdv_4,NTH 4 v_s)]" ^
neuper@37997	743	" norm_Rational False))) e_2 " ^
neuper@37997	744	" in [e_1, e_2, NTH 3 e_s, NTH 4 e_s])"
neuper@37954	745	));
neuper@37954	746	*}
neuper@37954	747
neuper@37906	748	end

author	Thomas Leh <t.leh@gmx.at>
	Tue, 26 Jul 2011 13:27:59 +0200
branch	decompose-isar
changeset 42197	7497ff20f1e8
parent 41977	a3ce4017f41d
child 42203	8e216c5001bd
permissions	-rw-r--r--