wneuper/isa: src/Tools/isac/Knowledge/Test.thy@db46e97751eb (annotated)

neuper@37954	1	(* some tests are based on specficially simple scripts etc.
neuper@37954	2	Author: Walther Neuper 2003
neuper@37954	3	(c) due to copyright terms
neuper@37954	4	*)
neuper@37906	5
neuper@38007	6	theory Test imports Atools Poly Rational Root Diff begin
neuper@37906	7
neuper@37906	8	consts
neuper@37906	9
neuper@37906	10	("cancel":: [real, real] => real (infixl "'/'/'/" 70) ...divide 2002)
neuper@37906	11
neuper@37906	12	Expand'_binomtest
neuper@37954	13	:: "['y,
neuper@37954	14	'y] => 'y"
neuper@37954	15	("((Script Expand'_binomtest (_ =))//
neuper@37954	16	(_))" 9)
neuper@37906	17
neuper@37906	18	Solve'_univar'_err
neuper@37954	19	:: "[bool,real,bool,
neuper@37954	20	bool list] => bool list"
neuper@37954	21	("((Script Solve'_univar'_err (_ _ _ =))//
neuper@37954	22	(_))" 9)
neuper@37906	23
neuper@37906	24	Solve'_linear
neuper@37954	25	:: "[bool,real,
neuper@37954	26	bool list] => bool list"
neuper@37954	27	("((Script Solve'_linear (_ _ =))//
neuper@37954	28	(_))" 9)
neuper@37906	29
neuper@37906	30	(17.9.02 aus SqRoot.thy------------------------------vvv---)
neuper@37906	31
neuper@42008	32	"is'_root'_free" :: "'a => bool" ("is'_root'_free _" 10)
neuper@42008	33	"contains'_root" :: "'a => bool" ("contains'_root _" 10)
neuper@42008	34
neuper@42008	35	"precond'_rootmet" :: "'a => bool" ("precond'_rootmet _" 10)
neuper@42008	36	"precond'_rootpbl" :: "'a => bool" ("precond'_rootpbl _" 10)
neuper@42008	37	"precond'_submet" :: "'a => bool" ("precond'_submet _" 10)
neuper@42008	38	"precond'_subpbl" :: "'a => bool" ("precond'_subpbl _" 10)
neuper@37906	39
neuper@37906	40	Solve'_root'_equation
neuper@37954	41	:: "[bool,real,
neuper@37954	42	bool list] => bool list"
neuper@37954	43	("((Script Solve'_root'_equation (_ _ =))//
neuper@37954	44	(_))" 9)
neuper@37906	45
neuper@37906	46	Solve'_plain'_square
neuper@37954	47	:: "[bool,real,
neuper@37954	48	bool list] => bool list"
neuper@37954	49	("((Script Solve'_plain'_square (_ _ =))//
neuper@37954	50	(_))" 9)
neuper@37906	51
neuper@37906	52	Norm'_univar'_equation
neuper@37954	53	:: "[bool,real,
neuper@37954	54	bool] => bool"
neuper@37954	55	("((Script Norm'_univar'_equation (_ _ =))//
neuper@37954	56	(_))" 9)
neuper@37906	57
neuper@37906	58	STest'_simplify
neuper@37954	59	:: "['z,
neuper@37954	60	'z] => 'z"
neuper@37954	61	("((Script STest'_simplify (_ =))//
neuper@37954	62	(_))" 9)
neuper@37906	63
neuper@37906	64	(17.9.02 aus SqRoot.thy------------------------------^^^---)
neuper@37906	65
neuper@52148	66	axiomatization where (TODO: prove as theorems)
neuper@37906	67
neuper@52148	68	radd_mult_distrib2: "(k::real) * (m + n) = k * m + k * n" and
neuper@52148	69	rdistr_right_assoc: "(k::real) + l * n + m * n = k + (l + m) * n" and
neuper@52148	70	rdistr_right_assoc_p: "l * n + (m * n + (k::real)) = (l + m) * n + k" and
neuper@52148	71	rdistr_div_right: "((k::real) + l) / n = k / n + l / n" and
neuper@37983	72	rcollect_right:
neuper@52148	73	"[\| l is_const; m is_const \|] ==> (l::real)n + mn = (l + m) * n" and
neuper@37983	74	rcollect_one_left:
neuper@52148	75	"m is_const ==> (n::real) + m * n = (1 + m) * n" and
neuper@37983	76	rcollect_one_left_assoc:
neuper@52148	77	"m is_const ==> (k::real) + n + m * n = k + (1 + m) * n" and
neuper@37983	78	rcollect_one_left_assoc_p:
neuper@52148	79	"m is_const ==> n + (m * n + (k::real)) = (1 + m) * n + k" and
neuper@37906	80
neuper@52148	81	rtwo_of_the_same: "a + a = 2 * a" and
neuper@52148	82	rtwo_of_the_same_assoc: "(x + a) + a = x + 2 * a" and
neuper@52148	83	rtwo_of_the_same_assoc_p:"a + (a + x) = 2 * a + x" and
neuper@37906	84
neuper@52148	85	rcancel_den: "not(a=0) ==> a * (b / a) = b" and
neuper@52148	86	rcancel_const: "[\| a is_const; b is_const \|] ==> a(x/b) = a/bx" and
neuper@52148	87	rshift_nominator: "(a::real) * b / c = a / c * b" and
neuper@37906	88
neuper@52148	89	exp_pow: "(a ^^^ b) ^^^ c = a ^^^ (b * c)" and
neuper@52148	90	rsqare: "(a::real) * a = a ^^^ 2" and
neuper@52148	91	power_1: "(a::real) ^^^ 1 = a" and
neuper@52148	92	rbinom_power_2: "((a::real) + b)^^^ 2 = a^^^ 2 + 2ab + b^^^ 2" and
neuper@37906	93
neuper@52148	94	rmult_1: "1 * k = (k::real)" and
neuper@52148	95	rmult_1_right: "k * 1 = (k::real)" and
neuper@52148	96	rmult_0: "0 * k = (0::real)" and
neuper@52148	97	rmult_0_right: "k * 0 = (0::real)" and
neuper@52148	98	radd_0: "0 + k = (k::real)" and
neuper@52148	99	radd_0_right: "k + 0 = (k::real)" and
neuper@37906	100
neuper@37983	101	radd_real_const_eq:
neuper@52148	102	"[\| a is_const; c is_const; d is_const \|] ==> a/d + c/d = (a+c)/(d::real)" and
neuper@37983	103	radd_real_const:
neuper@37906	104	"[\| a is_const; b is_const; c is_const; d is_const \|] ==> a/b + c/d = (ad + bc)/(b*(d::real))"
neuper@52148	105	and
neuper@37906	106	(for AC-operators)
neuper@52148	107	radd_commute: "(m::real) + (n::real) = n + m" and
neuper@52148	108	radd_left_commute: "(x::real) + (y + z) = y + (x + z)" and
neuper@52148	109	radd_assoc: "(m::real) + n + k = m + (n + k)" and
neuper@52148	110	rmult_commute: "(m::real) * n = n * m" and
neuper@52148	111	rmult_left_commute: "(x::real) * (y * z) = y * (x * z)" and
neuper@52148	112	rmult_assoc: "(m::real) * n * k = m * (n * k)" and
neuper@37906	113
neuper@37906	114	(for equations: 'bdv' is a meta-constant)
neuper@52148	115	risolate_bdv_add: "((k::real) + bdv = m) = (bdv = m + (-1)*k)" and
neuper@52148	116	risolate_bdv_mult_add: "((k::real) + nbdv = m) = (nbdv = m + (-1)*k)" and
neuper@52148	117	risolate_bdv_mult: "((n::real) * bdv = m) = (bdv = m / n)" and
neuper@37906	118
neuper@37983	119	rnorm_equation_add:
neuper@52148	120	"~(b =!= 0) ==> (a = b) = (a + (-1)*b = 0)" and
neuper@37906	121
neuper@37906	122	(17.9.02 aus SqRoot.thy------------------------------vvv---)
neuper@52148	123	root_ge0: "0 <= a ==> 0 <= sqrt a" and
neuper@37906	124	(should be dropped with better simplification in eval_rls ...)
neuper@37983	125	root_add_ge0:
neuper@52148	126	"[\| 0 <= a; 0 <= b \|] ==> (0 <= sqrt a + sqrt b) = True" and
neuper@37983	127	root_ge0_1:
neuper@52148	128	"[\| 0<=a; 0<=b; 0<=c \|] ==> (0 <= a * sqrt b + sqrt c) = True" and
neuper@37983	129	root_ge0_2:
neuper@52148	130	"[\| 0<=a; 0<=b; 0<=c \|] ==> (0 <= sqrt a + b * sqrt c) = True" and
neuper@37906	131
neuper@37906	132
neuper@52148	133	rroot_square_inv: "(sqrt a)^^^ 2 = a" and
neuper@52148	134	rroot_times_root: "sqrt a * sqrt b = sqrt(a*b)" and
neuper@52148	135	rroot_times_root_assoc: "(a * sqrt b) * sqrt c = a * sqrt(b*c)" and
neuper@52148	136	rroot_times_root_assoc_p: "sqrt b * (sqrt c * a)= sqrt(bc) a" and
neuper@37906	137
neuper@37906	138
neuper@37906	139	(for root-equations)
neuper@37983	140	square_equation_left:
neuper@52148	141	"[\| 0 <= a; 0 <= b \|] ==> (((sqrt a)=b)=(a=(b^^^ 2)))" and
neuper@37983	142	square_equation_right:
neuper@52148	143	"[\| 0 <= a; 0 <= b \|] ==> ((a=(sqrt b))=((a^^^ 2)=b))" and
neuper@37906	144	(causes frequently non-termination:)
neuper@37983	145	square_equation:
neuper@52148	146	"[\| 0 <= a; 0 <= b \|] ==> ((a=b)=((a^^^ 2)=b^^^ 2))" and
neuper@37906	147
neuper@52148	148	risolate_root_add: "(a+ sqrt c = d) = ( sqrt c = d + (-1)*a)" and
neuper@52148	149	risolate_root_mult: "(a+bsqrt c = d) = (bsqrt c = d + (-1)*a)" and
neuper@52148	150	risolate_root_div: "(a * sqrt c = d) = ( sqrt c = d / a)" and
neuper@37906	151
neuper@37906	152	(for polynomial equations of degree 2; linear case in RatArith)
neuper@52148	153	mult_square: "(a*bdv^^^2 = b) = (bdv^^^2 = b / a)" and
neuper@52148	154	constant_square: "(a + bdv^^^2 = b) = (bdv^^^2 = b + -1*a)" and
neuper@52148	155	constant_mult_square: "(a + bbdv^^^2 = c) = (bbdv^^^2 = c + -1*a)" and
neuper@37906	156
neuper@37983	157	square_equality:
neuper@52148	158	"0 <= a ==> (x^^^2 = a) = ((x=sqrt a) \| (x=-1*sqrt a))" and
neuper@37983	159	square_equality_0:
neuper@52148	160	"(x^^^2 = 0) = (x = 0)" and
neuper@37906	161
neuper@37906	162	(*isolate root on the LEFT hand side of the equation
neuper@37906	163	otherwise shuffling from left to right would not terminate*)
neuper@37906	164
neuper@37983	165	rroot_to_lhs:
neuper@52148	166	"is_root_free a ==> (a = sqrt b) = (a + (-1)*sqrt b = 0)" and
neuper@37983	167	rroot_to_lhs_mult:
neuper@52148	168	"is_root_free a ==> (a = csqrt b) = (a + (-1)c*sqrt b = 0)" and
neuper@37983	169	rroot_to_lhs_add_mult:
neuper@37906	170	"is_root_free a ==> (a = d+csqrt b) = (a + (-1)c*sqrt b = d)"
neuper@37906	171	(17.9.02 aus SqRoot.thy------------------------------^^^---)
neuper@37906	172
neuper@37954	173	ML {*
neuper@37972	174	val thy = @{theory};
neuper@37972	175
neuper@37954	176	( evaluation of numerals and predicates )
neuper@37954	177
neuper@42008	178	(does a term contain a root ? WN110518 seems incorrect, compare contains_root)
neuper@52070	179	fun eval_root_free (thmid:string) _ (t as (Const (op0, t0) $ arg)) thy =
neuper@37954	180	if strip_thy op0 <> "is'_root'_free"
neuper@52070	181	then error ("eval_root_free: wrong " ^ op0)
neuper@37954	182	else if const_in (strip_thy op0) arg
neuper@52070	183	then SOME (mk_thmid thmid "" (term_to_string''' thy arg)"",
neuper@52070	184	Trueprop $ (mk_equality (t, @{term False})))
neuper@52070	185	else SOME (mk_thmid thmid "" (term_to_string''' thy arg)"",
neuper@52070	186	Trueprop $ (mk_equality (t, @{term True})))
neuper@38053	187	\| eval_root_free _ _ _ _ = NONE;
neuper@37954	188
neuper@37954	189	(does a term contain a root ?)
neuper@37954	190	fun eval_contains_root (thmid:string) _
neuper@37954	191	(t as (Const("Test.contains'_root",t0) $ arg)) thy =
neuper@38053	192	if member op = (ids_of arg) "sqrt"
neuper@52070	193	then SOME (mk_thmid thmid "" (term_to_string''' thy arg)"",
neuper@52070	194	Trueprop $ (mk_equality (t, @{term True})))
neuper@52070	195	else SOME (mk_thmid thmid "" (term_to_string''' thy arg)"",
neuper@52070	196	Trueprop $ (mk_equality (t, @{term False})))
neuper@38053	197	\| eval_contains_root _ _ _ _ = NONE;
neuper@42008	198
neuper@42008	199	(dummy precondition for root-met of x+1=2)
neuper@42008	200	fun eval_precond_rootmet (thmid:string) _ (t as (Const ("Test.precond'_rootmet", _) $ arg)) thy =
neuper@52070	201	SOME (mk_thmid thmid "" (term_to_string''' thy arg)"",
neuper@52070	202	Trueprop $ (mk_equality (t, @{term True})))
neuper@52070	203	\| eval_precond_rootmet _ _ _ _ = NONE;
neuper@42008	204
neuper@42008	205	(dummy precondition for root-pbl of x+1=2)
neuper@42008	206	fun eval_precond_rootpbl (thmid:string) _ (t as (Const ("Test.precond'_rootpbl", _) $ arg)) thy =
neuper@52070	207	SOME (mk_thmid thmid "" (term_to_string''' thy arg) "",
neuper@52070	208	Trueprop $ (mk_equality (t, @{term True})))
s1210629013@52159	209	\| eval_precond_rootpbl _ _ _ _ = NONE;
s1210629013@52145	210	*}
s1210629013@52145	211	setup {* KEStore_Elems.add_calcs
s1210629013@52145	212	[("is_root_free", ("Test.is'_root'_free", eval_root_free"#is_root_free_e")),
s1210629013@52145	213	("contains_root", ("Test.contains'_root", eval_contains_root"#contains_root_")),
s1210629013@52145	214	("Test.precond'_rootmet", ("Test.precond'_rootmet", eval_precond_rootmet"#Test.precond_rootmet_")),
s1210629013@52145	215	("Test.precond'_rootpbl", ("Test.precond'_rootpbl",
s1210629013@52145	216	eval_precond_rootpbl"#Test.precond_rootpbl_"))] *}
s1210629013@52145	217	ML {*
neuper@37954	218	( term order )
neuper@38001	219	fun term_order (_:subst) tu = (term_ordI [] tu = LESS);
s1210629013@52145	220
neuper@38001	221	( rule sets )
neuper@37954	222
neuper@37954	223	val testerls =
neuper@37954	224	Rls {id = "testerls", preconds = [], rew_ord = ("termlessI",termlessI),
neuper@37954	225	erls = e_rls, srls = Erls,
neuper@42451	226	calc = [], errpatts = [],
neuper@37969	227	rules = [Thm ("refl",num_str @{thm refl}),
neuper@48764	228	Thm ("order_refl",num_str @{thm order_refl}),
neuper@37969	229	Thm ("radd_left_cancel_le",num_str @{thm radd_left_cancel_le}),
neuper@37969	230	Thm ("not_true",num_str @{thm not_true}),
neuper@37969	231	Thm ("not_false",num_str @{thm not_false}),
neuper@37969	232	Thm ("and_true",num_str @{thm and_true}),
neuper@37969	233	Thm ("and_false",num_str @{thm and_false}),
neuper@37969	234	Thm ("or_true",num_str @{thm or_true}),
neuper@37969	235	Thm ("or_false",num_str @{thm or_false}),
neuper@37969	236	Thm ("and_commute",num_str @{thm and_commute}),
neuper@37969	237	Thm ("or_commute",num_str @{thm or_commute}),
neuper@37954	238
neuper@37954	239	Calc ("Atools.is'_const",eval_const "#is_const_"),
neuper@37954	240	Calc ("Tools.matches",eval_matches ""),
neuper@37954	241
neuper@38014	242	Calc ("Groups.plus_class.plus",eval_binop "#add_"),
neuper@38034	243	Calc ("Groups.times_class.times",eval_binop "#mult_"),
neuper@37954	244	Calc ("Atools.pow" ,eval_binop "#power_"),
neuper@37954	245
neuper@38045	246	Calc ("Orderings.ord_class.less",eval_equ "#less_"),
neuper@38045	247	Calc ("Orderings.ord_class.less_eq",eval_equ "#less_equal_"),
neuper@37954	248
neuper@37954	249	Calc ("Atools.ident",eval_ident "#ident_")],
neuper@48763	250	scr = Prog ((term_of o the o (parse thy)) "empty_script")
neuper@37954	251	}:rls;
neuper@38001	252	*}
neuper@38001	253	ML {*
neuper@37954	254	(.for evaluation of conditions in rewrite rules.)
neuper@37954	255	(FIXXXXXXME 10.8.02: handle like _simplify)
neuper@37954	256	val tval_rls =
neuper@37954	257	Rls{id = "tval_rls", preconds = [],
neuper@52140	258	rew_ord = ("sqrt_right",sqrt_right false @{theory "Pure"}),
neuper@37954	259	erls=testerls,srls = e_rls,
neuper@42451	260	calc=[], errpatts = [],
neuper@37969	261	rules = [Thm ("refl",num_str @{thm refl}),
neuper@48764	262	Thm ("order_refl",num_str @{thm order_refl}),
neuper@37969	263	Thm ("radd_left_cancel_le",num_str @{thm radd_left_cancel_le}),
neuper@37969	264	Thm ("not_true",num_str @{thm not_true}),
neuper@37969	265	Thm ("not_false",num_str @{thm not_false}),
neuper@37969	266	Thm ("and_true",num_str @{thm and_true}),
neuper@37969	267	Thm ("and_false",num_str @{thm and_false}),
neuper@37969	268	Thm ("or_true",num_str @{thm or_true}),
neuper@37969	269	Thm ("or_false",num_str @{thm or_false}),
neuper@37969	270	Thm ("and_commute",num_str @{thm and_commute}),
neuper@38001	271	Thm ("or_commute",num_str @{thm or_commute}),
neuper@37954	272
neuper@37969	273	Thm ("real_diff_minus",num_str @{thm real_diff_minus}),
neuper@37954	274
neuper@37969	275	Thm ("root_ge0",num_str @{thm root_ge0}),
neuper@37969	276	Thm ("root_add_ge0",num_str @{thm root_add_ge0}),
neuper@37969	277	Thm ("root_ge0_1",num_str @{thm root_ge0_1}),
neuper@37969	278	Thm ("root_ge0_2",num_str @{thm root_ge0_2}),
neuper@37954	279
neuper@37954	280	Calc ("Atools.is'_const",eval_const "#is_const_"),
neuper@37981	281	Calc ("Test.is'_root'_free",eval_root_free "#is_root_free_e"),
neuper@37954	282	Calc ("Tools.matches",eval_matches ""),
neuper@37954	283	Calc ("Test.contains'_root",
neuper@37954	284	eval_contains_root"#contains_root_"),
neuper@37954	285
neuper@38014	286	Calc ("Groups.plus_class.plus",eval_binop "#add_"),
neuper@38034	287	Calc ("Groups.times_class.times",eval_binop "#mult_"),
neuper@37982	288	Calc ("NthRoot.sqrt",eval_sqrt "#sqrt_"),
neuper@37954	289	Calc ("Atools.pow" ,eval_binop "#power_"),
neuper@37954	290
neuper@38045	291	Calc ("Orderings.ord_class.less",eval_equ "#less_"),
neuper@38045	292	Calc ("Orderings.ord_class.less_eq",eval_equ "#less_equal_"),
neuper@37954	293
neuper@37954	294	Calc ("Atools.ident",eval_ident "#ident_")],
neuper@48763	295	scr = Prog ((term_of o the o (parse thy)) "empty_script")
neuper@37954	296	}:rls;
neuper@38001	297	*}
neuper@52155	298	setup {* KEStore_Elems.add_rlss [("testerls", (Context.theory_name @{theory}, prep_rls testerls))] *}
neuper@52155	299
neuper@38001	300	ML {*
neuper@37954	301	(make () dissappear)
neuper@37954	302	val rearrange_assoc =
neuper@37954	303	Rls{id = "rearrange_assoc", preconds = [],
neuper@37954	304	rew_ord = ("e_rew_ord",e_rew_ord),
neuper@42451	305	erls = e_rls, srls = e_rls, calc = [], errpatts = [],
neuper@37954	306	rules =
neuper@37974	307	[Thm ("sym_add_assoc",num_str (@{thm add_assoc} RS @{thm sym})),
neuper@37969	308	Thm ("sym_rmult_assoc",num_str (@{thm rmult_assoc} RS @{thm sym}))],
neuper@48763	309	scr = Prog ((term_of o the o (parse thy)) "empty_script")
neuper@37954	310	}:rls;
neuper@37954	311
neuper@37954	312	val ac_plus_times =
neuper@37954	313	Rls{id = "ac_plus_times", preconds = [], rew_ord = ("term_order",term_order),
neuper@42451	314	erls = e_rls, srls = e_rls, calc = [], errpatts = [],
neuper@37954	315	rules =
neuper@37969	316	[Thm ("radd_commute",num_str @{thm radd_commute}),
neuper@37969	317	Thm ("radd_left_commute",num_str @{thm radd_left_commute}),
neuper@37974	318	Thm ("add_assoc",num_str @{thm add_assoc}),
neuper@37969	319	Thm ("rmult_commute",num_str @{thm rmult_commute}),
neuper@37969	320	Thm ("rmult_left_commute",num_str @{thm rmult_left_commute}),
neuper@37969	321	Thm ("rmult_assoc",num_str @{thm rmult_assoc})],
neuper@48763	322	scr = Prog ((term_of o the o (parse thy)) "empty_script")
neuper@37954	323	}:rls;
neuper@37954	324
neuper@37969	325	(todo: replace by Rewrite("rnorm_equation_add",num_str @{thm rnorm_equation_add))
neuper@37954	326	val norm_equation =
neuper@37954	327	Rls{id = "norm_equation", preconds = [], rew_ord = ("e_rew_ord",e_rew_ord),
neuper@42451	328	erls = tval_rls, srls = e_rls, calc = [], errpatts = [],
neuper@38001	329	rules = [Thm ("rnorm_equation_add",num_str @{thm rnorm_equation_add})
neuper@37954	330	],
neuper@48763	331	scr = Prog ((term_of o the o (parse thy)) "empty_script")
neuper@37954	332	}:rls;
neuper@38001	333	*}
neuper@38001	334	ML {*
neuper@37954	335	( rule sets )
neuper@37954	336
neuper@37954	337	val STest_simplify = (* vv--- not changed to real by parse*)
neuper@38001	338	"Script STest_simplify (t_t::'z) = " ^
neuper@37954	339	"(Repeat" ^
neuper@37954	340	" ((Try (Repeat (Rewrite real_diff_minus False))) @@ " ^
neuper@37954	341	" (Try (Repeat (Rewrite radd_mult_distrib2 False))) @@ " ^
neuper@37954	342	" (Try (Repeat (Rewrite rdistr_right_assoc False))) @@ " ^
neuper@37954	343	" (Try (Repeat (Rewrite rdistr_right_assoc_p False))) @@" ^
neuper@37954	344	" (Try (Repeat (Rewrite rdistr_div_right False))) @@ " ^
neuper@37954	345	" (Try (Repeat (Rewrite rbinom_power_2 False))) @@ " ^
neuper@37954	346
neuper@37954	347	" (Try (Repeat (Rewrite radd_commute False))) @@ " ^
neuper@37954	348	" (Try (Repeat (Rewrite radd_left_commute False))) @@ " ^
neuper@37974	349	" (Try (Repeat (Rewrite add_assoc False))) @@ " ^
neuper@37954	350	" (Try (Repeat (Rewrite rmult_commute False))) @@ " ^
neuper@37954	351	" (Try (Repeat (Rewrite rmult_left_commute False))) @@ " ^
neuper@37954	352	" (Try (Repeat (Rewrite rmult_assoc False))) @@ " ^
neuper@37954	353
neuper@37954	354	" (Try (Repeat (Rewrite radd_real_const_eq False))) @@ " ^
neuper@37954	355	" (Try (Repeat (Rewrite radd_real_const False))) @@ " ^
neuper@37975	356	" (Try (Repeat (Calculate PLUS))) @@ " ^
neuper@37975	357	" (Try (Repeat (Calculate TIMES))) @@ " ^
neuper@37954	358	" (Try (Repeat (Calculate divide_))) @@" ^
neuper@37975	359	" (Try (Repeat (Calculate POWER))) @@ " ^
neuper@37954	360
neuper@37954	361	" (Try (Repeat (Rewrite rcollect_right False))) @@ " ^
neuper@37954	362	" (Try (Repeat (Rewrite rcollect_one_left False))) @@ " ^
neuper@37954	363	" (Try (Repeat (Rewrite rcollect_one_left_assoc False))) @@ " ^
neuper@37954	364	" (Try (Repeat (Rewrite rcollect_one_left_assoc_p False))) @@ " ^
neuper@37954	365
neuper@37954	366	" (Try (Repeat (Rewrite rshift_nominator False))) @@ " ^
neuper@37954	367	" (Try (Repeat (Rewrite rcancel_den False))) @@ " ^
neuper@37954	368	" (Try (Repeat (Rewrite rroot_square_inv False))) @@ " ^
neuper@37954	369	" (Try (Repeat (Rewrite rroot_times_root False))) @@ " ^
neuper@37954	370	" (Try (Repeat (Rewrite rroot_times_root_assoc_p False))) @@ " ^
neuper@37954	371	" (Try (Repeat (Rewrite rsqare False))) @@ " ^
neuper@37954	372	" (Try (Repeat (Rewrite power_1 False))) @@ " ^
neuper@37954	373	" (Try (Repeat (Rewrite rtwo_of_the_same False))) @@ " ^
neuper@37954	374	" (Try (Repeat (Rewrite rtwo_of_the_same_assoc_p False))) @@ " ^
neuper@37954	375
neuper@37954	376	" (Try (Repeat (Rewrite rmult_1 False))) @@ " ^
neuper@37954	377	" (Try (Repeat (Rewrite rmult_1_right False))) @@ " ^
neuper@37954	378	" (Try (Repeat (Rewrite rmult_0 False))) @@ " ^
neuper@37954	379	" (Try (Repeat (Rewrite rmult_0_right False))) @@ " ^
neuper@37954	380	" (Try (Repeat (Rewrite radd_0 False))) @@ " ^
neuper@37954	381	" (Try (Repeat (Rewrite radd_0_right False)))) " ^
neuper@38001	382	" t_t)";
neuper@37954	383
neuper@38001	384	*}
neuper@38001	385	ML {*
neuper@37954	386	(* expects * distributed over + *)
neuper@37954	387	val Test_simplify =
neuper@37954	388	Rls{id = "Test_simplify", preconds = [],
neuper@52140	389	rew_ord = ("sqrt_right",sqrt_right false @{theory "Pure"}),
neuper@37954	390	erls = tval_rls, srls = e_rls,
neuper@42451	391	calc=[(since 040209 filled by prep_rls)], errpatts = [],
neuper@37954	392	rules = [
neuper@37969	393	Thm ("real_diff_minus",num_str @{thm real_diff_minus}),
neuper@37969	394	Thm ("radd_mult_distrib2",num_str @{thm radd_mult_distrib2}),
neuper@37969	395	Thm ("rdistr_right_assoc",num_str @{thm rdistr_right_assoc}),
neuper@37969	396	Thm ("rdistr_right_assoc_p",num_str @{thm rdistr_right_assoc_p}),
neuper@37969	397	Thm ("rdistr_div_right",num_str @{thm rdistr_div_right}),
neuper@37969	398	Thm ("rbinom_power_2",num_str @{thm rbinom_power_2}),
neuper@37954	399
neuper@37969	400	Thm ("radd_commute",num_str @{thm radd_commute}),
neuper@37969	401	Thm ("radd_left_commute",num_str @{thm radd_left_commute}),
neuper@37974	402	Thm ("add_assoc",num_str @{thm add_assoc}),
neuper@37969	403	Thm ("rmult_commute",num_str @{thm rmult_commute}),
neuper@37969	404	Thm ("rmult_left_commute",num_str @{thm rmult_left_commute}),
neuper@37969	405	Thm ("rmult_assoc",num_str @{thm rmult_assoc}),
neuper@37954	406
neuper@37969	407	Thm ("radd_real_const_eq",num_str @{thm radd_real_const_eq}),
neuper@37969	408	Thm ("radd_real_const",num_str @{thm radd_real_const}),
neuper@37954	409	(* these 2 rules are invers to distr_div_right wrt. termination.
neuper@37954	410	thus they MUST be done IMMEDIATELY before calc *)
neuper@38014	411	Calc ("Groups.plus_class.plus", eval_binop "#add_"),
neuper@38034	412	Calc ("Groups.times_class.times", eval_binop "#mult_"),
neuper@48789	413	Calc ("Fields.inverse_class.divide", eval_cancel "#divide_e"),
neuper@37954	414	Calc ("Atools.pow", eval_binop "#power_"),
neuper@37954	415
neuper@37969	416	Thm ("rcollect_right",num_str @{thm rcollect_right}),
neuper@37969	417	Thm ("rcollect_one_left",num_str @{thm rcollect_one_left}),
neuper@37969	418	Thm ("rcollect_one_left_assoc",num_str @{thm rcollect_one_left_assoc}),
neuper@37969	419	Thm ("rcollect_one_left_assoc_p",num_str @{thm rcollect_one_left_assoc_p}),
neuper@37954	420
neuper@37969	421	Thm ("rshift_nominator",num_str @{thm rshift_nominator}),
neuper@37969	422	Thm ("rcancel_den",num_str @{thm rcancel_den}),
neuper@37969	423	Thm ("rroot_square_inv",num_str @{thm rroot_square_inv}),
neuper@37969	424	Thm ("rroot_times_root",num_str @{thm rroot_times_root}),
neuper@37969	425	Thm ("rroot_times_root_assoc_p",num_str @{thm rroot_times_root_assoc_p}),
neuper@37969	426	Thm ("rsqare",num_str @{thm rsqare}),
neuper@38001	427	Thm ("power_1",num_str @{thm power_1}),
neuper@37969	428	Thm ("rtwo_of_the_same",num_str @{thm rtwo_of_the_same}),
neuper@37969	429	Thm ("rtwo_of_the_same_assoc_p",num_str @{thm rtwo_of_the_same_assoc_p}),
neuper@37954	430
neuper@37969	431	Thm ("rmult_1",num_str @{thm rmult_1}),
neuper@37969	432	Thm ("rmult_1_right",num_str @{thm rmult_1_right}),
neuper@37969	433	Thm ("rmult_0",num_str @{thm rmult_0}),
neuper@37969	434	Thm ("rmult_0_right",num_str @{thm rmult_0_right}),
neuper@37969	435	Thm ("radd_0",num_str @{thm radd_0}),
neuper@37969	436	Thm ("radd_0_right",num_str @{thm radd_0_right})
neuper@37954	437	],
neuper@48763	438	scr = Prog ((term_of o the o (parse thy)) "empty_script")
neuper@37954	439	(since 040209 filled by prep_rls: STest_simplify)
neuper@37954	440	}:rls;
neuper@38001	441	*}
neuper@38001	442	ML {*
neuper@37954	443
neuper@37954	444	( rule sets )
neuper@37954	445
neuper@37954	446
neuper@37954	447
neuper@37954	448	(isolate the root in a root-equation)
neuper@37954	449	val isolate_root =
neuper@37954	450	Rls{id = "isolate_root", preconds = [], rew_ord = ("e_rew_ord",e_rew_ord),
neuper@42451	451	erls=tval_rls,srls = e_rls, calc=[], errpatts = [],
neuper@37969	452	rules = [Thm ("rroot_to_lhs",num_str @{thm rroot_to_lhs}),
neuper@37969	453	Thm ("rroot_to_lhs_mult",num_str @{thm rroot_to_lhs_mult}),
neuper@37969	454	Thm ("rroot_to_lhs_add_mult",num_str @{thm rroot_to_lhs_add_mult}),
neuper@37969	455	Thm ("risolate_root_add",num_str @{thm risolate_root_add}),
neuper@37969	456	Thm ("risolate_root_mult",num_str @{thm risolate_root_mult}),
neuper@37969	457	Thm ("risolate_root_div",num_str @{thm risolate_root_div}) ],
neuper@48763	458	scr = Prog ((term_of o the o (parse thy))
neuper@37954	459	"empty_script")
neuper@37954	460	}:rls;
neuper@37954	461
neuper@37954	462	(isolate the bound variable in an equation; 'bdv' is a meta-constant)
neuper@37954	463	val isolate_bdv =
neuper@37954	464	Rls{id = "isolate_bdv", preconds = [], rew_ord = ("e_rew_ord",e_rew_ord),
neuper@42451	465	erls=tval_rls,srls = e_rls, calc= [], errpatts = [],
neuper@37954	466	rules =
neuper@37969	467	[Thm ("risolate_bdv_add",num_str @{thm risolate_bdv_add}),
neuper@37969	468	Thm ("risolate_bdv_mult_add",num_str @{thm risolate_bdv_mult_add}),
neuper@37969	469	Thm ("risolate_bdv_mult",num_str @{thm risolate_bdv_mult}),
neuper@38001	470	Thm ("mult_square",num_str @{thm mult_square}),
neuper@38001	471	Thm ("constant_square",num_str @{thm constant_square}),
neuper@38001	472	Thm ("constant_mult_square",num_str @{thm constant_mult_square})
neuper@37954	473	],
neuper@48763	474	scr = Prog ((term_of o the o (parse thy))
neuper@37954	475	"empty_script")
neuper@37954	476	}:rls;
neuper@38001	477	*}
neuper@38001	478	ML {*
neuper@37954	479
neuper@37954	480	(* association list for calculate_, calculate
neuper@38014	481	"Groups.plus_class.plus" etc. not usable in scripts *)
neuper@37954	482	val calclist =
neuper@37954	483	[
neuper@37954	484	(as Tools.ML)
neuper@37954	485	("Vars" ,("Tools.Vars" ,eval_var "#Vars_")),
neuper@37954	486	("matches",("Tools.matches",eval_matches "#matches_")),
neuper@37954	487	("lhs" ,("Tools.lhs" ,eval_lhs "")),
neuper@37954	488	(aus Atools.ML)
neuper@38014	489	("PLUS" ,("Groups.plus_class.plus" ,eval_binop "#add_")),
neuper@38034	490	("TIMES" ,("Groups.times_class.times" ,eval_binop "#mult_")),
neuper@48789	491	("DIVIDE" ,("Fields.inverse_class.divide" ,eval_cancel "#divide_e")),
neuper@37954	492	("POWER" ,("Atools.pow" ,eval_binop "#power_")),
neuper@37954	493	("is_const",("Atools.is'_const",eval_const "#is_const_")),
neuper@38045	494	("le" ,("Orderings.ord_class.less" ,eval_equ "#less_")),
neuper@38045	495	("leq" ,("Orderings.ord_class.less_eq" ,eval_equ "#less_equal_")),
neuper@37954	496	("ident" ,("Atools.ident",eval_ident "#ident_")),
neuper@37954	497	(von hier (ehem.SqRoot)
neuper@37982	498	("sqrt" ,("NthRoot.sqrt" ,eval_sqrt "#sqrt_")),
neuper@37981	499	("Test.is_root_free",("is'_root'_free", eval_root_free"#is_root_free_e")),
neuper@37954	500	("Test.contains_root",("contains'_root",
neuper@37954	501	eval_contains_root"#contains_root_"))
neuper@37954	502	];
neuper@52125	503	*}
neuper@52125	504	setup {* KEStore_Elems.add_rlss
neuper@52125	505	[("Test_simplify", (Context.theory_name @{theory}, prep_rls Test_simplify)),
neuper@52125	506	("tval_rls", (Context.theory_name @{theory}, prep_rls tval_rls)),
neuper@52125	507	("isolate_root", (Context.theory_name @{theory}, prep_rls isolate_root)),
neuper@52125	508	("isolate_bdv", (Context.theory_name @{theory}, prep_rls isolate_bdv)),
neuper@52125	509	("matches", (Context.theory_name @{theory}, prep_rls
neuper@52125	510	(append_rls "matches" testerls [Calc ("Tools.matches",eval_matches "#matches_")])))] *}
neuper@37954	511
neuper@38001	512	ML {*
neuper@37954	513	( problem types )
neuper@37954	514	store_pbt
neuper@37972	515	(prep_pbt thy "pbl_test" [] e_pblID
neuper@37954	516	(["test"],
neuper@37954	517	[],
neuper@37954	518	e_rls, NONE, []));
neuper@37954	519	store_pbt
neuper@37972	520	(prep_pbt thy "pbl_test_equ" [] e_pblID
neuper@37954	521	(["equation","test"],
neuper@37981	522	[("#Given" ,["equality e_e","solveFor v_v"]),
neuper@37981	523	("#Where" ,["matches (?a = ?b) e_e"]),
neuper@38012	524	("#Find" ,["solutions v_v'i'"])
neuper@37954	525	],
neuper@52142	526	assoc_rls' @{theory} "matches",
neuper@37981	527	SOME "solve (e_e::bool, v_v)", []));
neuper@37954	528
neuper@37954	529	store_pbt
neuper@37972	530	(prep_pbt thy "pbl_test_uni" [] e_pblID
neuper@37954	531	(["univariate","equation","test"],
neuper@37981	532	[("#Given" ,["equality e_e","solveFor v_v"]),
neuper@37981	533	("#Where" ,["matches (?a = ?b) e_e"]),
neuper@38011	534	("#Find" ,["solutions v_v'i'"])
neuper@37954	535	],
neuper@52142	536	assoc_rls' @{theory} "matches",
neuper@37981	537	SOME "solve (e_e::bool, v_v)", []));
neuper@37954	538
neuper@37954	539	store_pbt
neuper@37972	540	(prep_pbt thy "pbl_test_uni_lin" [] e_pblID
neuper@37954	541	(["linear","univariate","equation","test"],
neuper@37981	542	[("#Given" ,["equality e_e","solveFor v_v"]),
neuper@38001	543	("#Where" ,["(matches ( v_v = 0) e_e) \| (matches ( ?b*v_v = 0) e_e) \|" ^
neuper@38001	544	"(matches (?a+v_v = 0) e_e) \| (matches (?a+?b*v_v = 0) e_e) "]),
neuper@38012	545	("#Find" ,["solutions v_v'i'"])
neuper@37954	546	],
neuper@52142	547	assoc_rls' @{theory} "matches",
neuper@37981	548	SOME "solve (e_e::bool, v_v)", [["Test","solve_linear"]]));
neuper@37954	549
neuper@37954	550	(*25.8.01 ------
neuper@37954	551	store_pbt
neuper@37972	552	(prep_pbt thy
neuper@37972	553	(["thy"],
neuper@38001	554	[("#Given" ,"boolTestGiven g_g"),
neuper@37994	555	("#Find" ,"boolTestFind f_f")
neuper@37954	556	],
neuper@37954	557	[]));
neuper@37954	558
neuper@37954	559	store_pbt
neuper@37972	560	(prep_pbt thy
neuper@37972	561	(["testeq","thy"],
neuper@38001	562	[("#Given" ,"boolTestGiven g_g"),
neuper@37994	563	("#Find" ,"boolTestFind f_f")
neuper@37954	564	],
neuper@37954	565	[]));
neuper@37954	566
neuper@37954	567
neuper@40836	568	val ttt = (term_of o the o (parse (Thy_Info.get_theory "Isac"))) "(matches ( v_v = 0) e_e)";
neuper@37954	569
neuper@37954	570	------ 25.8.01*)
neuper@37954	571
neuper@38001	572	*}
neuper@38001	573	ML {*
neuper@37954	574	( methods )
neuper@37954	575	store_met
neuper@52105	576	(prep_met @{theory "Diff"} "met_test" [] e_metID
neuper@37954	577	(["Test"],
neuper@37954	578	[],
neuper@37954	579	{rew_ord'="tless_true",rls'=Atools_erls,calc = [], srls = e_rls, prls=e_rls,
neuper@42425	580	crls=Atools_erls, errpats = [], nrls = e_rls}, "empty_script"));
neuper@38001	581	*}
neuper@38001	582	ML {*
neuper@37954	583	store_met
neuper@37972	584	(prep_met thy "met_test_solvelin" [] e_metID
neuper@37954	585	(["Test","solve_linear"]:metID,
neuper@37981	586	[("#Given" ,["equality e_e","solveFor v_v"]),
neuper@37981	587	("#Where" ,["matches (?a = ?b) e_e"]),
neuper@38012	588	("#Find" ,["solutions v_v'i'"])
neuper@37954	589	],
neuper@38001	590	{rew_ord' = "e_rew_ord", rls' = tval_rls, srls = e_rls,
neuper@52142	591	prls = assoc_rls' @{theory} "matches", calc = [], crls = tval_rls,
neuper@42425	592	errpats = [], nrls = Test_simplify},
neuper@38001	593	"Script Solve_linear (e_e::bool) (v_v::real)= " ^
neuper@38001	594	"(let e_e = " ^
neuper@38001	595	" Repeat " ^
neuper@38001	596	" (((Rewrite_Set_Inst [(bdv,v_v::real)] isolate_bdv False) @@ " ^
neuper@37981	597	" (Rewrite_Set Test_simplify False))) e_e" ^
neuper@38001	598	" in [e_e::bool])"
neuper@37954	599	)
neuper@37972	600	(, prep_met thy (test for equations*)
neuper@37954	601	(["Test","testeq"]:metID,
neuper@38001	602	[("#Given" ,["boolTestGiven g_g"]),
neuper@37994	603	("#Find" ,["boolTestFind f_f"])
neuper@37954	604	],
neuper@37954	605	{rew_ord'="e_rew_ord",rls'="tval_rls",asm_rls=[],
neuper@37954	606	asm_thm=[("square_equation_left","")]},
neuper@38001	607	"Script Testeq (e_q::bool) = " ^
neuper@37954	608	"Repeat " ^
neuper@38001	609	" (let e_e = Try (Repeat (Rewrite rroot_square_inv False e_q)); " ^
neuper@37981	610	" e_e = Try (Repeat (Rewrite square_equation_left True e_e)); " ^
neuper@37981	611	" e_e = Try (Repeat (Rewrite rmult_0 False e_e)) " ^
neuper@37981	612	" in e_e) Until (is_root_free e_e)" (deleted)
neuper@37954	613	)
neuper@37954	614	, ---------27.4.02*)
neuper@37954	615	);
neuper@52155	616	*}
neuper@37954	617
neuper@52125	618	setup {* KEStore_Elems.add_rlss
neuper@52125	619	[("norm_equation", (Context.theory_name @{theory}, prep_rls norm_equation)),
neuper@52125	620	("ac_plus_times", (Context.theory_name @{theory}, prep_rls ac_plus_times)),
neuper@52125	621	("rearrange_assoc", (Context.theory_name @{theory}, prep_rls rearrange_assoc))] *}
neuper@52125	622	ML {*
neuper@37954	623
neuper@37954	624
neuper@37954	625	fun bin_o (Const (op_,(Type ("fun",
neuper@37954	626	[Type (s2,[]),Type ("fun",
neuper@37954	627	[Type (s4,tl4),Type (s5,tl5)])])))) =
neuper@37954	628	if (s2=s4)andalso(s4=s5)then[op_]else[]
neuper@37954	629	\| bin_o _ = [];
neuper@37954	630
neuper@37954	631	fun bin_op (t1 $ t2) = union op = (bin_op t1) (bin_op t2)
neuper@37954	632	\| bin_op t = bin_o t;
neuper@37954	633	fun is_bin_op t = ((bin_op t)<>[]);
neuper@37954	634
neuper@37954	635	fun bin_op_arg1 ((Const (op_,(Type ("fun",
neuper@37954	636	[Type (s2,[]),Type ("fun",
neuper@37954	637	[Type (s4,tl4),Type (s5,tl5)])]))))$ arg1 $ arg2) =
neuper@37954	638	arg1;
neuper@37954	639	fun bin_op_arg2 ((Const (op_,(Type ("fun",
neuper@37954	640	[Type (s2,[]),Type ("fun",
neuper@37954	641	[Type (s4,tl4),Type (s5,tl5)])]))))$ arg1 $ arg2) =
neuper@37954	642	arg2;
neuper@37954	643
neuper@37954	644
neuper@37954	645	exception NO_EQUATION_TERM;
neuper@41922	646	fun is_equation ((Const ("HOL.eq",(Type ("fun",
neuper@37954	647	[Type (_,[]),Type ("fun",
neuper@37954	648	[Type (_,[]),Type ("bool",[])])])))) $ _ $ _)
neuper@37954	649	= true
neuper@37954	650	\| is_equation _ = false;
neuper@41922	651	fun equ_lhs ((Const ("HOL.eq",(Type ("fun",
neuper@37954	652	[Type (_,[]),Type ("fun",
neuper@37954	653	[Type (_,[]),Type ("bool",[])])])))) $ l $ r)
neuper@37954	654	= l
neuper@37954	655	\| equ_lhs _ = raise NO_EQUATION_TERM;
neuper@41922	656	fun equ_rhs ((Const ("HOL.eq",(Type ("fun",
neuper@37954	657	[Type (_,[]),Type ("fun",
neuper@37954	658	[Type (_,[]),Type ("bool",[])])])))) $ l $ r)
neuper@37954	659	= r
neuper@37954	660	\| equ_rhs _ = raise NO_EQUATION_TERM;
neuper@37954	661
neuper@37954	662
neuper@37954	663	fun atom (Const (_,Type (_,[]))) = true
neuper@37954	664	\| atom (Free (_,Type (_,[]))) = true
neuper@37954	665	\| atom (Var (_,Type (_,[]))) = true
neuper@37954	666	(\| atom (_ (_,"?DUMMY" )) = true ..ML-error )
neuper@37954	667	\| atom((Const ("Bin.integ_of_bin",_)) $ _) = true
neuper@37954	668	\| atom _ = false;
neuper@37954	669
neuper@37954	670	fun varids (Const (s,Type (_,[]))) = [strip_thy s]
neuper@37954	671	\| varids (Free (s,Type (_,[]))) = if is_no s then []
neuper@37954	672	else [strip_thy s]
neuper@37954	673	\| varids (Var((s,_),Type (_,[]))) = [strip_thy s]
neuper@37954	674	(\| varids (_ (s,"?DUMMY" )) = ..ML-error )
neuper@37954	675	\| varids((Const ("Bin.integ_of_bin",_)) $ _)= [](8.01: superfluous?)
neuper@37954	676	\| varids (Abs(a,T,t)) = union op = [a] (varids t)
neuper@37954	677	\| varids (t1 $ t2) = union op = (varids t1) (varids t2)
neuper@37954	678	\| varids _ = [];
neuper@37954	679	(*> val t = term_of (hd (parse Diophant.thy "x"));
neuper@37954	680	val t = Free ("x","?DUMMY") : term
neuper@37954	681	> varids t;
neuper@37954	682	val it = [] : string list [] !!! *)
neuper@37954	683
neuper@37954	684
neuper@37954	685	fun bin_ops_only ((Const op_) $ t1 $ t2) =
neuper@37954	686	if(is_bin_op (Const op_))
neuper@37954	687	then(bin_ops_only t1)andalso(bin_ops_only t2)
neuper@37954	688	else false
neuper@37954	689	\| bin_ops_only t =
neuper@37954	690	if atom t then true else bin_ops_only t;
neuper@37954	691
neuper@37954	692	fun polynomial opl t bdVar = (* bdVar TODO *)
neuper@37954	693	subset op = (bin_op t, opl) andalso (bin_ops_only t);
neuper@37954	694
neuper@37954	695	fun poly_equ opl bdVar t = is_equation t (* bdVar TODO *)
neuper@37954	696	andalso polynomial opl (equ_lhs t) bdVar
neuper@37954	697	andalso polynomial opl (equ_rhs t) bdVar
neuper@37954	698	andalso (subset op = (varids bdVar, varids (equ_lhs t)) orelse
neuper@37954	699	subset op = (varids bdVar, varids (equ_lhs t)));
neuper@37954	700
neuper@37954	701	(*fun max is =
neuper@37954	702	let fun max_ m [] = m
neuper@37954	703	\| max_ m (i::is) = if m<i then max_ i is else max_ m is;
neuper@37954	704	in max_ (hd is) is end;
neuper@37954	705	> max [1,5,3,7,4,2];
neuper@37954	706	val it = 7 : int *)
neuper@37954	707
neuper@37954	708	fun max (a,b) = if a < b then b else a;
neuper@37954	709
neuper@37954	710	fun degree addl mul bdVar t =
neuper@37954	711	let
neuper@37954	712	fun deg _ _ v (Const (s,Type (_,[]))) = if v=strip_thy s then 1 else 0
neuper@37954	713	\| deg _ _ v (Free (s,Type (_,[]))) = if v=strip_thy s then 1 else 0
neuper@37954	714	\| deg _ _ v (Var((s,_),Type (_,[]))) = if v=strip_thy s then 1 else 0
neuper@37954	715	(\| deg _ _ v (_ (s,"?DUMMY" )) = ..ML-error )
neuper@37954	716	\| deg _ _ v((Const ("Bin.integ_of_bin",_)) $ _ )= 0
neuper@37954	717	\| deg addl mul v (h $ t1 $ t2) =
neuper@37954	718	if subset op = (bin_op h, addl)
neuper@37954	719	then max (deg addl mul v t1 ,deg addl mul v t2)
neuper@37954	720	else (mul!)(deg addl mul v t1)+(deg addl mul v t2)
neuper@37954	721	in if polynomial (addl @ [mul]) t bdVar
neuper@37954	722	then SOME (deg addl mul (id_of bdVar) t) else (NONE:int option)
neuper@37954	723	end;
neuper@37954	724	fun degree_ addl mul bdVar t = (* do not export *)
neuper@37954	725	let fun opt (SOME i)= i
neuper@37954	726	\| opt NONE = 0
neuper@37954	727	in opt (degree addl mul bdVar t) end;
neuper@37954	728
neuper@37954	729
neuper@37954	730	fun linear addl mul t bdVar = (degree_ addl mul bdVar t)<2;
neuper@37954	731
neuper@37954	732	fun linear_equ addl mul bdVar t =
neuper@37954	733	if is_equation t
neuper@37954	734	then let val degl = degree_ addl mul bdVar (equ_lhs t);
neuper@37954	735	val degr = degree_ addl mul bdVar (equ_rhs t)
neuper@37954	736	in if (degl>0 orelse degr>0)andalso max(degl,degr)<2
neuper@37954	737	then true else false
neuper@37954	738	end
neuper@37954	739	else false;
neuper@37954	740	(* strip_thy op_ before *)
neuper@37954	741	fun is_div_op (dv,(Const (op_,(Type ("fun",
neuper@37954	742	[Type (s2,[]),Type ("fun",
neuper@37954	743	[Type (s4,tl4),Type (s5,tl5)])])))) )= (dv = strip_thy op_)
neuper@37954	744	\| is_div_op _ = false;
neuper@37954	745
neuper@37954	746	fun is_denom bdVar div_op t =
neuper@37954	747	let fun is bool[v]dv (Const (s,Type(_,[])))= bool andalso(if v=strip_thy s then true else false)
neuper@37954	748	\| is bool[v]dv (Free (s,Type(_,[])))= bool andalso(if v=strip_thy s then true else false)
neuper@37954	749	\| is bool[v]dv (Var((s,_),Type(_,[])))= bool andalso(if v=strip_thy s then true else false)
neuper@37954	750	\| is bool[v]dv((Const ("Bin.integ_of_bin",_)) $ _) = false
neuper@37954	751	\| is bool[v]dv (h$n$d) =
neuper@37954	752	if is_div_op(dv,h)
neuper@37954	753	then (is false[v]dv n)orelse(is true[v]dv d)
neuper@37954	754	else (is bool [v]dv n)orelse(is bool[v]dv d)
neuper@37954	755	in is false (varids bdVar) (strip_thy div_op) t end;
neuper@37954	756
neuper@37954	757
neuper@37954	758	fun rational t div_op bdVar =
neuper@37954	759	is_denom bdVar div_op t andalso bin_ops_only t;
neuper@37954	760
neuper@38001	761	*}
neuper@38001	762	ML {*
neuper@37954	763
neuper@37954	764	( problem types )
neuper@37954	765
neuper@37954	766	store_pbt
neuper@37972	767	(prep_pbt thy "pbl_test_uni_plain2" [] e_pblID
neuper@37954	768	(["plain_square","univariate","equation","test"],
neuper@37981	769	[("#Given" ,["equality e_e","solveFor v_v"]),
neuper@38001	770	("#Where" ,["(matches (?a + ?b*v_v ^^^2 = 0) e_e) \|" ^
neuper@38001	771	"(matches ( ?b*v_v ^^^2 = 0) e_e) \|" ^
neuper@37981	772	"(matches (?a + v_v ^^^2 = 0) e_e) \|" ^
neuper@37981	773	"(matches ( v_v ^^^2 = 0) e_e)"]),
neuper@38012	774	("#Find" ,["solutions v_v'i'"])
neuper@37954	775	],
neuper@52142	776	assoc_rls' @{theory} "matches",
neuper@37981	777	SOME "solve (e_e::bool, v_v)", [["Test","solve_plain_square"]]));
neuper@37954	778	(*
neuper@38001	779	val e_e = (term_of o the o (parse thy)) "e_e::bool";
neuper@37954	780	val ve = (term_of o the o (parse thy)) "4 + 3*x^^^2 = 0";
neuper@37954	781	val env = [(e_,ve)];
neuper@37954	782
neuper@37954	783	val pre = (term_of o the o (parse thy))
neuper@38001	784	"(matches (a + b*v_v ^^^2 = 0, e_e::bool)) \|" ^
neuper@38001	785	"(matches ( b*v_v ^^^2 = 0, e_e::bool)) \|" ^
neuper@37981	786	"(matches (a + v_v ^^^2 = 0, e_e::bool)) \|" ^
neuper@37981	787	"(matches ( v_v ^^^2 = 0, e_e::bool))";
neuper@37954	788	val prei = subst_atomic env pre;
neuper@37954	789	val cpre = (cterm_of thy) prei;
neuper@37954	790
neuper@37954	791	val SOME (ct,_) = rewrite_set_ thy false tval_rls cpre;
neuper@37954	792	val ct = "True \| False \| False \| False" : cterm
neuper@37954	793
neuper@37954	794	> val SOME (ct,_) = rewrite_ thy sqrt_right tval_rls false or_false ct;
neuper@37954	795	> val SOME (ct,_) = rewrite_ thy sqrt_right tval_rls false or_false ct;
neuper@37954	796	> val SOME (ct,_) = rewrite_ thy sqrt_right tval_rls false or_false ct;
neuper@41928	797	val ct = "HOL.True" : cterm
neuper@37954	798
neuper@37954	799	*)
neuper@37954	800
neuper@38001	801	*}
neuper@38001	802	ML {*
neuper@37954	803	store_pbt
neuper@37972	804	(prep_pbt thy "pbl_test_uni_poly" [] e_pblID
neuper@37954	805	(["polynomial","univariate","equation","test"],
neuper@38001	806	[("#Given" ,["equality (v_v ^^^2 + p_p * v_v + q__q = 0)","solveFor v_v"]),
neuper@41928	807	("#Where" ,["HOL.False"]),
neuper@38012	808	("#Find" ,["solutions v_v'i'"])
neuper@37954	809	],
neuper@37981	810	e_rls, SOME "solve (e_e::bool, v_v)", []));
neuper@37954	811
neuper@37954	812	store_pbt
neuper@37972	813	(prep_pbt thy "pbl_test_uni_poly_deg2" [] e_pblID
neuper@37954	814	(["degree_two","polynomial","univariate","equation","test"],
neuper@38001	815	[("#Given" ,["equality (v_v ^^^2 + p_p * v_v + q__q = 0)","solveFor v_v"]),
neuper@38012	816	("#Find" ,["solutions v_v'i'"])
neuper@37954	817	],
neuper@38001	818	e_rls, SOME "solve (v_v ^^^2 + p_p * v_v + q__q = 0, v_v)", []));
neuper@37954	819
neuper@37954	820	store_pbt
neuper@37972	821	(prep_pbt thy "pbl_test_uni_poly_deg2_pq" [] e_pblID
neuper@37954	822	(["pq_formula","degree_two","polynomial","univariate","equation","test"],
neuper@38001	823	[("#Given" ,["equality (v_v ^^^2 + p_p * v_v + q__q = 0)","solveFor v_v"]),
neuper@38012	824	("#Find" ,["solutions v_v'i'"])
neuper@37954	825	],
neuper@38001	826	e_rls, SOME "solve (v_v ^^^2 + p_p * v_v + q__q = 0, v_v)", []));
neuper@37954	827
neuper@37954	828	store_pbt
neuper@37972	829	(prep_pbt thy "pbl_test_uni_poly_deg2_abc" [] e_pblID
neuper@37954	830	(["abc_formula","degree_two","polynomial","univariate","equation","test"],
neuper@38001	831	[("#Given" ,["equality (a_a * x ^^^2 + b_b * x + c_c = 0)","solveFor v_v"]),
neuper@38012	832	("#Find" ,["solutions v_v'i'"])
neuper@37954	833	],
neuper@38001	834	e_rls, SOME "solve (a_a * x ^^^2 + b_b * x + c_c = 0, v_v)", []));
neuper@37954	835
neuper@38001	836	*}
neuper@38001	837	ML {*
neuper@37954	838	store_pbt
neuper@37972	839	(prep_pbt thy "pbl_test_uni_root" [] e_pblID
neuper@37954	840	(["squareroot","univariate","equation","test"],
neuper@37981	841	[("#Given" ,["equality e_e","solveFor v_v"]),
neuper@42008	842	("#Where" ,["precond_rootpbl v_v"]),
neuper@38012	843	("#Find" ,["solutions v_v'i'"])
neuper@37954	844	],
neuper@37954	845	append_rls "contains_root" e_rls [Calc ("Test.contains'_root",
neuper@37954	846	eval_contains_root "#contains_root_")],
neuper@37981	847	SOME "solve (e_e::bool, v_v)", [["Test","square_equation"]]));
neuper@37954	848
neuper@37954	849	store_pbt
neuper@37972	850	(prep_pbt thy "pbl_test_uni_norm" [] e_pblID
neuper@37954	851	(["normalize","univariate","equation","test"],
neuper@37981	852	[("#Given" ,["equality e_e","solveFor v_v"]),
neuper@37954	853	("#Where" ,[]),
neuper@38012	854	("#Find" ,["solutions v_v'i'"])
neuper@37954	855	],
neuper@37981	856	e_rls, SOME "solve (e_e::bool, v_v)", [["Test","norm_univar_equation"]]));
neuper@37954	857
neuper@37954	858	store_pbt
neuper@37972	859	(prep_pbt thy "pbl_test_uni_roottest" [] e_pblID
neuper@37954	860	(["sqroot-test","univariate","equation","test"],
neuper@37981	861	[("#Given" ,["equality e_e","solveFor v_v"]),
neuper@42008	862	("#Where" ,["precond_rootpbl v_v"]),
neuper@38012	863	("#Find" ,["solutions v_v'i'"])
neuper@37954	864	],
neuper@37981	865	e_rls, SOME "solve (e_e::bool, v_v)", []));
neuper@37954	866
neuper@41934	867	store_pbt
neuper@41934	868	(prep_pbt thy "pbl_test_intsimp" [] e_pblID
neuper@41934	869	(["inttype","test"],
neuper@41934	870	[("#Given" ,["intTestGiven t_t"]),
neuper@41934	871	("#Where" ,[]),
neuper@41934	872	("#Find" ,["intTestFind s_s"])
neuper@41934	873	],
neuper@41935	874	e_rls, NONE, [["Test","intsimp"]]));
neuper@41934	875	(*
neuper@41934	876	show_ptyps();
neuper@41934	877	get_pbt ["inttype","test"];
neuper@41934	878	*)
neuper@41934	879
neuper@38001	880	*}
neuper@41934	881
neuper@38001	882	ML {*
neuper@37954	883	store_met
neuper@37972	884	(prep_met thy "met_test_sqrt" [] e_metID
neuper@37954	885	(root-equation, version for tests before 8.01.01)
neuper@37954	886	(["Test","sqrt-equ-test"]:metID,
neuper@37981	887	[("#Given" ,["equality e_e","solveFor v_v"]),
neuper@37981	888	("#Where" ,["contains_root (e_e::bool)"]),
neuper@38012	889	("#Find" ,["solutions v_v'i'"])
neuper@37954	890	],
neuper@37954	891	{rew_ord'="e_rew_ord",rls'=tval_rls,
neuper@37954	892	srls =append_rls "srls_contains_root" e_rls
neuper@37954	893	[Calc ("Test.contains'_root",eval_contains_root "")],
neuper@37954	894	prls =append_rls "prls_contains_root" e_rls
neuper@37954	895	[Calc ("Test.contains'_root",eval_contains_root "")],
neuper@37954	896	calc=[],
neuper@42425	897	crls=tval_rls, errpats = [], nrls = e_rls(*,asm_rls=[],
neuper@37954	898	asm_thm=[("square_equation_left",""),
neuper@37954	899	("square_equation_right","")]*)},
neuper@37982	900	"Script Solve_root_equation (e_e::bool) (v_v::real) = " ^
neuper@37981	901	"(let e_e = " ^
neuper@37981	902	" ((While (contains_root e_e) Do" ^
neuper@37954	903	" ((Rewrite square_equation_left True) @@" ^
neuper@37954	904	" (Try (Rewrite_Set Test_simplify False)) @@" ^
neuper@37954	905	" (Try (Rewrite_Set rearrange_assoc False)) @@" ^
neuper@37954	906	" (Try (Rewrite_Set isolate_root False)) @@" ^
neuper@37954	907	" (Try (Rewrite_Set Test_simplify False)))) @@" ^
neuper@37954	908	" (Try (Rewrite_Set norm_equation False)) @@" ^
neuper@37954	909	" (Try (Rewrite_Set Test_simplify False)) @@" ^
neuper@37991	910	" (Rewrite_Set_Inst [(bdv,v_v::real)] isolate_bdv False) @@" ^
neuper@37954	911	" (Try (Rewrite_Set Test_simplify False)))" ^
neuper@37981	912	" e_e" ^
neuper@38001	913	" in [e_e::bool])"
neuper@37954	914	));
neuper@37954	915
neuper@38001	916	*}
neuper@38001	917	ML {*
neuper@37954	918	store_met
neuper@37972	919	(prep_met thy "met_test_sqrt2" [] e_metID
neuper@37954	920	(root-equation ... for test-.sml until 8.01*)
neuper@37954	921	(["Test","squ-equ-test2"]:metID,
neuper@37981	922	[("#Given" ,["equality e_e","solveFor v_v"]),
neuper@38012	923	("#Find" ,["solutions v_v'i'"])
neuper@37954	924	],
neuper@37954	925	{rew_ord'="e_rew_ord",rls'=tval_rls,
neuper@37954	926	srls = append_rls "srls_contains_root" e_rls
neuper@37954	927	[Calc ("Test.contains'_root",eval_contains_root"")],
neuper@37954	928	prls=e_rls,calc=[],
neuper@42425	929	crls=tval_rls, errpats = [], nrls = e_rls(*,asm_rls=[],
neuper@37954	930	asm_thm=[("square_equation_left",""),
neuper@37954	931	("square_equation_right","")]*)},
neuper@37982	932	"Script Solve_root_equation (e_e::bool) (v_v::real) = " ^
neuper@37981	933	"(let e_e = " ^
neuper@37981	934	" ((While (contains_root e_e) Do" ^
neuper@37954	935	" ((Rewrite square_equation_left True) @@" ^
neuper@37954	936	" (Try (Rewrite_Set Test_simplify False)) @@" ^
neuper@37954	937	" (Try (Rewrite_Set rearrange_assoc False)) @@" ^
neuper@37954	938	" (Try (Rewrite_Set isolate_root False)) @@" ^
neuper@37954	939	" (Try (Rewrite_Set Test_simplify False)))) @@" ^
neuper@37954	940	" (Try (Rewrite_Set norm_equation False)) @@" ^
neuper@37954	941	" (Try (Rewrite_Set Test_simplify False)) @@" ^
neuper@37991	942	" (Rewrite_Set_Inst [(bdv,v_v::real)] isolate_bdv False) @@" ^
neuper@37954	943	" (Try (Rewrite_Set Test_simplify False)))" ^
neuper@37991	944	" e_e;" ^
neuper@38001	945	" (L_L::bool list) = Tac subproblem_equation_dummy; " ^
neuper@37991	946	" L_L = Tac solve_equation_dummy " ^
neuper@37991	947	" in Check_elementwise L_L {(v_v::real). Assumptions})"
neuper@37954	948	));
neuper@37954	949
neuper@38001	950	*}
neuper@38001	951	ML {*
neuper@37954	952	store_met
neuper@37972	953	(prep_met thy "met_test_squ_sub" [] e_metID
neuper@37954	954	(tests subproblem fixed linear)
neuper@37954	955	(["Test","squ-equ-test-subpbl1"]:metID,
neuper@37981	956	[("#Given" ,["equality e_e","solveFor v_v"]),
neuper@42008	957	("#Where" ,["precond_rootmet v_v"]),
neuper@38012	958	("#Find" ,["solutions v_v'i'"])
neuper@37954	959	],
neuper@42008	960	{rew_ord' = "e_rew_ord", rls' = tval_rls, srls = e_rls,
neuper@42008	961	prls = append_rls "prls_met_test_squ_sub" e_rls
neuper@42010	962	[Calc ("Test.precond'_rootmet", eval_precond_rootmet "")],
neuper@42425	963	calc=[], crls=tval_rls, errpats = [], nrls = Test_simplify},
neuper@42025	964	"Script Solve_root_equation (e_e::bool) (v_v::real) = " ^
neuper@42025	965	" (let e_e = ((Try (Rewrite_Set norm_equation False)) @@ " ^
neuper@42025	966	" (Try (Rewrite_Set Test_simplify False))) e_e; " ^
neuper@42025	967	" (L_L::bool list) = " ^
neuper@42025	968	" (SubProblem (Test', " ^
neuper@42025	969	" [linear,univariate,equation,test]," ^
neuper@42025	970	" [Test,solve_linear]) " ^
neuper@42025	971	" [BOOL e_e, REAL v_v]) " ^
neuper@42025	972	" in Check_elementwise L_L {(v_v::real). Assumptions}) "
neuper@37954	973	));
neuper@37954	974
neuper@38001	975	*}
neuper@38001	976	ML {*
neuper@37954	977	store_met
neuper@37972	978	(prep_met thy "met_test_squ_sub2" [] e_metID
neuper@37954	979	(tests subproblem fixed degree 2)
neuper@37954	980	(["Test","squ-equ-test-subpbl2"]:metID,
neuper@37981	981	[("#Given" ,["equality e_e","solveFor v_v"]),
neuper@38012	982	("#Find" ,["solutions v_v'i'"])
neuper@37954	983	],
neuper@37954	984	{rew_ord'="e_rew_ord",rls'=tval_rls,srls=e_rls,prls=e_rls,calc=[],
neuper@42425	985	crls=tval_rls, errpats = [], nrls = e_rls(*,
neuper@37954	986	asm_rls=[],asm_thm=[("square_equation_left",""),
neuper@37954	987	("square_equation_right","")]*)},
neuper@37982	988	"Script Solve_root_equation (e_e::bool) (v_v::real) = " ^
neuper@37991	989	" (let e_e = Try (Rewrite_Set norm_equation False) e_e; " ^
neuper@38001	990	"(L_L::bool list) = (SubProblem (Test',[linear,univariate,equation,test]," ^
neuper@38001	991	" [Test,solve_by_pq_formula]) [BOOL e_e, REAL v_v])" ^
neuper@37991	992	"in Check_elementwise L_L {(v_v::real). Assumptions})"
neuper@37954	993	));
neuper@37954	994
neuper@38001	995	*}
neuper@38001	996	ML {*
neuper@37954	997	store_met
neuper@37972	998	(prep_met thy "met_test_squ_nonterm" [] e_metID
neuper@37954	999	(root-equation: see foils..., but notTerminating)
neuper@37954	1000	(["Test","square_equation...notTerminating"]:metID,
neuper@37981	1001	[("#Given" ,["equality e_e","solveFor v_v"]),
neuper@38012	1002	("#Find" ,["solutions v_v'i'"])
neuper@37954	1003	],
neuper@37954	1004	{rew_ord'="e_rew_ord",rls'=tval_rls,
neuper@37954	1005	srls = append_rls "srls_contains_root" e_rls
neuper@37954	1006	[Calc ("Test.contains'_root",eval_contains_root"")],
neuper@37954	1007	prls=e_rls,calc=[],
neuper@42425	1008	crls=tval_rls, errpats = [], nrls = e_rls(*,asm_rls=[],
neuper@37954	1009	asm_thm=[("square_equation_left",""),
neuper@37954	1010	("square_equation_right","")]*)},
neuper@37982	1011	"Script Solve_root_equation (e_e::bool) (v_v::real) = " ^
neuper@37981	1012	"(let e_e = " ^
neuper@37981	1013	" ((While (contains_root e_e) Do" ^
neuper@37954	1014	" ((Rewrite square_equation_left True) @@" ^
neuper@37954	1015	" (Try (Rewrite_Set Test_simplify False)) @@" ^
neuper@37954	1016	" (Try (Rewrite_Set rearrange_assoc False)) @@" ^
neuper@37954	1017	" (Try (Rewrite_Set isolate_root False)) @@" ^
neuper@37954	1018	" (Try (Rewrite_Set Test_simplify False)))) @@" ^
neuper@37954	1019	" (Try (Rewrite_Set norm_equation False)) @@" ^
neuper@37954	1020	" (Try (Rewrite_Set Test_simplify False)))" ^
neuper@37991	1021	" e_e;" ^
neuper@38001	1022	" (L_L::bool list) = " ^
neuper@38001	1023	" (SubProblem (Test',[linear,univariate,equation,test]," ^
neuper@38001	1024	" [Test,solve_linear]) [BOOL e_e, REAL v_v])" ^
neuper@37991	1025	"in Check_elementwise L_L {(v_v::real). Assumptions})"
neuper@37954	1026	));
neuper@37954	1027
neuper@38001	1028	*}
neuper@38001	1029	ML {*
neuper@37954	1030	store_met
neuper@37972	1031	(prep_met thy "met_test_eq1" [] e_metID
neuper@37954	1032	(root-equation1:)
neuper@37954	1033	(["Test","square_equation1"]:metID,
neuper@37981	1034	[("#Given" ,["equality e_e","solveFor v_v"]),
neuper@38012	1035	("#Find" ,["solutions v_v'i'"])
neuper@37954	1036	],
neuper@37954	1037	{rew_ord'="e_rew_ord",rls'=tval_rls,
neuper@37954	1038	srls = append_rls "srls_contains_root" e_rls
neuper@37954	1039	[Calc ("Test.contains'_root",eval_contains_root"")],
neuper@37954	1040	prls=e_rls,calc=[],
neuper@42425	1041	crls=tval_rls, errpats = [], nrls = e_rls(*,asm_rls=[],
neuper@37954	1042	asm_thm=[("square_equation_left",""),
neuper@37954	1043	("square_equation_right","")]*)},
neuper@37982	1044	"Script Solve_root_equation (e_e::bool) (v_v::real) = " ^
neuper@37981	1045	"(let e_e = " ^
neuper@37981	1046	" ((While (contains_root e_e) Do" ^
neuper@37954	1047	" ((Rewrite square_equation_left True) @@" ^
neuper@37954	1048	" (Try (Rewrite_Set Test_simplify False)) @@" ^
neuper@37954	1049	" (Try (Rewrite_Set rearrange_assoc False)) @@" ^
neuper@37954	1050	" (Try (Rewrite_Set isolate_root False)) @@" ^
neuper@37954	1051	" (Try (Rewrite_Set Test_simplify False)))) @@" ^
neuper@37954	1052	" (Try (Rewrite_Set norm_equation False)) @@" ^
neuper@37954	1053	" (Try (Rewrite_Set Test_simplify False)))" ^
neuper@37991	1054	" e_e;" ^
neuper@38001	1055	" (L_L::bool list) = (SubProblem (Test',[linear,univariate,equation,test]," ^
neuper@38001	1056	" [Test,solve_linear]) [BOOL e_e, REAL v_v])" ^
neuper@37991	1057	" in Check_elementwise L_L {(v_v::real). Assumptions})"
neuper@37954	1058	));
neuper@37954	1059
neuper@38001	1060	*}
neuper@38001	1061	ML {*
neuper@37954	1062	store_met
neuper@37972	1063	(prep_met thy "met_test_squ2" [] e_metID
neuper@37954	1064	(root-equation2)
neuper@37954	1065	(["Test","square_equation2"]:metID,
neuper@37981	1066	[("#Given" ,["equality e_e","solveFor v_v"]),
neuper@38012	1067	("#Find" ,["solutions v_v'i'"])
neuper@37954	1068	],
neuper@37954	1069	{rew_ord'="e_rew_ord",rls'=tval_rls,
neuper@37954	1070	srls = append_rls "srls_contains_root" e_rls
neuper@37954	1071	[Calc ("Test.contains'_root",eval_contains_root"")],
neuper@37954	1072	prls=e_rls,calc=[],
neuper@42425	1073	crls=tval_rls, errpats = [], nrls = e_rls(*,asm_rls=[],
neuper@37954	1074	asm_thm=[("square_equation_left",""),
neuper@37954	1075	("square_equation_right","")]*)},
neuper@37982	1076	"Script Solve_root_equation (e_e::bool) (v_v::real) = " ^
neuper@37981	1077	"(let e_e = " ^
neuper@37981	1078	" ((While (contains_root e_e) Do" ^
neuper@37954	1079	" (((Rewrite square_equation_left True) Or " ^
neuper@37954	1080	" (Rewrite square_equation_right True)) @@" ^
neuper@37954	1081	" (Try (Rewrite_Set Test_simplify False)) @@" ^
neuper@37954	1082	" (Try (Rewrite_Set rearrange_assoc False)) @@" ^
neuper@37954	1083	" (Try (Rewrite_Set isolate_root False)) @@" ^
neuper@37954	1084	" (Try (Rewrite_Set Test_simplify False)))) @@" ^
neuper@37954	1085	" (Try (Rewrite_Set norm_equation False)) @@" ^
neuper@37954	1086	" (Try (Rewrite_Set Test_simplify False)))" ^
neuper@37991	1087	" e_e;" ^
neuper@38001	1088	" (L_L::bool list) = (SubProblem (Test',[plain_square,univariate,equation,test]," ^
neuper@38001	1089	" [Test,solve_plain_square]) [BOOL e_e, REAL v_v])" ^
neuper@37991	1090	" in Check_elementwise L_L {(v_v::real). Assumptions})"
neuper@37954	1091	));
neuper@37954	1092
neuper@38001	1093	*}
neuper@38001	1094	ML {*
neuper@37954	1095	store_met
neuper@37972	1096	(prep_met thy "met_test_squeq" [] e_metID
neuper@37954	1097	(root-equation)
neuper@37954	1098	(["Test","square_equation"]:metID,
neuper@37981	1099	[("#Given" ,["equality e_e","solveFor v_v"]),
neuper@38012	1100	("#Find" ,["solutions v_v'i'"])
neuper@37954	1101	],
neuper@37954	1102	{rew_ord'="e_rew_ord",rls'=tval_rls,
neuper@37954	1103	srls = append_rls "srls_contains_root" e_rls
neuper@37954	1104	[Calc ("Test.contains'_root",eval_contains_root"")],
neuper@37954	1105	prls=e_rls,calc=[],
neuper@42425	1106	crls=tval_rls, errpats = [], nrls = e_rls(*,asm_rls=[],
neuper@37954	1107	asm_thm=[("square_equation_left",""),
neuper@37954	1108	("square_equation_right","")]*)},
neuper@37982	1109	"Script Solve_root_equation (e_e::bool) (v_v::real) = " ^
neuper@37981	1110	"(let e_e = " ^
neuper@37981	1111	" ((While (contains_root e_e) Do" ^
neuper@37954	1112	" (((Rewrite square_equation_left True) Or" ^
neuper@37954	1113	" (Rewrite square_equation_right True)) @@" ^
neuper@37954	1114	" (Try (Rewrite_Set Test_simplify False)) @@" ^
neuper@37954	1115	" (Try (Rewrite_Set rearrange_assoc False)) @@" ^
neuper@37954	1116	" (Try (Rewrite_Set isolate_root False)) @@" ^
neuper@37954	1117	" (Try (Rewrite_Set Test_simplify False)))) @@" ^
neuper@37954	1118	" (Try (Rewrite_Set norm_equation False)) @@" ^
neuper@37954	1119	" (Try (Rewrite_Set Test_simplify False)))" ^
neuper@37991	1120	" e_e;" ^
neuper@38001	1121	" (L_L::bool list) = (SubProblem (Test',[univariate,equation,test]," ^
neuper@38001	1122	" [no_met]) [BOOL e_e, REAL v_v])" ^
neuper@37991	1123	" in Check_elementwise L_L {(v_v::real). Assumptions})"
neuper@37954	1124	) ); (#######)
neuper@37954	1125
neuper@38001	1126	*}
neuper@38001	1127	ML {*
neuper@37954	1128	store_met
neuper@37972	1129	(prep_met thy "met_test_eq_plain" [] e_metID
neuper@37954	1130	(solve_plain_square)
neuper@37954	1131	(["Test","solve_plain_square"]:metID,
neuper@37981	1132	[("#Given",["equality e_e","solveFor v_v"]),
neuper@38001	1133	("#Where" ,["(matches (?a + ?b*v_v ^^^2 = 0) e_e) \|" ^
neuper@38001	1134	"(matches ( ?b*v_v ^^^2 = 0) e_e) \|" ^
neuper@37981	1135	"(matches (?a + v_v ^^^2 = 0) e_e) \|" ^
neuper@37981	1136	"(matches ( v_v ^^^2 = 0) e_e)"]),
neuper@38012	1137	("#Find" ,["solutions v_v'i'"])
neuper@37954	1138	],
neuper@37954	1139	{rew_ord'="e_rew_ord",rls'=tval_rls,calc=[],srls=e_rls,
neuper@52142	1140	prls = assoc_rls' @{theory} "matches",
neuper@42425	1141	crls=tval_rls, errpats = [], nrls = e_rls(*,
neuper@37954	1142	asm_rls=[],asm_thm=[]*)},
neuper@37982	1143	"Script Solve_plain_square (e_e::bool) (v_v::real) = " ^
neuper@37981	1144	" (let e_e = ((Try (Rewrite_Set isolate_bdv False)) @@ " ^
neuper@37954	1145	" (Try (Rewrite_Set Test_simplify False)) @@ " ^
neuper@37954	1146	" ((Rewrite square_equality_0 False) Or " ^
neuper@37954	1147	" (Rewrite square_equality True)) @@ " ^
neuper@37981	1148	" (Try (Rewrite_Set tval_rls False))) e_e " ^
neuper@37981	1149	" in ((Or_to_List e_e)::bool list))"
neuper@37954	1150	));
neuper@37954	1151
neuper@38001	1152	*}
neuper@41935	1153
neuper@38001	1154	ML {*
neuper@37954	1155	store_met
neuper@37972	1156	(prep_met thy "met_test_norm_univ" [] e_metID
neuper@37954	1157	(["Test","norm_univar_equation"]:metID,
neuper@37981	1158	[("#Given",["equality e_e","solveFor v_v"]),
neuper@37954	1159	("#Where" ,[]),
neuper@38012	1160	("#Find" ,["solutions v_v'i'"])
neuper@37954	1161	],
neuper@37954	1162	{rew_ord'="e_rew_ord",rls'=tval_rls,srls = e_rls,prls=e_rls,
neuper@37954	1163	calc=[],
neuper@42425	1164	crls=tval_rls, errpats = [], nrls = e_rls},
neuper@37982	1165	"Script Norm_univar_equation (e_e::bool) (v_v::real) = " ^
neuper@37981	1166	" (let e_e = ((Try (Rewrite rnorm_equation_add False)) @@ " ^
neuper@37981	1167	" (Try (Rewrite_Set Test_simplify False))) e_e " ^
neuper@38001	1168	" in (SubProblem (Test',[univariate,equation,test], " ^
neuper@38001	1169	" [no_met]) [BOOL e_e, REAL v_v]))"
neuper@37954	1170	));
neuper@37954	1171
neuper@41934	1172	(17.9.02 aus SqRoot.ML------------------------------^^^---)
neuper@37954	1173
neuper@41934	1174	store_met
neuper@41934	1175	(prep_met thy "met_test_intsimp" [] e_metID
neuper@41934	1176	(["Test","intsimp"]:metID,
neuper@41934	1177	[("#Given" ,["intTestGiven t_t"]),
neuper@41934	1178	("#Where" ,[]),
neuper@41934	1179	("#Find" ,["intTestFind s_s"])
neuper@41934	1180	],
neuper@41934	1181	{rew_ord' = "e_rew_ord", rls' = tval_rls, srls = e_rls,
neuper@42425	1182	prls = e_rls, calc = [], crls = tval_rls, errpats = [], nrls = Test_simplify},
neuper@41934	1183	"Script STest_simplify (t_t::int) = " ^
neuper@41934	1184	"(Repeat " ^
neuper@41934	1185	" ((Try (Calculate PLUS)) @@ " ^
neuper@41935	1186	" (Try (Calculate TIMES))) t_t::int)"
neuper@41934	1187	));
neuper@37954	1188
neuper@38001	1189	*}
neuper@41934	1190
neuper@38001	1191	ML {*
neuper@37954	1192	(*8.4.03 aus Poly.ML--------------------------------vvv---
neuper@37954	1193	make_polynomial ---> make_poly
neuper@37954	1194	^-- for user ^-- for systest _ONLY_*)
neuper@37954	1195
neuper@37954	1196	local (. for make_polytest .)
neuper@37954	1197
neuper@37954	1198	open Term; (* for type order = EQUAL \| LESS \| GREATER *)
neuper@37954	1199
neuper@37954	1200	fun pr_ord EQUAL = "EQUAL"
neuper@37954	1201	\| pr_ord LESS = "LESS"
neuper@37954	1202	\| pr_ord GREATER = "GREATER";
neuper@37954	1203
neuper@37954	1204	fun dest_hd' (Const (a, T)) = (* ~ term.ML *)
neuper@37954	1205	(case a of
neuper@37954	1206	"Atools.pow" => ((("\|\|\|\|\|\|\|\|\|\|\|\|\|", 0), T), 0) (WN greatest )
neuper@37954	1207	\| _ => (((a, 0), T), 0))
neuper@37954	1208	\| dest_hd' (Free (a, T)) = (((a, 0), T), 1)
neuper@37954	1209	\| dest_hd' (Var v) = (v, 2)
neuper@37954	1210	\| dest_hd' (Bound i) = ((("", i), dummyT), 3)
neuper@37954	1211	\| dest_hd' (Abs (_, T, _)) = ((("", 0), T), 4);
neuper@37954	1212	(* RL *)
neuper@37954	1213	fun get_order_pow (t $ (Free(order,_))) =
neuper@37954	1214	(case int_of_str (order) of
neuper@37954	1215	SOME d => d
neuper@37954	1216	\| NONE => 0)
neuper@37954	1217	\| get_order_pow _ = 0;
neuper@37954	1218
neuper@37954	1219	fun size_of_term' (Const(str,_) $ t) =
neuper@37954	1220	if "Atools.pow"=str then 1000 + size_of_term' t else 1 + size_of_term' t(WN)
neuper@37954	1221	\| size_of_term' (Abs (_,_,body)) = 1 + size_of_term' body
neuper@37954	1222	\| size_of_term' (f$t) = size_of_term' f + size_of_term' t
neuper@37954	1223	\| size_of_term' _ = 1;
neuper@38001	1224	fun term_ord' pr thy (Abs (_, T, t), Abs(_, U, u)) = (* ~ term.ML *)
neuper@38053	1225	(case term_ord' pr thy (t, u) of EQUAL => Term_Ord.typ_ord (T, U)
neuper@38053	1226	\| ord => ord)
neuper@38001	1227	\| term_ord' pr thy (t, u) =
neuper@38053	1228	(if pr then
neuper@38053	1229	let val (f, ts) = strip_comb t and (g, us) = strip_comb u;
neuper@38053	1230	val _ = tracing ("t= f@ts= \"" ^ term2str f ^ "\" @ \"[" ^
neuper@38053	1231	commas(map term2str ts) ^ "]\"")
neuper@38053	1232	val _ = tracing ("u= g@us= \"" ^ term2str g ^"\" @ \"[" ^
neuper@38053	1233	commas(map term2str us) ^"]\"")
neuper@38053	1234	val _ = tracing ("size_of_term(t,u)= (" ^
neuper@38053	1235	string_of_int (size_of_term' t) ^ ", " ^
neuper@38053	1236	string_of_int (size_of_term' u) ^ ")")
neuper@38053	1237	val _ = tracing ("hd_ord(f,g) = " ^ (pr_ord o hd_ord) (f,g))
neuper@38053	1238	val _ = tracing ("terms_ord(ts,us) = " ^
neuper@38053	1239	(pr_ord o terms_ord str false) (ts,us));
neuper@38053	1240	val _ = tracing "-------"
neuper@37954	1241	in () end
neuper@37954	1242	else ();
neuper@37954	1243	case int_ord (size_of_term' t, size_of_term' u) of
neuper@37954	1244	EQUAL =>
neuper@37954	1245	let val (f, ts) = strip_comb t and (g, us) = strip_comb u in
neuper@37954	1246	(case hd_ord (f, g) of EQUAL => (terms_ord str pr) (ts, us)
neuper@37954	1247	\| ord => ord)
neuper@37954	1248	end
neuper@37954	1249	\| ord => ord)
neuper@37954	1250	and hd_ord (f, g) = (* ~ term.ML *)
neuper@37991	1251	prod_ord (prod_ord Term_Ord.indexname_ord Term_Ord.typ_ord) int_ord (dest_hd' f, dest_hd' g)
neuper@37954	1252	and terms_ord str pr (ts, us) =
neuper@37991	1253	list_ord (term_ord' pr (assoc_thy "Isac"))(ts, us);
neuper@37954	1254	in
neuper@37954	1255
neuper@37954	1256	fun ord_make_polytest (pr:bool) thy (_:subst) tu =
neuper@37954	1257	(term_ord' pr thy(***) tu = LESS );
neuper@37954	1258
neuper@37954	1259	end;(local)
neuper@38001	1260	*}
neuper@38001	1261	ML {*
neuper@37954	1262
neuper@37954	1263	rew_ord' := overwritel (!rew_ord',
neuper@37954	1264	[("termlessI", termlessI),
neuper@37954	1265	("ord_make_polytest", ord_make_polytest false thy)
neuper@37954	1266	]);
neuper@37954	1267
neuper@37954	1268	(*WN060510 this was a preparation for prep_rls ...
neuper@37954	1269	val scr_make_polytest =
neuper@38001	1270	"Script Expand_binomtest t_t =" ^
neuper@37954	1271	"(Repeat " ^
neuper@37954	1272	"((Try (Repeat (Rewrite real_diff_minus False))) @@ " ^
neuper@37954	1273
neuper@52062	1274	" (Try (Repeat (Rewrite distrib_right False))) @@ " ^
neuper@52062	1275	" (Try (Repeat (Rewrite distrib_left False))) @@ " ^
neuper@37971	1276	" (Try (Repeat (Rewrite left_diff_distrib False))) @@ " ^
neuper@37971	1277	" (Try (Repeat (Rewrite right_diff_distrib False))) @@ " ^
neuper@37954	1278
neuper@37971	1279	" (Try (Repeat (Rewrite mult_1_left False))) @@ " ^
neuper@37971	1280	" (Try (Repeat (Rewrite mult_zero_left False))) @@ " ^
neuper@37971	1281	" (Try (Repeat (Rewrite add_0_left False))) @@ " ^
neuper@37954	1282
neuper@48763	1283	" (Try (Repeat (Rewrite mult_commute False))) @@ " ^
neuper@37954	1284	" (Try (Repeat (Rewrite real_mult_left_commute False))) @@ " ^
neuper@48763	1285	" (Try (Repeat (Rewrite mult_assoc False))) @@ " ^
neuper@37971	1286	" (Try (Repeat (Rewrite add_commute False))) @@ " ^
neuper@37971	1287	" (Try (Repeat (Rewrite add_left_commute False))) @@ " ^
neuper@37971	1288	" (Try (Repeat (Rewrite add_assoc False))) @@ " ^
neuper@37954	1289
neuper@37954	1290	" (Try (Repeat (Rewrite sym_realpow_twoI False))) @@ " ^
neuper@37954	1291	" (Try (Repeat (Rewrite realpow_plus_1 False))) @@ " ^
neuper@37954	1292	" (Try (Repeat (Rewrite sym_real_mult_2 False))) @@ " ^
neuper@37954	1293	" (Try (Repeat (Rewrite real_mult_2_assoc False))) @@ " ^
neuper@37954	1294
neuper@37954	1295	" (Try (Repeat (Rewrite real_num_collect False))) @@ " ^
neuper@37954	1296	" (Try (Repeat (Rewrite real_num_collect_assoc False))) @@ " ^
neuper@37954	1297
neuper@37954	1298	" (Try (Repeat (Rewrite real_one_collect False))) @@ " ^
neuper@37954	1299	" (Try (Repeat (Rewrite real_one_collect_assoc False))) @@ " ^
neuper@37954	1300
neuper@37975	1301	" (Try (Repeat (Calculate PLUS ))) @@ " ^
neuper@37975	1302	" (Try (Repeat (Calculate TIMES ))) @@ " ^
neuper@37975	1303	" (Try (Repeat (Calculate POWER)))) " ^
neuper@38001	1304	" t_t)";
neuper@37954	1305	-----------------------------------------------------*)
neuper@37954	1306
neuper@37954	1307	val make_polytest =
neuper@37954	1308	Rls{id = "make_polytest", preconds = []:term list,
neuper@52105	1309	rew_ord = ("ord_make_polytest", ord_make_polytest false @{theory "Poly"}),
neuper@37954	1310	erls = testerls, srls = Erls,
neuper@38014	1311	calc = [("PLUS" , ("Groups.plus_class.plus", eval_binop "#add_")),
neuper@38034	1312	("TIMES" , ("Groups.times_class.times", eval_binop "#mult_")),
neuper@37954	1313	("POWER", ("Atools.pow", eval_binop "#power_"))
neuper@42451	1314	], errpatts = [],
neuper@37969	1315	rules = [Thm ("real_diff_minus",num_str @{thm real_diff_minus}),
neuper@37954	1316	("a - b = a + (-1) b"*)
neuper@52062	1317	Thm ("distrib_right" ,num_str @{thm distrib_right}),
neuper@37954	1318	("(z1.0 + z2.0) w = z1.0 * w + z2.0 * w"*)
neuper@52062	1319	Thm ("distrib_left",num_str @{thm distrib_left}),
neuper@37954	1320	("w (z1.0 + z2.0) = w * z1.0 + w * z2.0"*)
neuper@37965	1321	Thm ("left_diff_distrib" ,num_str @{thm left_diff_distrib}),
neuper@37954	1322	("(z1.0 - z2.0) w = z1.0 * w - z2.0 * w"*)
neuper@37982	1323	Thm ("right_diff_distrib",num_str @{thm right_diff_distrib}),
neuper@37954	1324	("w (z1.0 - z2.0) = w * z1.0 - w * z2.0"*)
neuper@37965	1325	Thm ("mult_1_left",num_str @{thm mult_1_left}),
neuper@37954	1326	("1 z = z"*)
neuper@37965	1327	Thm ("mult_zero_left",num_str @{thm mult_zero_left}),
neuper@37954	1328	("0 z = 0"*)
neuper@37965	1329	Thm ("add_0_left",num_str @{thm add_0_left}),
neuper@37954	1330	("0 + z = z")
neuper@37954	1331
neuper@37954	1332	(AC-rewriting)
neuper@48763	1333	Thm ("mult_commute",num_str @{thm mult_commute}),
neuper@37954	1334	(* z * w = w * z *)
neuper@37969	1335	Thm ("real_mult_left_commute",num_str @{thm real_mult_left_commute}),
neuper@37954	1336	(z1.0 (z2.0 * z3.0) = z2.0 * (z1.0 * z3.0)*)
neuper@48763	1337	Thm ("mult_assoc",num_str @{thm mult_assoc}),
neuper@37954	1338	(z1.0 z2.0 * z3.0 = z1.0 * (z2.0 * z3.0)*)
neuper@37965	1339	Thm ("add_commute",num_str @{thm add_commute}),
neuper@37954	1340	(z + w = w + z)
neuper@37965	1341	Thm ("add_left_commute",num_str @{thm add_left_commute}),
neuper@37954	1342	(x + (y + z) = y + (x + z))
neuper@37965	1343	Thm ("add_assoc",num_str @{thm add_assoc}),
neuper@37954	1344	(z1.0 + z2.0 + z3.0 = z1.0 + (z2.0 + z3.0))
neuper@37954	1345
neuper@37969	1346	Thm ("sym_realpow_twoI",
neuper@37969	1347	num_str (@{thm realpow_twoI} RS @{thm sym})),
neuper@37954	1348	("r1 r1 = r1 ^^^ 2"*)
neuper@37969	1349	Thm ("realpow_plus_1",num_str @{thm realpow_plus_1}),
neuper@37954	1350	("r r ^^^ n = r ^^^ (n + 1)"*)
neuper@37969	1351	Thm ("sym_real_mult_2",
neuper@37969	1352	num_str (@{thm real_mult_2} RS @{thm sym})),
neuper@37954	1353	("z1 + z1 = 2 z1"*)
neuper@37969	1354	Thm ("real_mult_2_assoc",num_str @{thm real_mult_2_assoc}),
neuper@37954	1355	("z1 + (z1 + k) = 2 z1 + k"*)
neuper@37954	1356
neuper@37969	1357	Thm ("real_num_collect",num_str @{thm real_num_collect}),
neuper@37954	1358	("[\| l is_const; m is_const \|]==>l n + m * n = (l + m) * n"*)
neuper@37969	1359	Thm ("real_num_collect_assoc",num_str @{thm real_num_collect_assoc}),
neuper@37954	1360	(*"[\| l is_const; m is_const \|] ==>
neuper@37954	1361	l * n + (m * n + k) = (l + m) * n + k"*)
neuper@37969	1362	Thm ("real_one_collect",num_str @{thm real_one_collect}),
neuper@37954	1363	("m is_const ==> n + m n = (1 + m) * n"*)
neuper@37969	1364	Thm ("real_one_collect_assoc",num_str @{thm real_one_collect_assoc}),
neuper@37954	1365	("m is_const ==> k + (n + m n) = k + (1 + m) * n"*)
neuper@37954	1366
neuper@38014	1367	Calc ("Groups.plus_class.plus", eval_binop "#add_"),
neuper@38034	1368	Calc ("Groups.times_class.times", eval_binop "#mult_"),
neuper@37954	1369	Calc ("Atools.pow", eval_binop "#power_")
neuper@37954	1370	],
neuper@48763	1371	scr = EmptyScr(*Prog ((term_of o the o (parse thy))
neuper@37954	1372	scr_make_polytest)*)
neuper@38001	1373	}:rls;
neuper@38001	1374	*}
neuper@38001	1375	ML {*
neuper@38001	1376	(*WN060510 this was done before 'fun prep_rls' ...------------------------
neuper@37954	1377	val scr_expand_binomtest =
neuper@38001	1378	"Script Expand_binomtest t_t =" ^
neuper@37954	1379	"(Repeat " ^
neuper@37954	1380	"((Try (Repeat (Rewrite real_plus_binom_pow2 False))) @@ " ^
neuper@37954	1381	" (Try (Repeat (Rewrite real_plus_binom_times False))) @@ " ^
neuper@37954	1382	" (Try (Repeat (Rewrite real_minus_binom_pow2 False))) @@ " ^
neuper@37954	1383	" (Try (Repeat (Rewrite real_minus_binom_times False))) @@ " ^
neuper@37954	1384	" (Try (Repeat (Rewrite real_plus_minus_binom1 False))) @@ " ^
neuper@37954	1385	" (Try (Repeat (Rewrite real_plus_minus_binom2 False))) @@ " ^
neuper@37954	1386
neuper@37971	1387	" (Try (Repeat (Rewrite mult_1_left False))) @@ " ^
neuper@37971	1388	" (Try (Repeat (Rewrite mult_zero_left False))) @@ " ^
neuper@37971	1389	" (Try (Repeat (Rewrite add_0_left False))) @@ " ^
neuper@37954	1390
neuper@37975	1391	" (Try (Repeat (Calculate PLUS ))) @@ " ^
neuper@37975	1392	" (Try (Repeat (Calculate TIMES ))) @@ " ^
neuper@37975	1393	" (Try (Repeat (Calculate POWER))) @@ " ^
neuper@37954	1394
neuper@37954	1395	" (Try (Repeat (Rewrite sym_realpow_twoI False))) @@ " ^
neuper@37954	1396	" (Try (Repeat (Rewrite realpow_plus_1 False))) @@ " ^
neuper@37954	1397	" (Try (Repeat (Rewrite sym_real_mult_2 False))) @@ " ^
neuper@37954	1398	" (Try (Repeat (Rewrite real_mult_2_assoc False))) @@ " ^
neuper@37954	1399
neuper@37954	1400	" (Try (Repeat (Rewrite real_num_collect False))) @@ " ^
neuper@37954	1401	" (Try (Repeat (Rewrite real_num_collect_assoc False))) @@ " ^
neuper@37954	1402
neuper@37954	1403	" (Try (Repeat (Rewrite real_one_collect False))) @@ " ^
neuper@37954	1404	" (Try (Repeat (Rewrite real_one_collect_assoc False))) @@ " ^
neuper@37954	1405
neuper@37975	1406	" (Try (Repeat (Calculate PLUS ))) @@ " ^
neuper@37975	1407	" (Try (Repeat (Calculate TIMES ))) @@ " ^
neuper@37975	1408	" (Try (Repeat (Calculate POWER)))) " ^
neuper@38001	1409	" t_t)";
neuper@38001	1410	--------------------------------------------------------------------------*)
neuper@37954	1411
neuper@37954	1412	val expand_binomtest =
neuper@37954	1413	Rls{id = "expand_binomtest", preconds = [],
neuper@37954	1414	rew_ord = ("termlessI",termlessI),
neuper@37954	1415	erls = testerls, srls = Erls,
neuper@38014	1416	calc = [("PLUS" , ("Groups.plus_class.plus", eval_binop "#add_")),
neuper@38034	1417	("TIMES" , ("Groups.times_class.times", eval_binop "#mult_")),
neuper@37954	1418	("POWER", ("Atools.pow", eval_binop "#power_"))
neuper@42451	1419	], errpatts = [],
neuper@38001	1420	rules =
neuper@38001	1421	[Thm ("real_plus_binom_pow2" ,num_str @{thm real_plus_binom_pow2}),
neuper@37954	1422	("(a + b) ^^^ 2 = a ^^^ 2 + 2 a * b + b ^^^ 2"*)
neuper@38001	1423	Thm ("real_plus_binom_times" ,num_str @{thm real_plus_binom_times}),
neuper@37954	1424	("(a + b)(a + b) = ...*)
neuper@38001	1425	Thm ("real_minus_binom_pow2" ,num_str @{thm real_minus_binom_pow2}),
neuper@38001	1426	("(a - b) ^^^ 2 = a ^^^ 2 - 2 a * b + b ^^^ 2"*)
neuper@38001	1427	Thm ("real_minus_binom_times",num_str @{thm real_minus_binom_times}),
neuper@38001	1428	("(a - b)(a - b) = ...*)
neuper@38001	1429	Thm ("real_plus_minus_binom1",num_str @{thm real_plus_minus_binom1}),
neuper@38001	1430	("(a + b) (a - b) = a ^^^ 2 - b ^^^ 2"*)
neuper@38001	1431	Thm ("real_plus_minus_binom2",num_str @{thm real_plus_minus_binom2}),
neuper@38001	1432	("(a - b) (a + b) = a ^^^ 2 - b ^^^ 2"*)
neuper@38001	1433	(RL 020915)
neuper@38001	1434	Thm ("real_pp_binom_times",num_str @{thm real_pp_binom_times}),
neuper@38001	1435	((a + b)(c + d) = ac + ad + bc + bd*)
neuper@38001	1436	Thm ("real_pm_binom_times",num_str @{thm real_pm_binom_times}),
neuper@38001	1437	((a + b)(c - d) = ac - ad + bc - bd*)
neuper@38001	1438	Thm ("real_mp_binom_times",num_str @{thm real_mp_binom_times}),
neuper@38001	1439	((a - b)(c p d) = ac + ad - bc - bd*)
neuper@38001	1440	Thm ("real_mm_binom_times",num_str @{thm real_mm_binom_times}),
neuper@38001	1441	((a - b)(c p d) = ac - ad - bc + bd*)
neuper@38001	1442	Thm ("realpow_multI",num_str @{thm realpow_multI}),
neuper@38001	1443	((ab)^^^n = a^^^n * b^^^n*)
neuper@38001	1444	Thm ("real_plus_binom_pow3",num_str @{thm real_plus_binom_pow3}),
neuper@38001	1445	(* (a + b)^^^3 = a^^^3 + 3a^^^2b + 3ab^^^2 + b^^^3 *)
neuper@38001	1446	Thm ("real_minus_binom_pow3",num_str @{thm real_minus_binom_pow3}),
neuper@38001	1447	(* (a - b)^^^3 = a^^^3 - 3a^^^2b + 3ab^^^2 - b^^^3 *)
neuper@37954	1448
neuper@37954	1449
neuper@52062	1450	(* Thm ("distrib_right" ,num_str @{thm distrib_right}),
neuper@38001	1451	("(z1.0 + z2.0) w = z1.0 * w + z2.0 * w"*)
neuper@52062	1452	Thm ("distrib_left",num_str @{thm distrib_left}),
neuper@38001	1453	("w (z1.0 + z2.0) = w * z1.0 + w * z2.0"*)
neuper@38001	1454	Thm ("left_diff_distrib" ,num_str @{thm left_diff_distrib}),
neuper@38001	1455	("(z1.0 - z2.0) w = z1.0 * w - z2.0 * w"*)
neuper@38001	1456	Thm ("right_diff_distrib",num_str @{thm right_diff_distrib}),
neuper@38001	1457	("w (z1.0 - z2.0) = w * z1.0 - w * z2.0"*)
neuper@38001	1458	*)
neuper@38001	1459
neuper@38001	1460	Thm ("mult_1_left",num_str @{thm mult_1_left}),
neuper@38001	1461	("1 z = z"*)
neuper@38001	1462	Thm ("mult_zero_left",num_str @{thm mult_zero_left}),
neuper@38001	1463	("0 z = 0"*)
neuper@38001	1464	Thm ("add_0_left",num_str @{thm add_0_left}),
neuper@38001	1465	("0 + z = z")
neuper@37954	1466
neuper@38014	1467	Calc ("Groups.plus_class.plus", eval_binop "#add_"),
neuper@38034	1468	Calc ("Groups.times_class.times", eval_binop "#mult_"),
neuper@38001	1469	Calc ("Atools.pow", eval_binop "#power_"),
neuper@38001	1470	(*
neuper@48763	1471	Thm ("mult_commute",num_str @{thm mult_commute}),
neuper@38001	1472	(AC-rewriting)
neuper@38001	1473	Thm ("real_mult_left_commute",num_str @{thm real_mult_left_commute}),
neuper@48763	1474	Thm ("mult_assoc",num_str @{thm mult_assoc}),
neuper@38001	1475	Thm ("add_commute",num_str @{thm add_commute}),
neuper@38001	1476	Thm ("add_left_commute",num_str @{thm add_left_commute}),
neuper@38001	1477	Thm ("add_assoc",num_str @{thm add_assoc}),
neuper@38001	1478	*)
neuper@38001	1479
neuper@38001	1480	Thm ("sym_realpow_twoI",
neuper@38001	1481	num_str (@{thm realpow_twoI} RS @{thm sym})),
neuper@38001	1482	("r1 r1 = r1 ^^^ 2"*)
neuper@38001	1483	Thm ("realpow_plus_1",num_str @{thm realpow_plus_1}),
neuper@38001	1484	("r r ^^^ n = r ^^^ (n + 1)"*)
neuper@38001	1485	(*Thm ("sym_real_mult_2",
neuper@38001	1486	num_str (@{thm real_mult_2} RS @{thm sym})),
neuper@38001	1487	("z1 + z1 = 2 z1"))
neuper@38001	1488	Thm ("real_mult_2_assoc",num_str @{thm real_mult_2_assoc}),
neuper@38001	1489	("z1 + (z1 + k) = 2 z1 + k"*)
neuper@37954	1490
neuper@38001	1491	Thm ("real_num_collect",num_str @{thm real_num_collect}),
neuper@38001	1492	("[\| l is_const; m is_const \|] ==> l n + m * n = (l + m) * n"*)
neuper@38001	1493	Thm ("real_num_collect_assoc",num_str @{thm real_num_collect_assoc}),
neuper@38001	1494	("[\| l is_const; m is_const \|] ==> l n + (m * n + k) = (l + m) * n + k"*)
neuper@38001	1495	Thm ("real_one_collect",num_str @{thm real_one_collect}),
neuper@38001	1496	("m is_const ==> n + m n = (1 + m) * n"*)
neuper@38001	1497	Thm ("real_one_collect_assoc",num_str @{thm real_one_collect_assoc}),
neuper@38001	1498	("m is_const ==> k + (n + m n) = k + (1 + m) * n"*)
neuper@37954	1499
neuper@38014	1500	Calc ("Groups.plus_class.plus", eval_binop "#add_"),
neuper@38034	1501	Calc ("Groups.times_class.times", eval_binop "#mult_"),
neuper@38001	1502	Calc ("Atools.pow", eval_binop "#power_")
neuper@38001	1503	],
neuper@37954	1504	scr = EmptyScr
neuper@37954	1505	(Script ((term_of o the o (parse thy)) scr_expand_binomtest))
neuper@37954	1506	}:rls;
neuper@37954	1507	*}
neuper@52125	1508	setup {* KEStore_Elems.add_rlss
neuper@52125	1509	[("make_polytest", (Context.theory_name @{theory}, prep_rls make_polytest)),
neuper@52125	1510	("expand_binomtest", (Context.theory_name @{theory}, prep_rls expand_binomtest))] *}
neuper@37906	1511
neuper@37906	1512	end

author	Mathias Lehnfeld <s1210629013@students.fh-hagenberg.at>
	Fri, 25 Oct 2013 20:58:28 +0100
changeset 52159	db46e97751eb
parent 52155	e4ddf21390fd
child 55276	ce872d7781d2
permissions	-rw-r--r--