wneuper/isa: test/Tools/isac/ADDTESTS/course/SignalProcess/Build_Inverse_Z

neuper@42301	1	(* Title: Build_Inverse_Z_Transform
neuper@42279	2	Author: Jan Rocnik
neuper@42279	3	(c) copyright due to lincense terms.
neuper@42279	4	12345678901234567890123456789012345678901234567890123456789012345678901234567890
neuper@42279	5	10 20 30 40 50 60 70 80
neuper@42279	6	*)
neuper@42279	7
jan@42298	8	theory Build_Inverse_Z_Transform imports Isac
neuper@42289	9
neuper@42289	10	begin
neuper@42279	11
neuper@42289	12	text{* We stepwise build Inverse_Z_Transform.thy as an exercise.
jan@42299	13	Because subsection "Stepwise Check the Program" requires
jan@42299	14	Inverse_Z_Transform.thy as a subtheory of Isac.thy, the setup has been changed
jan@42299	15	from "theory Inverse_Z_Transform imports Isac begin.." to the above.
neuper@42279	16
neuper@42279	17	ATTENTION WITH NAMES OF IDENTIFIERS WHEN GOING INTO INTERNALS:
neuper@42279	18	Here in this theory there are the internal names twice, for instance we have
neuper@42279	19	(Thm.derivation_name @{thm rule1} = "Build_Inverse_Z_Transform.rule1") = true;
neuper@42279	20	but actually in us will be "Inverse_Z_Transform.rule1"
neuper@42279	21	*}
neuper@42279	22	ML {val thy = @{theory Isac};}
neuper@42279	23
neuper@42279	24
neuper@42279	25	section {trials towards Z transform }
neuper@42279	26	text{===============================}
neuper@42279	27	subsection {terms}
neuper@42279	28	ML {*
neuper@42279	29	@{term "1 < \|\| z \|\|"};
neuper@42279	30	@{term "z / (z - 1)"};
neuper@42279	31	@{term "-u -n - 1"};
neuper@42279	32	@{term "-u [-n - 1]"}; ([ ] denotes lists !!!)
neuper@42279	33	@{term "z /(z - 1) = -u [-n - 1]"};Isac
neuper@42279	34	@{term "1 < \|\| z \|\| ==> z / (z - 1) = -u [-n - 1]"};
neuper@42279	35	term2str @{term "1 < \|\| z \|\| ==> z / (z - 1) = -u [-n - 1]"};
neuper@42279	36	*}
neuper@42279	37	ML {*
neuper@42279	38	(alpha --> "</alpha>" )
neuper@42279	39	@{term "\<alpha> "};
neuper@42279	40	@{term "\<delta> "};
neuper@42279	41	@{term "\<phi> "};
neuper@42279	42	@{term "\<rho> "};
neuper@42279	43	term2str @{term "\<rho> "};
neuper@42279	44	*}
neuper@42279	45
neuper@42279	46	subsection {rules}
neuper@42279	47	(axiomatization "z / (z - 1) = -u [-n - 1]" Illegal variable name: "z / (z - 1) = -u [-n - 1]" )
neuper@42279	48	(definition "z / (z - 1) = -u [-n - 1]" Bad head of lhs: existing constant "op /")
neuper@42279	49	axiomatization where
neuper@42279	50	rule1: "1 = \<delta>[n]" and
neuper@42279	51	rule2: "\|\| z \|\| > 1 ==> z / (z - 1) = u [n]" and
neuper@42279	52	rule3: "\|\| z \|\| < 1 ==> z / (z - 1) = -u [-n - 1]" and
neuper@42279	53	rule4: "\|\| z \|\| > \|\| \<alpha> \|\| ==> z / (z - \<alpha>) = \<alpha>^^^n * u [n]" and
neuper@42279	54	rule5: "\|\| z \|\| < \|\| \<alpha> \|\| ==> z / (z - \<alpha>) = -(\<alpha>^^^n) * u [-n - 1]" and
neuper@42279	55	rule6: "\|\| z \|\| > 1 ==> z/(z - 1)^^^2 = n * u [n]"
neuper@42279	56	ML {*
neuper@42279	57	@{thm rule1};
neuper@42279	58	@{thm rule2};
neuper@42279	59	@{thm rule3};
neuper@42279	60	@{thm rule4};
neuper@42279	61	*}
neuper@42279	62
neuper@42279	63	subsection {apply rules}
neuper@42279	64	ML {*
neuper@42279	65	val inverse_Z = append_rls "inverse_Z" e_rls
neuper@42279	66	[ Thm ("rule3",num_str @{thm rule3}),
neuper@42279	67	Thm ("rule4",num_str @{thm rule4}),
neuper@42279	68	Thm ("rule1",num_str @{thm rule1})
neuper@42279	69	];
neuper@42279	70
neuper@42279	71	val t = str2term "z / (z - 1) + z / (z - \<alpha>) + 1";
neuper@42279	72	val SOME (t', asm) = rewrite_set_ thy true inverse_Z t;
neuper@42279	73	term2str t' = "z / (z - ?\<delta> [?n]) + z / (z - \<alpha>) + ?\<delta> [?n]"; (attention rule1 !!!)
neuper@42279	74	*}
neuper@42279	75	ML {*
neuper@42279	76	val (thy, ro, er) = (@{theory Isac}, tless_true, eval_rls);
neuper@42279	77	*}
neuper@42279	78	ML {*
neuper@42279	79	val SOME (t, asm1) = rewrite_ thy ro er true (num_str @{thm rule3}) t;
neuper@42279	80	term2str t = "- ?u [- ?n - 1] + z / (z - \<alpha>) + 1"; (- real )
neuper@42301	81	term2str t;*}
neuper@42279	82	ML {*
neuper@42279	83	val SOME (t, asm2) = rewrite_ thy ro er true (num_str @{thm rule4}) t;
neuper@42279	84	term2str t = "- ?u [- ?n - 1] + \<alpha> ^^^ ?n * ?u [?n] + 1"; (- real )
neuper@42279	85	term2str t;
neuper@42279	86	*}
neuper@42279	87	ML {*
neuper@42279	88	val SOME (t, asm3) = rewrite_ thy ro er true (num_str @{thm rule1}) t;
neuper@42279	89	term2str t = "- ?u [- ?n - 1] + \<alpha> ^^^ ?n * ?u [?n] + ?\<delta> [?n]"; (- real )
neuper@42279	90	term2str t;
neuper@42279	91	*}
neuper@42279	92	ML {*
neuper@42279	93	terms2str (asm1 @ asm2 @ asm3);
neuper@42279	94	*}
neuper@42279	95
jan@42296	96	section {Prepare steps for CTP-based programming language}
jan@42296	97	text{*TODO insert Calculation (Referenz?!)
jan@42296	98
jan@42296	99	The goal... realized in sections below, in Sect.\ref{spec-meth} and Sect.\ref{prog-steps}
jan@42296	100
jan@42296	101	the reader is advised to jump between the subsequent subsections and the respective steps in Sect.\ref{prog-steps}
jan@42296	102
jan@42296	103	*}
jan@42296	104	subsection {prepare expression \label{prep-expr}}
jan@42297	105
neuper@42279	106	ML {*
neuper@42279	107	val ctxt = ProofContext.init_global @{theory Isac};
neuper@42279	108	val ctxt = declare_constraints' [@{term "z::real"}] ctxt;
neuper@42279	109
neuper@42279	110	val SOME fun1 = parseNEW ctxt "X z = 3 / (z - 1/4 + -1/8 * z ^^^ -1)"; term2str fun1;
neuper@42279	111	val SOME fun1' = parseNEW ctxt "X z = 3 / (z - 1/4 + -1/8 * (1/z))"; term2str fun1';
neuper@42279	112	*}
neuper@42279	113
jan@42298	114	subsubsection {multply with z}
jan@42298	115
neuper@42279	116	axiomatization where
neuper@42279	117	ruleZY: "(X z = a / b) = (X' z = a / (z * b))"
neuper@42279	118
neuper@42279	119	ML {*
neuper@42279	120	val (thy, ro, er) = (@{theory Isac}, tless_true, eval_rls);
neuper@42279	121	val SOME (fun2, asm1) = rewrite_ thy ro er true @{thm ruleZY} fun1; term2str fun2;
neuper@42279	122	val SOME (fun2', asm1) = rewrite_ thy ro er true @{thm ruleZY} fun1'; term2str fun2';
neuper@42279	123
neuper@42279	124	val SOME (fun3,_) = rewrite_set_ @{theory Isac} false norm_Rational fun2;
neuper@42279	125	term2str fun3; (fails on x^^^(-1) TODO)
neuper@42279	126	val SOME (fun3',_) = rewrite_set_ @{theory Isac} false norm_Rational fun2';
neuper@42279	127	term2str fun3'; (OK)
neuper@42289	128	*}
neuper@42279	129
jan@42298	130	subsubsection {get argument of X': z is the variable the equation is solved for}
jan@42298	131
jan@42298	132	text{*grep... Atools.thy, Tools.thy contain general utilities: eval_argument_in, eval_rhs, eval_lhs,...
jan@42298	133
jan@42298	134	grep -r "fun eva_" ... shows all functions witch can be used in a script.
jan@42298	135	lookup this files how to build and handle such functions.
jan@42298	136
jan@42298	137	the next section shows how to introduce such a function.
jan@42298	138	*}
jan@42298	139
jan@42298	140
jan@42298	141	text{---------------------------begin partial fractions snip--------------------------}
jan@42298	142
jan@42298	143	subsubsection {get the denominator out of a fraction}
jan@42298	144
jan@42298	145	text {get denominator should become a constant for the isabelle parser: }
jan@42298	146
jan@42298	147	consts
jan@42298	148
jan@42298	149	get_denominator :: "real => real"
jan@42298	150
jan@42300	151	text {*Attention Build_Inverse_Z_Transform
jan@42300	152	works only because definition was copied into Rationals.thy
jan@42300	153	*}
jan@42300	154
jan@42298	155	ML {*
jan@42298	156
neuper@42301	157	(("get_denominator", ("Rational.get_denominator", eval_get_denominator "")))
jan@42298	158	fun eval_get_denominator (thmid:string) _
neuper@42301	159	(t as Const ("Rational.get_denominator", _) $
jan@42298	160	(Const ("Rings.inverse_class.divide", _) $ num $
jan@42298	161	denom)) thy =
jan@42300	162
jan@42298	163	SOME (mk_thmid thmid ""
jan@42298	164	(Print_Mode.setmp [] (Syntax.string_of_term (thy2ctxt thy)) denom) "",
jan@42298	165	Trueprop $ (mk_equality (t, denom)))
jan@42300	166
jan@42300	167	\| eval_get_denominator _ _ _ _ = NONE;
jan@42299	168
jan@42298	169	*}
jan@42298	170
jan@42298	171	ML {*
neuper@42301	172	val thy = @{theory Isac};
neuper@42301	173	val t = term_of (the (parse thy "get_denominator ((a +x)/b)"));
neuper@42301	174	*}
neuper@42301	175	ML {*
neuper@42301	176	val Const ("Rational.get_denominator", _) $
neuper@42301	177	(Const ("Rings.inverse_class.divide", _) $ numerator $ denominator) = t;
neuper@42301	178	term2str numerator;
neuper@42301	179	term2str denominator
neuper@42301	180	*}
neuper@42301	181	ML {*
neuper@42301	182	val SOME (_, t') = eval_get_denominator "" 0 t thy;
jan@42300	183	term2str t';
jan@42298	184	*}
jan@42298	185
jan@42298	186
jan@42298	187	ML {*
jan@42298	188	(*
jan@42298	189	if term2s t' = "(argument_in M_b x) = x" then ()
jan@42298	190	else error "atools.sml:(argument_in M_b x) = x ???";
jan@42298	191	*)
jan@42298	192	*}
jan@42298	193
jan@42298	194
jan@42298	195
jan@42298	196
jan@42298	197	subsubsection {build equation from given term}
neuper@42289	198	ML {*
neuper@42279	199	val (_, expr) = HOLogic.dest_eq fun3'; term2str expr;
neuper@42289	200	val (_, denom) = HOLogic.dest_bin "Rings.inverse_class.divide" (type_of expr) expr;
neuper@42289	201	term2str denom = "-1 + -2 * z + 8 * z ^^^ 2";
neuper@42279	202	*}
neuper@42289	203	text {*we have rhs in the language, but we need a function
neuper@42289	204	which gets the denominator of a fraction*}
neuper@42289	205
jan@42297	206
jan@42297	207	text{---------------------------end partial fractions snip--------------------------}
neuper@42279	208
neuper@42279	209	subsection {solve equation}
neuper@42279	210	text {this type of equation if too general for the present program}
neuper@42279	211	ML {*
neuper@42279	212	"----------- Minisubplb/100-init-rootp (OK)bl.sml ---------------------";
neuper@42279	213	val denominator = parseNEW ctxt "z^^^2 - 1/4*z - 1/8 = 0";
neuper@42279	214	val fmz = ["equality (z^^^2 - 1/4*z - 1/8 = (0::real))", "solveFor z","solutions L"];
neuper@42279	215	val (dI',pI',mI') =("Isac", ["univariate","equation"], ["no_met"]);
neuper@42279	216	(* ^^^^^^^^^^^^^^^^^^^^^^ TODO: ISAC determines type of eq*)
neuper@42279	217	*}
neuper@42279	218	text {Does the Equation Match the Specification ?}
neuper@42279	219	ML {*
neuper@42279	220	match_pbl fmz (get_pbt ["univariate","equation"]);
neuper@42279	221	*}
neuper@42279	222	ML {Context.theory_name thy = "Isac"(==================================================)}
neuper@42279	223
neuper@42279	224	ML {*
neuper@42279	225	val denominator = parseNEW ctxt "-1/8 + -1/4*z + z^^^2 = 0";
neuper@42279	226	val fmz = (specification)
neuper@42279	227	["equality (-1/8 + (-1/4)z + z^^^2 = (0::real))", (equality*)
neuper@42279	228	"solveFor z", (bound variable)
neuper@42279	229	"solutions L"]; (identifier for solution)
jan@42300	230
neuper@42279	231	val (dI',pI',mI') =
neuper@42279	232	("Isac", ["pqFormula","degree_2","polynomial","univariate","equation"], ["no_met"]);
neuper@42279	233	*}
neuper@42279	234	text {Does the Other Equation Match the Specification ?}
neuper@42279	235	ML {*
neuper@42279	236	match_pbl fmz (get_pbt ["pqFormula","degree_2","polynomial","univariate","equation"]);
neuper@42279	237	*}
neuper@42279	238	text {Solve Equation Stepwise}
neuper@42279	239	ML {*
neuper@42279	240	val (p,_,f,nxt,_,pt) = CalcTreeTEST [(fmz, (dI',pI',mI'))];
neuper@42279	241	val (p,_,f,nxt,_,pt) = me nxt p [] pt;
neuper@42279	242	val (p,_,f,nxt,_,pt) = me nxt p [] pt;
neuper@42279	243	val (p,_,f,nxt,_,pt) = me nxt p [] pt;
neuper@42279	244	val (p,_,f,nxt,_,pt) = me nxt p [] pt;
neuper@42279	245	val (p,_,f,nxt,_,pt) = me nxt p [] pt;
neuper@42279	246	val (p,_,f,nxt,_,pt) = me nxt p [] pt;
neuper@42279	247	val (p,_,f,nxt,_,pt) = me nxt p [] pt;
neuper@42279	248	val (p,_,f,nxt,_,pt) = me nxt p [] pt;
neuper@42279	249	val (p,_,f,nxt,_,pt) = me nxt p [] pt;
neuper@42279	250	val (p,_,f,nxt,_,pt) = me nxt p [] pt;
neuper@42279	251	val (p,_,f,nxt,_,pt) = me nxt p [] pt;
neuper@42279	252	val (p,_,f,nxt,_,pt) = me nxt p [] pt; (nxt =..,Check_elementwise "Assumptions"))
neuper@42279	253	val (p,_,f,nxt,_,pt) = me nxt p [] pt;
neuper@42279	254	val (p,_,f,nxt,_,pt) = me nxt p [] pt; f2str f;
neuper@42279	255	([z = 1 / 8 + sqrt (9 / 16) / 2, z = 1 / 8 + -1 sqrt (9 / 16) / 2] TODO sqrt*)
neuper@42279	256	show_pt pt;
neuper@42279	257	val SOME f = parseNEW ctxt "[z=1/2, z=-1/4]";
neuper@42279	258	*}
neuper@42279	259
neuper@42279	260	subsection {partial fraction decomposition}
neuper@42279	261	subsubsection {solution of the equation}
neuper@42279	262	ML {*
neuper@42279	263	val SOME solutions = parseNEW ctxt "[z=1/2, z=-1/4]";
neuper@42279	264	term2str solutions;
neuper@42279	265	atomty solutions;
neuper@42279	266	*}
neuper@42279	267
neuper@42279	268	subsubsection {get solutions out of list}
neuper@42279	269	text {in isac's CTP-based programming language: let$ $s_1 = NTH 1$ solutions; $s_2 = NTH 2...$}
neuper@42279	270	ML {*
neuper@42279	271	val Const ("List.list.Cons", _) $ s_1 $ (Const ("List.list.Cons", _) $
neuper@42279	272	s_2 $ Const ("List.list.Nil", _)) = solutions;
neuper@42279	273	term2str s_1;
neuper@42279	274	term2str s_2;
neuper@42279	275	*}
neuper@42279	276
neuper@42279	277	ML {* (Solutions as Denominator --> Denominator1 = z - Zeropoint1, Denominator2 = z-Zeropoint2,...)
neuper@42279	278	val xx = HOLogic.dest_eq s_1;
neuper@42279	279	val s_1' = HOLogic.mk_binop "Groups.minus_class.minus" xx;
neuper@42279	280	val xx = HOLogic.dest_eq s_2;
neuper@42279	281	val s_2' = HOLogic.mk_binop "Groups.minus_class.minus" xx;
neuper@42279	282	term2str s_1';
neuper@42279	283	term2str s_2';
neuper@42279	284	*}
neuper@42279	285
neuper@42279	286	subsubsection {build expression}
neuper@42279	287	text {in isac's CTP-based programming language: let s_1 = Take numerator / (s_1 s_2)*}
neuper@42279	288	ML {*
neuper@42279	289	(The Main Denominator is the multiplikation of the partial fraction denominators)
neuper@42279	290	val denominator' = HOLogic.mk_binop "Groups.times_class.times" (s_1', s_2') ;
neuper@42279	291	val SOME numerator = parseNEW ctxt "3::real";
neuper@42279	292
neuper@42279	293	val expr' = HOLogic.mk_binop "Rings.inverse_class.divide" (numerator, denominator');
neuper@42279	294	term2str expr';
neuper@42279	295	*}
neuper@42279	296
neuper@42279	297	subsubsection {Ansatz - create partial fractions out of our expression}
neuper@42279	298	ML {Context.theory_name thy = "Isac"(==================================================)}
neuper@42279	299
neuper@42279	300	axiomatization where
neuper@42279	301	ansatz2: "n / (a*b) = A/a + B/(b::real)" and
neuper@42279	302	multiply_eq2: "(n / (ab) = A/a + B/b) = (ab(n / (ab)) = ab(A/a + B/b))"
neuper@42279	303
neuper@42279	304	ML {*
neuper@42279	305	(we use our ansatz2 to rewrite our expression and get an equilation with our expression on the left and the partial fractions of it on the right side)
neuper@42279	306	val SOME (t1,_) = rewrite_ @{theory Isac} e_rew_ord e_rls false @{thm ansatz2} expr';
neuper@42279	307	term2str t1; atomty t1;
neuper@42279	308	val eq1 = HOLogic.mk_eq (expr', t1);
neuper@42279	309	term2str eq1;
neuper@42279	310	*}
neuper@42279	311	ML {*
neuper@42279	312	(eliminate the demoninators by multiplying the left and the right side with the main denominator)
neuper@42279	313	val SOME (eq2,_) = rewrite_ @{theory Isac} e_rew_ord e_rls false @{thm multiply_eq2} eq1;
neuper@42279	314	term2str eq2;
neuper@42279	315	*}
neuper@42279	316	ML {*
neuper@42279	317	(simplificatoin)
neuper@42279	318	val SOME (eq3,_) = rewrite_set_ @{theory Isac} false norm_Rational eq2;
neuper@42279	319	term2str eq3; (?A ?B not simplified)
neuper@42279	320	*}
neuper@42279	321	ML {*
neuper@42279	322	val SOME fract1 =
neuper@42279	323	parseNEW ctxt "(z - 1 / 2) * (z - -1 / 4) * (A / (z - 1 / 2) + B / (z - -1 / 4))"; (A B !)
neuper@42279	324	val SOME (fract2,_) = rewrite_set_ @{theory Isac} false norm_Rational fract1;
neuper@42279	325	term2str fract2 = "(A + -2 * B + 4 * A * z + 4 * B * z) / 4";
neuper@42279	326	(term2str fract2 = "A (1 / 4 + z) + B * (-1 / 2 + z)" would be more traditional*)
neuper@42279	327	*}
neuper@42279	328	ML {*
neuper@42279	329	val (numerator, denominator) = HOLogic.dest_eq eq3;
neuper@42279	330	val eq3' = HOLogic.mk_eq (numerator, fract1); (A B !)
neuper@42279	331	term2str eq3';
neuper@42279	332	(MANDATORY: simplify (and remove denominator) otherwise 3 = 0)
neuper@42279	333	val SOME (eq3'' ,_) = rewrite_set_ @{theory Isac} false norm_Rational eq3';
neuper@42279	334	term2str eq3'';
neuper@42279	335	*}
neuper@42279	336	ML {Context.theory_name thy = "Isac"(==================================================)}
neuper@42279	337
neuper@42279	338	subsubsection {get first koeffizient}
neuper@42279	339
neuper@42279	340	ML {*
neuper@42279	341	(substitude z with the first zeropoint to get A)
neuper@42279	342	val SOME (eq4_1,_) = rewrite_terms_ @{theory Isac} e_rew_ord e_rls [s_1] eq3'';
neuper@42279	343	term2str eq4_1;
neuper@42279	344
neuper@42279	345	val SOME (eq4_2,_) = rewrite_set_ @{theory Isac} false norm_Rational eq4_1;
neuper@42279	346	term2str eq4_2;
neuper@42279	347
neuper@42279	348	val fmz = ["equality (3 = 3 * A / (4::real))", "solveFor A","solutions L"];
neuper@42279	349	val (dI',pI',mI') =("Isac", ["univariate","equation"], ["no_met"]);
neuper@42279	350	(solve the simple linear equilation for A TODO: return eq, not list of eq)
neuper@42279	351	val (p,_,fa,nxt,_,pt) = CalcTreeTEST [(fmz, (dI',pI',mI'))];
neuper@42279	352	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	353	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	354	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	355	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	356	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	357	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	358	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	359	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	360	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	361	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	362	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	363	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	364	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	365	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	366	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	367	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	368	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	369	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	370	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	371	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	372	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	373	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	374	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	375	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	376	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	377	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	378	val (p,_,fa,nxt,_,pt) = me nxt p [] pt;
neuper@42279	379	f2str fa;
neuper@42279	380	*}
neuper@42279	381
neuper@42279	382	subsubsection {get second koeffizient}
neuper@42279	383	ML {thy}
neuper@42279	384
neuper@42279	385	ML {*
neuper@42279	386	(substitude z with the second zeropoint to get B)
neuper@42279	387	val SOME (eq4b_1,_) = rewrite_terms_ @{theory Isac} e_rew_ord e_rls [s_2] eq3'';
neuper@42279	388	term2str eq4b_1;
neuper@42279	389
neuper@42279	390	val SOME (eq4b_2,_) = rewrite_set_ @{theory Isac} false norm_Rational eq4b_1;
neuper@42279	391	term2str eq4b_2;
neuper@42279	392	*}
neuper@42279	393	ML {*
neuper@42279	394	(solve the simple linear equilation for B TODO: return eq, not list of eq)
neuper@42279	395	val fmz = ["equality (3 = -3 * B / (4::real))", "solveFor B","solutions L"];
neuper@42279	396	val (dI',pI',mI') =("Isac", ["univariate","equation"], ["no_met"]);
neuper@42279	397	val (p,_,fb,nxt,_,pt) = CalcTreeTEST [(fmz, (dI',pI',mI'))];
neuper@42279	398	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	399	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	400	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	401	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	402	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	403	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	404	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	405	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	406	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	407	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	408	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	409	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	410	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	411	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	412	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	413	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	414	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	415	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	416	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	417	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	418	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	419	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	420	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	421	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	422	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	423	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	424	val (p,_,fb,nxt,_,pt) = me nxt p [] pt;
neuper@42279	425	f2str fb;
neuper@42279	426	*}
neuper@42279	427
neuper@42279	428	ML {* (check koeffizients)
neuper@42279	429	if f2str fa = "[A = 4]" then () else error "part.fract. eq4_1";
neuper@42279	430	if f2str fb = "[B = -4]" then () else error "part.fract. eq4_1";
neuper@42279	431	*}
neuper@42279	432
neuper@42279	433	subsubsection {substitute expression with solutions}
neuper@42279	434	ML {*
neuper@42279	435	*}
neuper@42279	436	ML {thy}
neuper@42279	437
jan@42296	438	section {Implement the Specification and the Method \label{spec-meth}}
neuper@42279	439	text{==============================================}
neuper@42279	440	subsection{Define the Field Descriptions for the specification}
neuper@42279	441	consts
neuper@42279	442	filterExpression :: "bool => una"
neuper@42279	443	stepResponse :: "bool => una"
neuper@42279	444
neuper@42279	445	subsection{Define the Specification}
neuper@42279	446	ML {*
neuper@42279	447	store_pbt
neuper@42279	448	(prep_pbt thy "pbl_SP" [] e_pblID
neuper@42279	449	(["SignalProcessing"], [], e_rls, NONE, []));
neuper@42279	450	store_pbt
neuper@42279	451	(prep_pbt thy "pbl_SP_Ztrans" [] e_pblID
neuper@42279	452	(["Z_Transform","SignalProcessing"], [], e_rls, NONE, []));
neuper@42279	453	*}
neuper@42279	454	ML {thy}
neuper@42279	455	ML {*
neuper@42279	456	store_pbt
neuper@42279	457	(prep_pbt thy "pbl_SP_Ztrans_inv" [] e_pblID
neuper@42279	458	(["inverse", "Z_Transform", "SignalProcessing"],
neuper@42279	459	[("#Given" ,["filterExpression X_eq"]),
neuper@42279	460	("#Find" ,["stepResponse n_eq"])
neuper@42279	461	],
neuper@42279	462	append_rls "e_rls" e_rls [(for preds in where_)], NONE,
neuper@42279	463	[["SignalProcessing","Z_Transform","inverse"]]));
neuper@42279	464
neuper@42279	465	show_ptyps();
neuper@42279	466	get_pbt ["inverse","Z_Transform","SignalProcessing"];
neuper@42279	467	*}
neuper@42279	468
neuper@42279	469	subsection {Define Name and Signature for the Method}
neuper@42279	470	consts
neuper@42279	471	InverseZTransform :: "[bool, bool] => bool"
neuper@42279	472	("((Script InverseZTransform (_ =))// (_))" 9)
neuper@42279	473
neuper@42279	474	subsection {Setup Parent Nodes in Hierarchy of Method}
neuper@42279	475	ML {*
neuper@42279	476	store_met
neuper@42279	477	(prep_met thy "met_SP" [] e_metID
neuper@42279	478	(["SignalProcessing"], [],
neuper@42279	479	{rew_ord'="tless_true", rls'= e_rls, calc = [], srls = e_rls, prls = e_rls,
neuper@42279	480	crls = e_rls, nrls = e_rls}, "empty_script"));
neuper@42279	481	store_met
neuper@42279	482	(prep_met thy "met_SP_Ztrans" [] e_metID
neuper@42279	483	(["SignalProcessing", "Z_Transform"], [],
neuper@42279	484	{rew_ord'="tless_true", rls'= e_rls, calc = [], srls = e_rls, prls = e_rls,
neuper@42279	485	crls = e_rls, nrls = e_rls}, "empty_script"));
neuper@42279	486	*}
neuper@42279	487	ML {*
neuper@42279	488	store_met
neuper@42279	489	(prep_met thy "met_SP_Ztrans_inv" [] e_metID
neuper@42279	490	(["SignalProcessing", "Z_Transform", "inverse"],
neuper@42279	491	[("#Given" ,["filterExpression X_eq"]),
neuper@42279	492	("#Find" ,["stepResponse n_eq"])
neuper@42279	493	],
neuper@42279	494	{rew_ord'="tless_true", rls'= e_rls, calc = [], srls = e_rls, prls = e_rls,
neuper@42279	495	crls = e_rls, nrls = e_rls},
neuper@42279	496	"empty_script"
neuper@42279	497	));
neuper@42279	498	*}
neuper@42279	499	ML {*
neuper@42279	500	store_met
neuper@42279	501	(prep_met thy "met_SP_Ztrans_inv" [] e_metID
neuper@42279	502	(["SignalProcessing", "Z_Transform", "inverse"],
neuper@42279	503	[("#Given" ,["filterExpression X_eq"]),
neuper@42279	504	("#Find" ,["stepResponse n_eq"])
neuper@42279	505	],
neuper@42279	506	{rew_ord'="tless_true", rls'= e_rls, calc = [], srls = e_rls, prls = e_rls,
neuper@42279	507	crls = e_rls, nrls = e_rls},
neuper@42279	508	"Script InverseZTransform (Xeq::bool) =" ^
neuper@42279	509	" (let X = Take Xeq;" ^
neuper@42279	510	" X = Rewrite ruleZY False X" ^
neuper@42279	511	" in X)"
neuper@42279	512	));
jan@42299	513	*}
jan@42299	514	ML {*
neuper@42279	515	show_mets();
jan@42299	516	*}
jan@42299	517	ML {*
neuper@42279	518	get_met ["SignalProcessing","Z_Transform","inverse"];
neuper@42279	519	*}
neuper@42279	520
jan@42296	521	section {Program in CTP-based language \label{prog-steps}}
neuper@42279	522	text{=================================}
neuper@42279	523	subsection {Stepwise extend Program}
neuper@42279	524	ML {*
neuper@42279	525	val str =
neuper@42279	526	"Script InverseZTransform (Xeq::bool) =" ^
neuper@42279	527	" Xeq";
neuper@42279	528	*}
neuper@42279	529	ML {*
neuper@42279	530	val str =
neuper@42279	531	"Script InverseZTransform (Xeq::bool) =" ^ ((1/z) instead of z ^^^ -1)
neuper@42279	532	" (let X = Take Xeq;" ^
neuper@42279	533	" X' = Rewrite ruleZY False X;" ^ (z denominator*)
neuper@42279	534	" X' = (Rewrite_Set norm_Rational False) X'" ^ (simplify)
neuper@42279	535	" in X)";
neuper@42279	536	(NONE)
neuper@42279	537	"Script InverseZTransform (Xeq::bool) =" ^ ((1/z) instead of z ^^^ -1)
neuper@42279	538	" (let X = Take Xeq;" ^
neuper@42279	539	" X' = Rewrite ruleZY False X;" ^ (z denominator*)
neuper@42279	540	" X' = (Rewrite_Set norm_Rational False) X';" ^ (simplify)
neuper@42279	541	" X' = (SubProblem (Isac',[pqFormula,degree_2,polynomial,univariate,equation], [no_met]) " ^
neuper@42279	542	" [BOOL e_e, REAL v_v])" ^
neuper@42279	543	" in X)";
neuper@42279	544	*}
neuper@42279	545	ML {*
neuper@42279	546	val str =
neuper@42279	547	"Script InverseZTransform (Xeq::bool) =" ^ ((1/z) instead of z ^^^ -1)
neuper@42279	548	" (let X = Take Xeq;" ^
neuper@42279	549	" X' = Rewrite ruleZY False X;" ^ (z denominator*)
neuper@42279	550	" X' = (Rewrite_Set norm_Rational False) X';" ^ (simplify)
neuper@42279	551	" funterm = rhs X'" ^ (drop X'= for equation solving)
neuper@42279	552	" in X)";
neuper@42279	553	*}
neuper@42279	554	ML {*
neuper@42290	555	val str =
neuper@42290	556	"Script InverseZTransform (X_eq::bool) =" ^ ((1/z) instead of z ^^^ -1)
neuper@42290	557	" (let X = Take X_eq;" ^
neuper@42290	558	" X' = Rewrite ruleZY False X;" ^ (z denominator*)
neuper@42290	559	" X' = (Rewrite_Set norm_Rational False) X';" ^ (simplify)
jan@42298	560	" (X'_z::real) = lhs X';" ^
jan@42298	561	" (z::real) = argument_in X'_z;" ^
jan@42298	562	" (funterm::real) = rhs X';" ^ (drop X' z = for equation solving)
jan@42298	563	" (denom::real) = get_denominator funterm;" ^ (get_denominator)
jan@42298	564	" (equ::bool) = (denom = (0::real));" ^
neuper@42290	565	" (L_L::bool list) = " ^
neuper@42290	566	" (SubProblem (Test', " ^
neuper@42290	567	" [linear,univariate,equation,test]," ^
neuper@42290	568	" [Test,solve_linear]) " ^
neuper@42290	569	" [BOOL equ, REAL z]) " ^
neuper@42290	570	" in X)"
neuper@42290	571	;
neuper@42290	572
neuper@42279	573	parse thy str;
neuper@42279	574	val sc = ((inst_abs thy) o term_of o the o (parse thy)) str;
neuper@42279	575	atomty sc;
neuper@42279	576
neuper@42279	577	*}
jan@42300	578
jan@42300	579	text {*
jan@42300	580	This ruleset contains all functions that are in the script;
jan@42300	581	The evaluation of the functions is done by rewriting using this ruleset.
jan@42300	582	*}
jan@42300	583
neuper@42279	584	ML {*
neuper@42290	585	val srls = Rls {id="srls_InverseZTransform",
neuper@42290	586	preconds = [], rew_ord = ("termlessI",termlessI),
neuper@42290	587	erls = append_rls "erls_in_srls_InverseZTransform" e_rls
neuper@42290	588	[(for asm in NTH_CONS ...) Calc ("Orderings.ord_class.less",eval_equ "#less_"),
neuper@42290	589	(2nd NTH_CONS pushes n+-1 into asms) Calc("Groups.plus_class.plus", eval_binop "#add_")
neuper@42290	590	],
neuper@42290	591	srls = Erls, calc = [],
neuper@42290	592	rules =
neuper@42290	593	[Thm ("NTH_CONS",num_str @{thm NTH_CONS}),
neuper@42290	594	Calc("Groups.plus_class.plus", eval_binop "#add_"),
neuper@42290	595	Thm ("NTH_NIL",num_str @{thm NTH_NIL}),
neuper@42290	596	Calc("Tools.lhs", eval_lhs"eval_lhs_"), (<=== ONLY USED)
neuper@42290	597	Calc("Tools.rhs", eval_rhs"eval_rhs_"), (<=== ONLY USED)
jan@42300	598	Calc("Atools.argument'_in", eval_argument_in "Atools.argument'_in"),
neuper@42301	599	Calc("Rational.get_denominator",
neuper@42301	600	eval_get_denominator "Rational.get_denominator")
neuper@42290	601	],
neuper@42290	602	scr = EmptyScr};
neuper@42279	603	*}
neuper@42279	604
neuper@42279	605
neuper@42279	606	subsection {Store Final Version of Program for Execution}
neuper@42279	607	ML {*
neuper@42279	608	store_met
neuper@42279	609	(prep_met thy "met_SP_Ztrans_inv" [] e_metID
neuper@42279	610	(["SignalProcessing", "Z_Transform", "inverse"],
neuper@42279	611	[("#Given" ,["filterExpression X_eq"]),
neuper@42279	612	("#Find" ,["stepResponse n_eq"])
neuper@42279	613	],
neuper@42290	614	{rew_ord'="tless_true", rls'= e_rls, calc = [], srls = srls,
neuper@42290	615	prls = e_rls,
neuper@42279	616	crls = e_rls, nrls = e_rls},
neuper@42289	617	"Script InverseZTransform (X_eq::bool) =" ^ ((1/z) instead of z ^^^ -1)
neuper@42289	618	" (let X = Take X_eq;" ^
neuper@42279	619	" X' = Rewrite ruleZY False X;" ^ (z denominator*)
neuper@42279	620	" X' = (Rewrite_Set norm_Rational False) X';" ^ (simplify)
jan@42298	621	" (X'_z::real) = lhs X';" ^ (**)
jan@42298	622	" (z::real) = argument_in X'_z;" ^ (**)
jan@42298	623	" (funterm::real) = rhs X';" ^ (drop X' z = for equation solving)
jan@42298	624	" (denom::real) = get_denominator funterm;" ^ (get_denominator)
jan@42298	625	" (equ::bool) = (denom = (0::real));" ^
neuper@42290	626	" (L_L::bool list) = " ^
neuper@42290	627	" (SubProblem (Test', " ^
neuper@42290	628	" [linear,univariate,equation,test]," ^
neuper@42290	629	" [Test,solve_linear]) " ^
neuper@42290	630	" [BOOL equ, REAL z]) " ^
neuper@42279	631	" in X)"
neuper@42279	632	));
neuper@42279	633	*}
neuper@42290	634	ML {*
jan@42300	635	val Script scr = (#scr o get_met) ["SignalProcessing", "Z_Transform", "inverse"];
jan@42300	636	atomty scr
neuper@42301	637	*}
neuper@42301	638	ML {*
neuper@42301	639	val t = term_of (the (parse thy "get_denominator (24 / (-1 + -2 * z + 8 * z ^^^ 2))"));
neuper@42301	640	atomty t;
neuper@42301	641	*}
neuper@42301	642	ML {*
neuper@42301	643	trace_rewrite := true;
neuper@42301	644	rewrite_set_ thy true srls t;
neuper@42290	645	*}
neuper@42279	646
neuper@42281	647	subsection {Check the Program}
neuper@42279	648
neuper@42281	649	subsubsection {Check the formalization}
neuper@42279	650	ML {*
neuper@42279	651	val fmz = ["filterExpression (X = 3 / (z - 1/4 + -1/8 * (1/(z::real))))",
neuper@42279	652	"stepResponse (x[n::real]::bool)"];
neuper@42279	653	val (dI,pI,mI) = ("Isac", ["inverse", "Z_Transform", "SignalProcessing"],
neuper@42279	654	["SignalProcessing","Z_Transform","inverse"]);
neuper@42281	655
neuper@42281	656	val ([(1, [1], "#Given", Const ("Inverse_Z_Transform.filterExpression", _),
neuper@42281	657	[Const ("HOL.eq", _) $ _ $ _]),
neuper@42281	658	(2, [1], "#Find", Const ("Inverse_Z_Transform.stepResponse", _),
neuper@42281	659	[Free ("x", _) $ _])],
neuper@42281	660	_) = prep_ori fmz thy ((#ppc o get_pbt) pI);
neuper@42281	661	*}
neuper@42290	662	ML {*
neuper@42290	663	val Script sc = (#scr o get_met) ["SignalProcessing","Z_Transform","inverse"];
neuper@42290	664	atomty sc;
neuper@42290	665	*}
neuper@42281	666
neuper@42281	667	subsubsection {Stepwise check the program}
neuper@42281	668	ML {*
neuper@42301	669	trace_script := true; print_depth 9;
neuper@42281	670	val fmz = ["filterExpression (X z = 3 / (z - 1/4 + -1/8 * (1/(z::real))))",
neuper@42281	671	"stepResponse (x[n::real]::bool)"];
neuper@42281	672	val (dI,pI,mI) = ("Isac", ["inverse", "Z_Transform", "SignalProcessing"],
neuper@42281	673	["SignalProcessing","Z_Transform","inverse"]);
jan@42296	674	val (p,_,f,nxt,_,pt) = CalcTreeTEST [(fmz, (dI,pI,mI))];
jan@42296	675	val (p,_,f,nxt,_,pt) = me nxt p [] pt;
jan@42296	676	val (p,_,f,nxt,_,pt) = me nxt p [] pt;
jan@42296	677	val (p,_,f,nxt,_,pt) = me nxt p [] pt;
jan@42296	678	val (p,_,f,nxt,_,pt) = me nxt p [] pt;
jan@42296	679	val (p,_,f,nxt,_,pt) = me nxt p [] pt;
jan@42296	680	val (p,_,f,nxt,_,pt) = me nxt p [] pt; "nxt = Apply_Method";
jan@42297	681	val (p,_,f,nxt,_,pt) = me nxt p [] pt; "nxt = Rewrite (ruleZY, Inverse_Z_Transform.ruleZY) --> X z = 3 / (z - 1 / 4 + -1 / 8 * (1 / z))"; (TODO naming!)
jan@42296	682	val (p,_,f,nxt,_,pt) = me nxt p [] pt; "nxt = Rewrite_Set norm_Rational --> X' z = 3 / (z * (z - 1 / 4 + -1 / 8 * (1 / z)))";
jan@42300	683	*}
jan@42300	684	ML {*
neuper@42301	685	val (p,_,f,nxt,_,pt) = me nxt p [] pt; "nxt = Subproblem";
neuper@42301	686	*}
neuper@42301	687	ML {*
neuper@42301	688	val (p,_,f,nxt,_,pt) = me nxt p [] pt; "nxt = Model_Problem";
neuper@42301	689	*}
neuper@42301	690	ML {*
neuper@42301	691	val (p,_,f,nxt,_,pt) = me nxt p [] pt; "equality (-1 + -2 * z + 8 * z ^^^ 2 = 0)";
neuper@42301	692	*}
neuper@42301	693	ML {*
neuper@42301	694	val (p,_,f,nxt,_,pt) = me nxt p [] pt; "solveFor z";
neuper@42301	695	*}
neuper@42301	696	ML {*
neuper@42301	697	val (p,_,f,nxt,_,pt) = me nxt p [] pt; "nxt = Add_Find";
jan@42300	698	*}
jan@42300	699	ML {*
jan@42300	700	val (p,_,f,nxt,_,pt) = me nxt p [] pt;
neuper@42279	701	*}
neuper@42279	702	ML {*
neuper@42289	703	show_pt pt;
neuper@42279	704	*}
neuper@42279	705	ML {*
neuper@42279	706	*}
neuper@42279	707	ML {*
neuper@42279	708
neuper@42279	709	*}
neuper@42279	710	ML {*
neuper@42279	711
neuper@42279	712	*}
neuper@42279	713	ML {*
neuper@42279	714
neuper@42279	715	*}
neuper@42279	716	ML {*
neuper@42279	717
neuper@42279	718	*}
neuper@42279	719
neuper@42279	720	ML {*
neuper@42279	721
neuper@42279	722	*}
neuper@42279	723	ML {*
neuper@42290	724	@{theory Isac}
neuper@42279	725	*}
neuper@42279	726
neuper@42279	727	ML {*
neuper@42279	728	*}
neuper@42279	729	ML {*
neuper@42279	730	*}
neuper@42279	731	ML {*
neuper@42279	732	*}
neuper@42279	733
neuper@42279	734
neuper@42279	735
neuper@42279	736
neuper@42279	737
neuper@42279	738
neuper@42279	739
neuper@42279	740
neuper@42279	741	section {Write Tests for Crucial Details}
neuper@42279	742	text{===================================}
neuper@42279	743	ML {*
neuper@42279	744
neuper@42279	745	*}
neuper@42279	746
neuper@42279	747	section {Integrate Program into Knowledge}
neuper@42279	748	ML {*
neuper@42290	749	@{theory Isac}
neuper@42279	750	*}
neuper@42279	751
neuper@42279	752	end
neuper@42279	753

author	Walther Neuper <neuper@ist.tugraz.at>
	Thu, 06 Oct 2011 17:43:00 +0200
branch	decompose-isar
changeset 42301	93083d4e05d8
parent 42300	bd8307d618d2
child 42302	2cceae8c18bc
permissions	-rwxr-xr-x