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neuper@42256
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(* Title: Test_Z_Transform
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neuper@42256
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Author: Jan Rocnik
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neuper@42256
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(c) copyright due to lincense terms.
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neuper@42256
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12345678901234567890123456789012345678901234567890123456789012345678901234567890
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neuper@42256
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neuper@42256
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*)
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neuper@42256
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neuper@42290
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theory Inverse_Z_Transform imports PolyEq DiffApp Partial_Fractions begin
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neuper@42256
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neuper@42256
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axiomatization where
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neuper@42256
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rule1: "1 = \<delta>[n]" and
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neuper@42256
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rule2: "|| z || > 1 ==> z / (z - 1) = u [n]" and
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neuper@42256
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rule3: "|| z || < 1 ==> z / (z - 1) = -u [-n - 1]" and
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jan@42367
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rule4: "c * (z / (z - \<alpha>)) = c * \<alpha>^^^n * u [n]" and
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neuper@42256
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rule5: "|| z || < || \<alpha> || ==> z / (z - \<alpha>) = -(\<alpha>^^^n) * u [-n - 1]" and
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jan@42367
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rule6: "|| z || > 1 ==> z/(z - 1)^^^2 = n * u [n]" (*and
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jan@42367
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rule42: "(a * (z/(z-b)) + c * (z/(z-d))) = (a * b^^^n * u [n] + c * d^^^n * u [n])"*)
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neuper@42256
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neuper@42256
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axiomatization where
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jan@42367
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ruleZY: "(X z = a / b) = (X' z = a / (z * b))" and
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jan@42367
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ruleYZ: "(a/b + c/d) = (a*(z/b) + c*(z/d))"
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neuper@42256
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wneuper@59472
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subsection\<open>Define the Field Descriptions for the specification\<close>
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neuper@42279
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consts
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neuper@42279
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filterExpression :: "bool => una"
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neuper@42279
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stepResponse :: "bool => una"
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neuper@42279
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jan@42366
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wneuper@59472
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ML \<open>
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s1210629013@55444
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val inverse_z = prep_rls'(
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wneuper@59416
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Rule.Rls {id = "inverse_z", preconds = [], rew_ord = ("dummy_ord",Rule.dummy_ord),
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wneuper@59416
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erls = Rule.Erls, srls = Rule.Erls, calc = [], errpatts = [],
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jan@42366
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rules =
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jan@42367
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[
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wneuper@59416
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Rule.Thm ("rule4", @{thm rule4})
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jan@42366
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],
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wneuper@59416
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scr = Rule.EmptyScr});
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wneuper@59472
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\<close>
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jan@42366
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jan@42366
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wneuper@59472
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text \<open>store the rule set for math engine\<close>
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jan@42366
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wneuper@59472
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setup \<open>KEStore_Elems.add_rlss [("inverse_z", (Context.theory_name @{theory}, inverse_z))]\<close>
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jan@42366
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wneuper@59472
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subsection\<open>Define the Specification\<close>
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wneuper@59472
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ML \<open>
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neuper@42256
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val thy = @{theory};
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wneuper@59472
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\<close>
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wneuper@59472
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setup \<open>KEStore_Elems.add_pbts
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wneuper@59416
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[(Specify.prep_pbt thy "pbl_SP" [] Celem.e_pblID (["SignalProcessing"], [], Rule.e_rls, NONE, [])),
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wneuper@59406
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(Specify.prep_pbt thy "pbl_SP_Ztrans" [] Celem.e_pblID
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wneuper@59416
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(["Z_Transform","SignalProcessing"], [], Rule.e_rls, NONE, [])),
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wneuper@59406
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(Specify.prep_pbt thy "pbl_SP_Ztrans_inv" [] Celem.e_pblID
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s1210629013@55339
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(["Inverse", "Z_Transform", "SignalProcessing"],
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s1210629013@55339
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(*^ capital letter breaks coding standard
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s1210629013@55339
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because "inverse" = Const ("Rings.inverse_class.inverse", ..*)
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s1210629013@55339
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[("#Given" ,["filterExpression (X_eq::bool)"]),
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s1210629013@55339
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("#Find" ,["stepResponse (n_eq::bool)"])],
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wneuper@59416
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Rule.append_rls "e_rls" Rule.e_rls [(*for preds in where_*)], NONE,
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s1210629013@55339
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[["SignalProcessing","Z_Transform","Inverse"]])),
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wneuper@59406
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(Specify.prep_pbt thy "pbl_SP_Ztrans_inv" [] Celem.e_pblID
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s1210629013@55339
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(["Inverse", "Z_Transform", "SignalProcessing"],
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s1210629013@55339
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[("#Given" ,["filterExpression X_eq"]),
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s1210629013@55339
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("#Find" ,["stepResponse n_eq"])],
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wneuper@59416
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Rule.append_rls "e_rls" Rule.e_rls [(*for preds in where_*)], NONE,
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wneuper@59472
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[["SignalProcessing","Z_Transform","Inverse"]]))]\<close>
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neuper@42256
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wneuper@59472
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subsection \<open>Define Name and Signature for the Method\<close>
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neuper@42256
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consts
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neuper@42256
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InverseZTransform :: "[bool, bool] => bool"
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neuper@42256
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("((Script InverseZTransform (_ =))// (_))" 9)
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neuper@42256
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wneuper@59472
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subsection \<open>Setup Parent Nodes in Hierarchy of Method\<close>
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wneuper@59472
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ML \<open>val thy = @{theory}; (*latest version of thy required*)\<close>
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wneuper@59472
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setup \<open>KEStore_Elems.add_mets
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wneuper@59473
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[Specify.prep_met thy "met_SP" [] Celem.e_metID
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s1210629013@55373
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(["SignalProcessing"], [],
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wneuper@59416
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{rew_ord'="tless_true", rls'= Rule.e_rls, calc = [], srls = Rule.e_rls, prls = Rule.e_rls, crls = Rule.e_rls,
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wneuper@59416
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errpats = [], nrls = Rule.e_rls}, "empty_script"),
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wneuper@59406
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Specify.prep_met thy "met_SP_Ztrans" [] Celem.e_metID
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s1210629013@55373
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(["SignalProcessing", "Z_Transform"], [],
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wneuper@59416
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{rew_ord'="tless_true", rls'= Rule.e_rls, calc = [], srls = Rule.e_rls, prls = Rule.e_rls, crls = Rule.e_rls,
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wneuper@59473
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errpats = [], nrls = Rule.e_rls}, "empty_script")]
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wneuper@59473
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\<close>
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wneuper@59505
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(*ok
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wneuper@59504
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partial_function (tailrec) inverse_ztransform :: "bool \<Rightarrow> bool"
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wneuper@59504
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where
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wneuper@59504
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"inverse_ztransform X_eq = \<comment> \<open>(1/z) instead of z ^^^ -1\<close>
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wneuper@59504
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(let X = Take X_eq;
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wneuper@59504
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X' = Rewrite ''ruleZY'' False X; \<comment> \<open>z * denominator\<close>
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wneuper@59504
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X' = (Rewrite_Set ''norm_Rational'' False) X'; \<comment> \<open>simplify\<close>
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wneuper@59504
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funterm = Take (rhs X'); \<comment> \<open>drop X' z = for equation solving\<close>
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wneuper@59504
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denom = (Rewrite_Set ''partial_fraction'' False) funterm; \<comment> \<open>get_denominator\<close>
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wneuper@59504
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equ = (denom = (0::real));
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wneuper@59504
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fun_arg = Take (lhs X');
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wneuper@59504
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arg = (Rewrite_Set ''partial_fraction'' False) X'; \<comment> \<open>get_argument TODO\<close>
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wneuper@59504
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L_L = SubProblem (''Test'', [''LINEAR'',''univariate'',''equation'',''test''],
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wneuper@59504
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[''Test'',''solve_linear'']) [BOOL equ, STRING ''z''] \<comment> \<open>PROG string\<close>
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wneuper@59504
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in X) "
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wneuper@59505
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*)
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wneuper@59473
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setup \<open>KEStore_Elems.add_mets
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wneuper@59473
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[Specify.prep_met thy "met_SP_Ztrans_inv" [] Celem.e_metID
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s1210629013@55373
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(["SignalProcessing", "Z_Transform", "Inverse"],
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s1210629013@55373
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[("#Given" ,["filterExpression (X_eq::bool)"]),
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s1210629013@55373
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("#Find" ,["stepResponse (n_eq::bool)"])],
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wneuper@59416
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{rew_ord'="tless_true", rls'= Rule.e_rls, calc = [], srls = Rule.e_rls, prls = Rule.e_rls, crls = Rule.e_rls,
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wneuper@59416
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errpats = [], nrls = Rule.e_rls},
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s1210629013@55373
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"Script InverseZTransform (X_eq::bool) =" ^ (*(1/z) instead of z ^^^ -1*)
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s1210629013@55373
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" (let X = Take X_eq;" ^
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wneuper@59489
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" X' = Rewrite ''ruleZY'' False X;" ^ (*z * denominator*)
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wneuper@59489
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" X' = (Rewrite_Set ''norm_Rational'' False) X';" ^ (*simplify*)
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s1210629013@55373
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" funterm = Take (rhs X');" ^ (*drop X' z = for equation solving*)
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wneuper@59489
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" denom = (Rewrite_Set ''partial_fraction'' False) funterm;" ^ (*get_denominator*)
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s1210629013@55373
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" equ = (denom = (0::real));" ^
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s1210629013@55373
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" fun_arg = Take (lhs X');" ^
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wneuper@59489
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" arg = (Rewrite_Set ''partial_fraction'' False) X';" ^ (*get_argument TODO*)
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s1210629013@55373
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" (L_L::bool list) = " ^
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wneuper@59489
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" (SubProblem (''Test'', " ^
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wneuper@59489
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" [''LINEAR'',''univariate'',''equation'',''test'']," ^
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wneuper@59489
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" [''Test'',''solve_linear'']) " ^
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s1210629013@55373
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" [BOOL equ, REAL z]) " ^
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wneuper@59473
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" in X)")]
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wneuper@59473
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\<close>
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wneuper@59504
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(*
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wneuper@59504
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Type unification failed: Clash of types "bool" and "_ itself"
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wneuper@59504
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Type error in application: incompatible operand type
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wneuper@59504
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Operator: Let (Take X_eq) :: (??'a itself \<Rightarrow> ??'b) \<Rightarrow> ??'b
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wneuper@59504
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Operand:
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wneuper@59504
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\<lambda>X. let X' = Rewrite ''ruleZY'' ...
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wneuper@59504
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:
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wneuper@59504
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:partial_function (tailrec) inverse_ztransform2 :: "bool \<Rightarrow> bool"
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wneuper@59504
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where
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wneuper@59504
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"inverse_ztransform X_eq = \<comment> \<open>(1/z) instead of z ^^^ -1\<close>
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wneuper@59504
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(let X = Take X_eq;
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wneuper@59504
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X' = Rewrite ''ruleZY'' False X; \<comment> \<open>z * denominator\<close>
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wneuper@59504
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(num_orig::real) = get_numerator (rhs X');
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wneuper@59504
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X' = (Rewrite_Set ''norm_Rational'' False) X'; \<comment> \<open>simplify\<close>
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wneuper@59504
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(X'_z::real) = lhs X';
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wneuper@59504
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(zzz::real) = argument_in X'_z;
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wneuper@59504
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(funterm::real) = rhs X'; \<comment> \<open>drop X' z = for equation solving\<close>
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wneuper@59504
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(denom::real) = get_denominator funterm; \<comment> \<open>get_denominator\<close>
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wneuper@59504
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(num::real) = get_numerator funterm; \<comment> \<open>get_numerator\<close>
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wneuper@59504
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(equ::bool) = (denom = (0::real));
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wneuper@59513
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(L_L::bool list) = (SubProblem (''Partial_Fractions'',
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wneuper@59504
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[''abcFormula'',''degree_2'',''polynomial'',''univariate'',''equation''],
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wneuper@59504
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[''no_met''])
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wneuper@59504
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[BOOL equ, REAL zzz]);
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wneuper@59504
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(facs::real) = factors_from_solution L_L;
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wneuper@59504
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(eql::real) = Take (num_orig / facs); \<comment> \<open>---\<close>
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wneuper@59504
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(eqr::real) = (Try (Rewrite_Set ''ansatz_rls'' False)) eql; \<comment> \<open>---\<close>
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wneuper@59504
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(eq::bool) = Take (eql = eqr); \<comment> \<open>Maybe possible to use HOLogic.mk_eq ??\<close>
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wneuper@59504
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eq = (Try (Rewrite_Set ''equival_trans'' False)) eq; \<comment> \<open>---\<close>
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wneuper@59504
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(z1::real) = (rhs (NTH 1 L_L)); \<comment> \<open>prepare equation for a - eq_a therefor substitute z with solution 1 - z1\<close>
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wneuper@59504
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(z2::real) = (rhs (NTH 2 L_L)); \<comment> \<open>---\<close>
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wneuper@59504
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(eq_a::bool) = Take eq;
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wneuper@59504
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eq_a = (Substitute [zzz=z1]) eq;
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wneuper@59504
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eq_a = (Rewrite_Set ''norm_Rational'' False) eq_a;
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wneuper@59504
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(sol_a::bool list) =
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wneuper@59504
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(SubProblem (''Isac'',
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wneuper@59504
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[''univariate'',''equation''],[''no_met''])
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wneuper@59504
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[BOOL eq_a, REAL (A::real)]);
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wneuper@59504
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(a::real) = (rhs(NTH 1 sol_a)); \<comment> \<open>---\<close>
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wneuper@59504
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(eq_b::bool) = Take eq;
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wneuper@59504
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eq_b = (Substitute [zzz=z2]) eq_b;
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wneuper@59504
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eq_b = (Rewrite_Set ''norm_Rational'' False) eq_b;
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wneuper@59504
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(sol_b::bool list) =
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wneuper@59504
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(SubProblem (''Isac'',
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wneuper@59504
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[''univariate'',''equation''],[''no_met''])
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wneuper@59504
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[BOOL eq_b, REAL (B::real)]);
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wneuper@59504
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(b::real) = (rhs(NTH 1 sol_b)); \<comment> \<open>---\<close>
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wneuper@59504
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(pbz::real) = Take eqr;
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wneuper@59504
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pbz = ((Substitute [A=a, B=b]) pbz); \<comment> \<open>---\<close>
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wneuper@59504
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pbz = Rewrite ''ruleYZ'' False pbz;
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wneuper@59504
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(X_z::bool) = Take (X_z = pbz);
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wneuper@59512
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(n_eq::bool) = (Rewrite_Set ''inverse_z'' False) X_z
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wneuper@59504
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in n_eq)"
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wneuper@59504
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177 |
*)
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wneuper@59473
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178 |
setup \<open>KEStore_Elems.add_mets
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wneuper@59473
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179 |
[Specify.prep_met thy "met_SP_Ztrans_inv" [] Celem.e_metID
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s1210629013@55373
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180 |
(["SignalProcessing", "Z_Transform", "Inverse"],
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s1210629013@55373
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181 |
[("#Given" ,["filterExpression X_eq"]),
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s1210629013@55373
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("#Find" ,["stepResponse n_eq"])],
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wneuper@59416
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183 |
{rew_ord'="tless_true", rls'= Rule.e_rls, calc = [], srls = srls_partial_fraction, prls = Rule.e_rls,
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wneuper@59416
|
184 |
crls = Rule.e_rls, errpats = [], nrls = Rule.e_rls},
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s1210629013@55373
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185 |
"Script InverseZTransform (X_eq::bool) = "^
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s1210629013@55373
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186 |
(*(1/z) instead of z ^^^ -1*)
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s1210629013@55373
|
187 |
"(let X = Take X_eq; "^
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wneuper@59489
|
188 |
" X' = Rewrite ''ruleZY'' False X; "^
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s1210629013@55373
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189 |
(*z * denominator*)
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s1210629013@55373
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190 |
" (num_orig::real) = get_numerator (rhs X'); "^
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wneuper@59489
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191 |
" X' = (Rewrite_Set ''norm_Rational'' False) X'; "^
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s1210629013@55373
|
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(*simplify*)
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s1210629013@55373
|
193 |
" (X'_z::real) = lhs X'; "^
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s1210629013@55373
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" (zzz::real) = argument_in X'_z; "^
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s1210629013@55373
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" (funterm::real) = rhs X'; "^
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s1210629013@55373
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196 |
(*drop X' z = for equation solving*)
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s1210629013@55373
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" (denom::real) = get_denominator funterm; "^
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s1210629013@55373
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(*get_denominator*)
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s1210629013@55373
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" (num::real) = get_numerator funterm; "^
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s1210629013@55373
|
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(*get_numerator*)
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s1210629013@55373
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201 |
" (equ::bool) = (denom = (0::real)); "^
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wneuper@59513
|
202 |
" (L_L::bool list) = (SubProblem (''Partial_Fractions'', "^
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wneuper@59489
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203 |
" [''abcFormula'',''degree_2'',''polynomial'',''univariate'',''equation''], "^
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wneuper@59489
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204 |
" [''no_met'']) "^
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s1210629013@55373
|
205 |
" [BOOL equ, REAL zzz]); "^
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s1210629013@55373
|
206 |
" (facs::real) = factors_from_solution L_L; "^
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s1210629013@55373
|
207 |
" (eql::real) = Take (num_orig / facs); "^
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s1210629013@55373
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208 |
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wneuper@59499
|
209 |
" (eqr::real) = (Try (Rewrite_Set ''ansatz_rls'' False)) eql; "^
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s1210629013@55373
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210 |
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s1210629013@55373
|
211 |
" (eq::bool) = Take (eql = eqr); "^
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s1210629013@55373
|
212 |
(*Maybe possible to use HOLogic.mk_eq ??*)
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wneuper@59489
|
213 |
" eq = (Try (Rewrite_Set ''equival_trans'' False)) eq; "^
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s1210629013@55373
|
214 |
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s1210629013@55373
|
215 |
" (z1::real) = (rhs (NTH 1 L_L)); "^
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s1210629013@55373
|
216 |
(*
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s1210629013@55373
|
217 |
* prepare equation for a - eq_a
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s1210629013@55373
|
218 |
* therefor substitute z with solution 1 - z1
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s1210629013@55373
|
219 |
*)
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s1210629013@55373
|
220 |
" (z2::real) = (rhs (NTH 2 L_L)); "^
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s1210629013@55373
|
221 |
|
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s1210629013@55373
|
222 |
" (eq_a::bool) = Take eq; "^
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s1210629013@55373
|
223 |
" eq_a = (Substitute [zzz=z1]) eq; "^
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wneuper@59499
|
224 |
" eq_a = (Rewrite_Set ''norm_Rational'' False) eq_a; "^
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s1210629013@55373
|
225 |
" (sol_a::bool list) = "^
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wneuper@59489
|
226 |
" (SubProblem (''Isac'', "^
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wneuper@59489
|
227 |
" [''univariate'',''equation''],[''no_met'']) "^
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s1210629013@55373
|
228 |
" [BOOL eq_a, REAL (A::real)]); "^
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s1210629013@55373
|
229 |
" (a::real) = (rhs(NTH 1 sol_a)); "^
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s1210629013@55373
|
230 |
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s1210629013@55373
|
231 |
" (eq_b::bool) = Take eq; "^
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s1210629013@55373
|
232 |
" eq_b = (Substitute [zzz=z2]) eq_b; "^
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wneuper@59489
|
233 |
" eq_b = (Rewrite_Set ''norm_Rational'' False) eq_b; "^
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s1210629013@55373
|
234 |
" (sol_b::bool list) = "^
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wneuper@59489
|
235 |
" (SubProblem (''Isac'', "^
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wneuper@59489
|
236 |
" [''univariate'',''equation''],[''no_met'']) "^
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s1210629013@55373
|
237 |
" [BOOL eq_b, REAL (B::real)]); "^
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s1210629013@55373
|
238 |
" (b::real) = (rhs(NTH 1 sol_b)); "^
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s1210629013@55373
|
239 |
|
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s1210629013@55373
|
240 |
" (pbz::real) = Take eqr; "^
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s1210629013@55373
|
241 |
" pbz = ((Substitute [A=a, B=b]) pbz); "^
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s1210629013@55373
|
242 |
|
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wneuper@59489
|
243 |
" pbz = Rewrite ''ruleYZ'' False pbz; "^
|
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s1210629013@55373
|
244 |
|
|
s1210629013@55373
|
245 |
" (X_z::bool) = Take (X_z = pbz); "^
|
|
wneuper@59512
|
246 |
" (n_eq::bool) = (Rewrite_Set ''inverse_z'' False) X_z "^
|
|
wneuper@59473
|
247 |
"in n_eq)")]
|
|
wneuper@59473
|
248 |
\<close>
|
|
wneuper@59504
|
249 |
(* same error as in inverse_ztransform2
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|
wneuper@59504
|
250 |
:partial_function (tailrec) inverse_ztransform3 :: "bool \<Rightarrow> bool"
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wneuper@59504
|
251 |
where
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|
wneuper@59504
|
252 |
"inverse_ztransform X_eq =
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|
wneuper@59504
|
253 |
(*([1], Frm), X z = 3 / (z - 1 / 4 + -1 / 8 * (1 / z))*)
|
|
wneuper@59504
|
254 |
(let X = Take X_eq;
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|
wneuper@59504
|
255 |
(*([1], Res), ?X' z = 3 / (z * (z - 1 / 4 + -1 / 8 * (1 / z)))*)
|
|
wneuper@59504
|
256 |
X' = Rewrite ''ruleZY'' False X;
|
|
wneuper@59504
|
257 |
(* ?X' z*)
|
|
wneuper@59504
|
258 |
(X'_z::real) = lhs X';
|
|
wneuper@59504
|
259 |
(* z *)
|
|
wneuper@59504
|
260 |
(zzz::real) = argument_in X'_z;
|
|
wneuper@59504
|
261 |
(* 3 / (z * (z - 1 / 4 + -1 / 8 * (1 / z)))*)
|
|
wneuper@59504
|
262 |
(funterm::real) = rhs X';
|
|
wneuper@59504
|
263 |
(*-----*)
|
|
wneuper@59504
|
264 |
(pbz::real) = (SubProblem (''Isac'',
|
|
wneuper@59504
|
265 |
[''partial_fraction'',''rational'',''simplification''],
|
|
wneuper@59504
|
266 |
[''simplification'',''of_rationals'',''to_partial_fraction''])
|
|
wneuper@59504
|
267 |
(*([2], Res), 4 / (z - 1 / 2) + -4 / (z - -1 / 4)*)
|
|
wneuper@59504
|
268 |
[REAL funterm, REAL zzz]);
|
|
wneuper@59504
|
269 |
(*-----*)
|
|
wneuper@59504
|
270 |
(*([3], Frm), ?X' z = 4 / (z - 1 / 2) + -4 / (z - -1 / 4)*)
|
|
wneuper@59504
|
271 |
(pbz_eq::bool) = Take (X'_z = pbz);
|
|
wneuper@59504
|
272 |
(*([3], Res), ?X' z = 4 * (?z / (z - 1 / 2)) + -4 * (?z / (z - -1 / 4))*)
|
|
wneuper@59504
|
273 |
pbz_eq = Rewrite ''ruleYZ'' False pbz_eq;
|
|
wneuper@59504
|
274 |
(* 4 * (z / (z - 1 / 2)) + -4 * (z / (z - -1 / 4))*)
|
|
wneuper@59504
|
275 |
(*([4], Frm), X_z = 4 * (z / (z - 1 / 2)) + -4 * (z / (z - -1 / 4))*)
|
|
wneuper@59504
|
276 |
(X_zeq::bool) = Take (X_z = rhs pbz_eq);
|
|
wneuper@59504
|
277 |
(*([4], Res), X_z = 4 * (1 / 2) ^^^ ?n * ?u [?n] + -4 * (-1 / 4) ^^^ ?n * ?u [?n]*)
|
|
wneuper@59512
|
278 |
n_eq = (Rewrite_Set ''inverse_z'' False) X_zeq
|
|
wneuper@59504
|
279 |
(* X_z = 4 * (1 / 2) ^^^ n * u [n] + -4 * (-1 / 4) ^^^ n * u [n]*)
|
|
wneuper@59504
|
280 |
in n_eq) "
|
|
wneuper@59504
|
281 |
*)
|
|
wneuper@59473
|
282 |
setup \<open>KEStore_Elems.add_mets
|
|
wneuper@59473
|
283 |
[Specify.prep_met thy "met_SP_Ztrans_inv_sub" [] Celem.e_metID
|
|
s1210629013@55373
|
284 |
(["SignalProcessing", "Z_Transform", "Inverse_sub"],
|
|
s1210629013@55373
|
285 |
[("#Given" ,["filterExpression X_eq"]),
|
|
s1210629013@55373
|
286 |
("#Find" ,["stepResponse n_eq"])],
|
|
wneuper@59416
|
287 |
{rew_ord'="tless_true", rls'= Rule.e_rls, calc = [],
|
|
wneuper@59416
|
288 |
srls = Rule.Rls {id="srls_partial_fraction",
|
|
s1210629013@55373
|
289 |
preconds = [], rew_ord = ("termlessI",termlessI),
|
|
wneuper@59416
|
290 |
erls = Rule.append_rls "erls_in_srls_partial_fraction" Rule.e_rls
|
|
s1210629013@55373
|
291 |
[(*for asm in NTH_CONS ...*)
|
|
wneuper@59416
|
292 |
Rule.Calc ("Orderings.ord_class.less",eval_equ "#less_"),
|
|
s1210629013@55373
|
293 |
(*2nd NTH_CONS pushes n+-1 into asms*)
|
|
wneuper@59416
|
294 |
Rule.Calc("Groups.plus_class.plus", eval_binop "#add_")],
|
|
wneuper@59416
|
295 |
srls = Rule.Erls, calc = [], errpatts = [],
|
|
wneuper@59416
|
296 |
rules = [Rule.Thm ("NTH_CONS", @{thm NTH_CONS}),
|
|
wneuper@59416
|
297 |
Rule.Calc ("Groups.plus_class.plus", eval_binop "#add_"),
|
|
wneuper@59416
|
298 |
Rule.Thm ("NTH_NIL", @{thm NTH_NIL}),
|
|
wneuper@59491
|
299 |
Rule.Calc ("Tools.lhs", Tools.eval_lhs "eval_lhs_"),
|
|
wneuper@59491
|
300 |
Rule.Calc ("Tools.rhs", Tools.eval_rhs"eval_rhs_"),
|
|
wneuper@59416
|
301 |
Rule.Calc ("Atools.argument'_in", eval_argument_in "Atools.argument'_in"),
|
|
wneuper@59416
|
302 |
Rule.Calc ("Rational.get_denominator", eval_get_denominator "#get_denominator"),
|
|
wneuper@59416
|
303 |
Rule.Calc ("Rational.get_numerator", eval_get_numerator "#get_numerator"),
|
|
wneuper@59416
|
304 |
Rule.Calc ("Partial_Fractions.factors_from_solution",
|
|
wneuper@59512
|
305 |
eval_factors_from_solution "#factors_from_solution")
|
|
wneuper@59512
|
306 |
], scr = Rule.EmptyScr},
|
|
wneuper@59416
|
307 |
prls = Rule.e_rls, crls = Rule.e_rls, errpats = [], nrls = norm_Rational},
|
|
s1210629013@55373
|
308 |
(*([], Frm), Problem (Isac, [Inverse, Z_Transform, SignalProcessing])*)
|
|
s1210629013@55373
|
309 |
"Script InverseZTransform (X_eq::bool) = "^
|
|
s1210629013@55373
|
310 |
(*([1], Frm), X z = 3 / (z - 1 / 4 + -1 / 8 * (1 / z))*)
|
|
s1210629013@55373
|
311 |
"(let X = Take X_eq; "^
|
|
s1210629013@55373
|
312 |
(*([1], Res), ?X' z = 3 / (z * (z - 1 / 4 + -1 / 8 * (1 / z)))*)
|
|
wneuper@59489
|
313 |
" X' = Rewrite ''ruleZY'' False X; "^
|
|
s1210629013@55373
|
314 |
(* ?X' z*)
|
|
s1210629013@55373
|
315 |
" (X'_z::real) = lhs X'; "^
|
|
s1210629013@55373
|
316 |
(* z *)
|
|
s1210629013@55373
|
317 |
" (zzz::real) = argument_in X'_z; "^
|
|
s1210629013@55373
|
318 |
(* 3 / (z * (z - 1 / 4 + -1 / 8 * (1 / z)))*)
|
|
s1210629013@55373
|
319 |
" (funterm::real) = rhs X'; "^
|
|
s1210629013@55373
|
320 |
|
|
wneuper@59489
|
321 |
" (pbz::real) = (SubProblem (''Isac'', "^
|
|
wneuper@59489
|
322 |
" [''partial_fraction'',''rational'',''simplification''], "^
|
|
wneuper@59489
|
323 |
" [''simplification'',''of_rationals'',''to_partial_fraction'']) "^
|
|
s1210629013@55373
|
324 |
(*([2], Res), 4 / (z - 1 / 2) + -4 / (z - -1 / 4)*)
|
|
s1210629013@55373
|
325 |
" [REAL funterm, REAL zzz]); "^
|
|
s1210629013@55373
|
326 |
|
|
s1210629013@55373
|
327 |
(*([3], Frm), ?X' z = 4 / (z - 1 / 2) + -4 / (z - -1 / 4)*)
|
|
s1210629013@55373
|
328 |
" (pbz_eq::bool) = Take (X'_z = pbz); "^
|
|
s1210629013@55373
|
329 |
(*([3], Res), ?X' z = 4 * (?z / (z - 1 / 2)) + -4 * (?z / (z - -1 / 4))*)
|
|
wneuper@59489
|
330 |
" pbz_eq = Rewrite ''ruleYZ'' False pbz_eq; "^
|
|
s1210629013@55373
|
331 |
(* 4 * (z / (z - 1 / 2)) + -4 * (z / (z - -1 / 4))*)
|
|
s1210629013@55373
|
332 |
(*([4], Frm), X_z = 4 * (z / (z - 1 / 2)) + -4 * (z / (z - -1 / 4))*)
|
|
s1210629013@55373
|
333 |
" (X_zeq::bool) = Take (X_z = rhs pbz_eq); "^
|
|
s1210629013@55373
|
334 |
(*([4], Res), X_z = 4 * (1 / 2) ^^^ ?n * ?u [?n] + -4 * (-1 / 4) ^^^ ?n * ?u [?n]*)
|
|
wneuper@59512
|
335 |
" n_eq = (Rewrite_Set ''inverse_z'' False) X_zeq "^
|
|
s1210629013@55373
|
336 |
(* X_z = 4 * (1 / 2) ^^^ n * u [n] + -4 * (-1 / 4) ^^^ n * u [n]*)
|
|
s1210629013@55373
|
337 |
(*([], Res), X_z = 4 * (1 / 2) ^^^ n * u [n] + -4 * (-1 / 4) ^^^ n * u [n]*)
|
|
s1210629013@55373
|
338 |
"in n_eq)")]
|
|
wneuper@59472
|
339 |
\<close>
|
|
neuper@42256
|
340 |
|
|
neuper@42256
|
341 |
end
|
|
neuper@42256
|
342 |
|