neuper@37906
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(* integration over the reals
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neuper@37906
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author: Walther Neuper
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neuper@37906
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050814, 08:51
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neuper@37906
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(c) due to copyright terms
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neuper@37906
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*)
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neuper@37954
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theory Integrate imports Diff begin
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consts
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Integral :: "[real, real]=> real" ("Integral _ D _" 91)
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(*new'_c :: "real => real" ("new'_c _" 66)*)
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is'_f'_x :: "real => bool" ("_ is'_f'_x" 10)
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(*descriptions in the related problems*)
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integrateBy :: "real => una"
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antiDerivative :: "real => una"
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antiDerivativeName :: "(real => real) => una"
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(*the CAS-command, eg. "Integrate (2*x^^^3, x)"*)
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Integrate :: "[real * real] => real"
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(*Script-names*)
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IntegrationScript :: "[real,real, real] => real"
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("((Script IntegrationScript (_ _ =))// (_))" 9)
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NamedIntegrationScript :: "[real,real, real=>real, bool] => bool"
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("((Script NamedIntegrationScript (_ _ _=))// (_))" 9)
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t@42211
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axioms(*axiomatization where*)
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(*stated as axioms, todo: prove as theorems
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'bdv' is a constant handled on the meta-level
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specifically as a 'bound variable' *)
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t@42211
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integral_const: "Not (bdv occurs_in u) ==> Integral u D bdv = u * bdv" (*and*)
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t@42211
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integral_var: "Integral bdv D bdv = bdv ^^^ 2 / 2" (*and*)
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integral_add: "Integral (u + v) D bdv =
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t@42211
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(Integral u D bdv) + (Integral v D bdv)" (*and*)
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integral_mult: "[| Not (bdv occurs_in u); bdv occurs_in v |] ==>
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t@42211
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Integral (u * v) D bdv = u * (Integral v D bdv)" (*and*)
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(*WN080222: this goes into sub-terms, too ...
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call_for_new_c: "[| Not (matches (u + new_c v) a); Not (a is_f_x) |] ==>
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a = a + new_c a"
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*)
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integral_pow: "Integral bdv ^^^ n D bdv = bdv ^^^ (n+1) / (n + 1)"
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ML {*
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neuper@37972
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val thy = @{theory};
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neuper@37972
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neuper@37954
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(** eval functions **)
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val c = Free ("c", HOLogic.realT);
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(*.create a new unique variable 'c..' in a term; for use by Calc in a rls;
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an alternative to do this would be '(Try (Calculate new_c_) (new_c es__))'
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in the script; this will be possible if currying doesnt take the value
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from a variable, but the value '(new_c es__)' itself.*)
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fun new_c term =
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let fun selc var =
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neuper@40836
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case (Symbol.explode o id_of) var of
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"c"::[] => true
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| "c"::"_"::is => (case (int_of_str o implode) is of
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SOME _ => true
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| NONE => false)
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| _ => false;
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fun get_coeff c = case (Symbol.explode o id_of) c of
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"c"::"_"::is => (the o int_of_str o implode) is
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| _ => 0;
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val cs = filter selc (vars term);
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in
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case cs of
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[] => c
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| [c] => Free ("c_2", HOLogic.realT)
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| cs =>
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let val max_coeff = maxl (map get_coeff cs)
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in Free ("c_"^string_of_int (max_coeff + 1), HOLogic.realT) end
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end;
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(*WN080222
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(*("new_c", ("Integrate.new'_c", eval_new_c "#new_c_"))*)
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fun eval_new_c _ _ (p as (Const ("Integrate.new'_c",_) $ t)) _ =
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SOME ((term2str p) ^ " = " ^ term2str (new_c p),
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Trueprop $ (mk_equality (p, new_c p)))
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| eval_new_c _ _ _ _ = NONE;
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*)
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(*WN080222:*)
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(*("add_new_c", ("Integrate.add'_new'_c", eval_add_new_c "#add_new_c_"))
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add a new c to a term or a fun-equation;
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this is _not in_ the term, because only applied to _whole_ term*)
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fun eval_add_new_c (_:string) "Integrate.add'_new'_c" p (_:theory) =
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let val p' = case p of
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neuper@41922
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Const ("HOL.eq", T) $ lh $ rh =>
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neuper@41922
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Const ("HOL.eq", T) $ lh $ mk_add rh (new_c rh)
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| p => mk_add p (new_c p)
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in SOME ((term2str p) ^ " = " ^ term2str p',
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Trueprop $ (mk_equality (p, p')))
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end
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| eval_add_new_c _ _ _ _ = NONE;
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(*("is_f_x", ("Integrate.is'_f'_x", eval_is_f_x "is_f_x_"))*)
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fun eval_is_f_x _ _(p as (Const ("Integrate.is'_f'_x", _)
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neuper@37954
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$ arg)) _ =
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if is_f_x arg
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then SOME ((term2str p) ^ " = True",
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Trueprop $ (mk_equality (p, @{term True})))
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else SOME ((term2str p) ^ " = False",
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Trueprop $ (mk_equality (p, @{term False})))
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| eval_is_f_x _ _ _ _ = NONE;
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calclist':= overwritel (!calclist',
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[(*("new_c", ("Integrate.new'_c", eval_new_c "new_c_")),*)
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("add_new_c", ("Integrate.add'_new'_c", eval_add_new_c "add_new_c_")),
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("is_f_x", ("Integrate.is'_f'_x", eval_is_f_x "is_f_idextifier_"))
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]);
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neuper@37996
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*}
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neuper@37996
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ML {*
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neuper@37954
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(** rulesets **)
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neuper@37954
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neuper@37954
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(*.rulesets for integration.*)
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neuper@37954
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val integration_rules =
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Rls {id="integration_rules", preconds = [],
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rew_ord = ("termlessI",termlessI),
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erls = Rls {id="conditions_in_integration_rules",
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preconds = [],
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rew_ord = ("termlessI",termlessI),
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erls = Erls,
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neuper@42451
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srls = Erls, calc = [], errpatts = [],
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neuper@37954
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rules = [(*for rewriting conditions in Thm's*)
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Calc ("Atools.occurs'_in",
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eval_occurs_in "#occurs_in_"),
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neuper@37969
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Thm ("not_true",num_str @{thm not_true}),
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Thm ("not_false",@{thm not_false})
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],
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scr = EmptyScr},
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neuper@42451
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srls = Erls, calc = [], errpatts = [],
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neuper@37954
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rules = [
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neuper@37969
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Thm ("integral_const",num_str @{thm integral_const}),
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Thm ("integral_var",num_str @{thm integral_var}),
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Thm ("integral_add",num_str @{thm integral_add}),
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Thm ("integral_mult",num_str @{thm integral_mult}),
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neuper@37969
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Thm ("integral_pow",num_str @{thm integral_pow}),
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neuper@38014
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Calc ("Groups.plus_class.plus", eval_binop "#add_")(*for n+1*)
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neuper@37954
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],
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scr = EmptyScr};
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*}
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neuper@37996
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ML {*
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neuper@37954
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val add_new_c =
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neuper@37954
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Seq {id="add_new_c", preconds = [],
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neuper@37954
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rew_ord = ("termlessI",termlessI),
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neuper@37954
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erls = Rls {id="conditions_in_add_new_c",
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preconds = [],
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neuper@37954
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rew_ord = ("termlessI",termlessI),
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neuper@37954
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erls = Erls,
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neuper@42451
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srls = Erls, calc = [], errpatts = [],
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neuper@37954
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rules = [Calc ("Tools.matches", eval_matches""),
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neuper@37954
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Calc ("Integrate.is'_f'_x",
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neuper@37954
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eval_is_f_x "is_f_x_"),
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neuper@37969
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Thm ("not_true",num_str @{thm not_true}),
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neuper@37996
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Thm ("not_false",num_str @{thm not_false})
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neuper@37954
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],
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neuper@37954
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scr = EmptyScr},
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neuper@42451
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srls = Erls, calc = [], errpatts = [],
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neuper@37969
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rules = [ (*Thm ("call_for_new_c", num_str @{thm call_for_new_c}),*)
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neuper@37954
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Cal1 ("Integrate.add'_new'_c", eval_add_new_c "new_c_")
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],
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neuper@37954
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scr = EmptyScr};
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neuper@37996
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*}
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neuper@37996
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ML {*
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neuper@37954
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neuper@37954
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(*.rulesets for simplifying Integrals.*)
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neuper@37954
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neuper@37954
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(*.for simplify_Integral adapted from 'norm_Rational_rls'.*)
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neuper@37954
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val norm_Rational_rls_noadd_fractions =
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neuper@37954
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Rls {id = "norm_Rational_rls_noadd_fractions", preconds = [],
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neuper@37954
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rew_ord = ("dummy_ord",dummy_ord),
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neuper@42451
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erls = norm_rat_erls, srls = Erls, calc = [], errpatts = [],
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neuper@52105
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rules = [(*Rls_ add_fractions_p_rls,!!!*)
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neuper@37954
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Rls_ (*rat_mult_div_pow original corrected WN051028*)
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neuper@37954
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(Rls {id = "rat_mult_div_pow", preconds = [],
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neuper@37954
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rew_ord = ("dummy_ord",dummy_ord),
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neuper@37954
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erls = (*FIXME.WN051028 e_rls,*)
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neuper@37954
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append_rls "e_rls-is_polyexp" e_rls
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neuper@37954
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[Calc ("Poly.is'_polyexp",
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neuper@37954
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eval_is_polyexp "")],
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neuper@42451
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srls = Erls, calc = [], errpatts = [],
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neuper@37969
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rules = [Thm ("rat_mult",num_str @{thm rat_mult}),
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neuper@37954
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(*"?a / ?b * (?c / ?d) = ?a * ?c / (?b * ?d)"*)
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neuper@37969
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Thm ("rat_mult_poly_l",num_str @{thm rat_mult_poly_l}),
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neuper@37954
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(*"?c is_polyexp ==> ?c * (?a / ?b) = ?c * ?a / ?b"*)
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neuper@37969
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Thm ("rat_mult_poly_r",num_str @{thm rat_mult_poly_r}),
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neuper@37954
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(*"?c is_polyexp ==> ?a / ?b * ?c = ?a * ?c / ?b"*)
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neuper@37954
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neuper@37979
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Thm ("real_divide_divide1_mg",
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neuper@37979
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num_str @{thm real_divide_divide1_mg}),
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neuper@37954
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(*"y ~= 0 ==> (u / v) / (y / z) = (u * z) / (y * v)"*)
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neuper@37979
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Thm ("divide_divide_eq_right",
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neuper@37979
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num_str @{thm divide_divide_eq_right}),
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neuper@37954
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(*"?x / (?y / ?z) = ?x * ?z / ?y"*)
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neuper@37979
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Thm ("divide_divide_eq_left",
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neuper@37979
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num_str @{thm divide_divide_eq_left}),
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neuper@37954
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(*"?x / ?y / ?z = ?x / (?y * ?z)"*)
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neuper@48789
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Calc ("Fields.inverse_class.divide" ,eval_cancel "#divide_e"),
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neuper@37954
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neuper@37969
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Thm ("rat_power", num_str @{thm rat_power})
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neuper@37954
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(*"(?a / ?b) ^^^ ?n = ?a ^^^ ?n / ?b ^^^ ?n"*)
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neuper@37954
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],
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neuper@48763
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scr = Prog ((term_of o the o (parse thy)) "empty_script")
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neuper@37954
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}),
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neuper@37954
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Rls_ make_rat_poly_with_parentheses,
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neuper@37954
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Rls_ cancel_p_rls,(*FIXME:cancel_p does NOT order sometimes*)
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neuper@37954
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Rls_ rat_reduce_1
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neuper@37954
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],
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neuper@48763
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scr = Prog ((term_of o the o (parse thy)) "empty_script")
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neuper@37954
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}:rls;
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neuper@37954
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neuper@37954
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(*.for simplify_Integral adapted from 'norm_Rational'.*)
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neuper@37954
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val norm_Rational_noadd_fractions =
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neuper@37954
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Seq {id = "norm_Rational_noadd_fractions", preconds = [],
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neuper@37954
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rew_ord = ("dummy_ord",dummy_ord),
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neuper@42451
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erls = norm_rat_erls, srls = Erls, calc = [], errpatts = [],
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neuper@37980
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rules = [Rls_ discard_minus,
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neuper@37954
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Rls_ rat_mult_poly,(* removes double fractions like a/b/c *)
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neuper@37954
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Rls_ make_rat_poly_with_parentheses, (*WN0510 also in(#)below*)
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neuper@37954
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Rls_ cancel_p_rls, (*FIXME.MG:cancel_p does NOT order sometim*)
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neuper@37954
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Rls_ norm_Rational_rls_noadd_fractions,(* the main rls (#) *)
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neuper@37979
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Rls_ discard_parentheses1 (* mult only *)
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neuper@37954
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],
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neuper@48763
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scr = Prog ((term_of o the o (parse thy)) "empty_script")
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neuper@37954
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}:rls;
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neuper@37954
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neuper@37954
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(*.simplify terms before and after Integration such that
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neuper@37954
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..a.x^2/2 + b.x^3/3.. is made to ..a/2.x^2 + b/3.x^3.. (and NO
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neuper@37954
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common denominator as done by norm_Rational or make_ratpoly_in.
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neuper@37954
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This is a copy from 'make_ratpoly_in' with respective reduction of rules and
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neuper@37954
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*1* expand the term, ie. distribute * and / over +
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neuper@37954
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.*)
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neuper@37954
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val separate_bdv2 =
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neuper@37954
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append_rls "separate_bdv2"
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neuper@37954
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collect_bdv
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neuper@37969
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[Thm ("separate_bdv", num_str @{thm separate_bdv}),
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neuper@37954
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(*"?a * ?bdv / ?b = ?a / ?b * ?bdv"*)
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neuper@37969
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Thm ("separate_bdv_n", num_str @{thm separate_bdv_n}),
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neuper@37969
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Thm ("separate_1_bdv", num_str @{thm separate_1_bdv}),
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neuper@37954
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(*"?bdv / ?b = (1 / ?b) * ?bdv"*)
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neuper@37969
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Thm ("separate_1_bdv_n", num_str @{thm separate_1_bdv_n})(*,
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neuper@37954
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(*"?bdv ^^^ ?n / ?b = 1 / ?b * ?bdv ^^^ ?n"*)
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neuper@37991
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*****Thm ("add_divide_distrib",
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neuper@37991
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*****num_str @{thm add_divide_distrib})
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neuper@37954
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(*"(?x + ?y) / ?z = ?x / ?z + ?y / ?z"*)----------*)
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neuper@37954
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];
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neuper@37954
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val simplify_Integral =
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neuper@37954
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Seq {id = "simplify_Integral", preconds = []:term list,
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neuper@37954
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rew_ord = ("dummy_ord", dummy_ord),
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neuper@37954
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erls = Atools_erls, srls = Erls,
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neuper@42451
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calc = [], errpatts = [],
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neuper@52062
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rules = [Thm ("distrib_right",num_str @{thm distrib_right}),
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|
258 |
(*"(?z1.0 + ?z2.0) * ?w = ?z1.0 * ?w + ?z2.0 * ?w"*)
|
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|
259 |
Thm ("add_divide_distrib",num_str @{thm add_divide_distrib}),
|
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|
260 |
(*"(?x + ?y) / ?z = ?x / ?z + ?y / ?z"*)
|
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|
261 |
(*^^^^^ *1* ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^*)
|
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|
262 |
Rls_ norm_Rational_noadd_fractions,
|
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|
263 |
Rls_ order_add_mult_in,
|
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|
264 |
Rls_ discard_parentheses,
|
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|
265 |
(*Rls_ collect_bdv, from make_polynomial_in*)
|
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|
266 |
Rls_ separate_bdv2,
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|
267 |
Calc ("Fields.inverse_class.divide" ,eval_cancel "#divide_e")
|
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|
268 |
],
|
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|
269 |
scr = EmptyScr}:rls;
|
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|
270 |
|
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|
271 |
|
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|
272 |
(*simplify terms before and after Integration such that
|
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|
273 |
..a.x^2/2 + b.x^3/3.. is made to ..a/2.x^2 + b/3.x^3.. (and NO
|
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|
274 |
common denominator as done by norm_Rational or make_ratpoly_in.
|
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|
275 |
This is a copy from 'make_polynomial_in' with insertions from
|
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|
276 |
'make_ratpoly_in'
|
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|
277 |
THIS IS KEPT FOR COMPARISON ............................................
|
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|
278 |
* val simplify_Integral = prep_rls(
|
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|
279 |
* Seq {id = "", preconds = []:term list,
|
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|
280 |
* rew_ord = ("dummy_ord", dummy_ord),
|
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|
281 |
* erls = Atools_erls, srls = Erls,
|
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|
282 |
* calc = [], (*asm_thm = [],*)
|
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|
283 |
* rules = [Rls_ expand_poly,
|
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|
284 |
* Rls_ order_add_mult_in,
|
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|
285 |
* Rls_ simplify_power,
|
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|
286 |
* Rls_ collect_numerals,
|
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|
287 |
* Rls_ reduce_012,
|
neuper@37969
|
288 |
* Thm ("realpow_oneI",num_str @{thm realpow_oneI}),
|
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|
289 |
* Rls_ discard_parentheses,
|
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|
290 |
* Rls_ collect_bdv,
|
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|
291 |
* (*below inserted from 'make_ratpoly_in'*)
|
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|
292 |
* Rls_ (append_rls "separate_bdv"
|
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|
293 |
* collect_bdv
|
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|
294 |
* [Thm ("separate_bdv", num_str @{thm separate_bdv}),
|
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|
295 |
* (*"?a * ?bdv / ?b = ?a / ?b * ?bdv"*)
|
neuper@37969
|
296 |
* Thm ("separate_bdv_n", num_str @{thm separate_bdv_n}),
|
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|
297 |
* Thm ("separate_1_bdv", num_str @{thm separate_1_bdv}),
|
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|
298 |
* (*"?bdv / ?b = (1 / ?b) * ?bdv"*)
|
neuper@37969
|
299 |
* Thm ("separate_1_bdv_n", num_str @{thm separate_1_bdv_n})(*,
|
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|
300 |
* (*"?bdv ^^^ ?n / ?b = 1 / ?b * ?bdv ^^^ ?n"*)
|
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|
301 |
* Thm ("add_divide_distrib",
|
neuper@37991
|
302 |
* num_str @{thm add_divide_distrib})
|
neuper@37954
|
303 |
* (*"(?x + ?y) / ?z = ?x / ?z + ?y / ?z"*)*)
|
neuper@37954
|
304 |
* ]),
|
neuper@48789
|
305 |
* Calc ("Fields.inverse_class.divide" ,eval_cancel "#divide_e")
|
neuper@37954
|
306 |
* ],
|
neuper@37954
|
307 |
* scr = EmptyScr
|
neuper@37954
|
308 |
* }:rls);
|
neuper@37954
|
309 |
.......................................................................*)
|
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|
310 |
|
neuper@37954
|
311 |
val integration =
|
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|
312 |
Seq {id="integration", preconds = [],
|
neuper@37954
|
313 |
rew_ord = ("termlessI",termlessI),
|
neuper@37954
|
314 |
erls = Rls {id="conditions_in_integration",
|
neuper@37954
|
315 |
preconds = [],
|
neuper@37954
|
316 |
rew_ord = ("termlessI",termlessI),
|
neuper@37954
|
317 |
erls = Erls,
|
neuper@42451
|
318 |
srls = Erls, calc = [], errpatts = [],
|
neuper@37954
|
319 |
rules = [],
|
neuper@37954
|
320 |
scr = EmptyScr},
|
neuper@42451
|
321 |
srls = Erls, calc = [], errpatts = [],
|
neuper@37954
|
322 |
rules = [ Rls_ integration_rules,
|
neuper@37954
|
323 |
Rls_ add_new_c,
|
neuper@37954
|
324 |
Rls_ simplify_Integral
|
neuper@37954
|
325 |
],
|
neuper@37954
|
326 |
scr = EmptyScr};
|
neuper@37954
|
327 |
ruleset' :=
|
neuper@37967
|
328 |
overwritelthy @{theory} (!ruleset',
|
neuper@37954
|
329 |
[("integration_rules", prep_rls integration_rules),
|
neuper@37954
|
330 |
("add_new_c", prep_rls add_new_c),
|
neuper@37954
|
331 |
("simplify_Integral", prep_rls simplify_Integral),
|
neuper@37954
|
332 |
("integration", prep_rls integration),
|
neuper@37954
|
333 |
("separate_bdv2", separate_bdv2),
|
neuper@37954
|
334 |
("norm_Rational_noadd_fractions", norm_Rational_noadd_fractions),
|
neuper@37954
|
335 |
("norm_Rational_rls_noadd_fractions",
|
neuper@37954
|
336 |
norm_Rational_rls_noadd_fractions)
|
neuper@37954
|
337 |
]);
|
neuper@37996
|
338 |
*}
|
neuper@37996
|
339 |
ML {*
|
neuper@37954
|
340 |
|
neuper@37954
|
341 |
(** problems **)
|
neuper@37954
|
342 |
|
neuper@37954
|
343 |
store_pbt
|
neuper@37972
|
344 |
(prep_pbt thy "pbl_fun_integ" [] e_pblID
|
neuper@37954
|
345 |
(["integrate","function"],
|
neuper@37994
|
346 |
[("#Given" ,["functionTerm f_f", "integrateBy v_v"]),
|
neuper@37996
|
347 |
("#Find" ,["antiDerivative F_F"])
|
neuper@37954
|
348 |
],
|
neuper@37954
|
349 |
append_rls "e_rls" e_rls [(*for preds in where_*)],
|
neuper@37994
|
350 |
SOME "Integrate (f_f, v_v)",
|
neuper@37954
|
351 |
[["diff","integration"]]));
|
neuper@37954
|
352 |
|
neuper@37954
|
353 |
(*here "named" is used differently from Differentiation"*)
|
neuper@37954
|
354 |
store_pbt
|
neuper@37972
|
355 |
(prep_pbt thy "pbl_fun_integ_nam" [] e_pblID
|
neuper@37954
|
356 |
(["named","integrate","function"],
|
neuper@37994
|
357 |
[("#Given" ,["functionTerm f_f", "integrateBy v_v"]),
|
neuper@37996
|
358 |
("#Find" ,["antiDerivativeName F_F"])
|
neuper@37954
|
359 |
],
|
neuper@37954
|
360 |
append_rls "e_rls" e_rls [(*for preds in where_*)],
|
neuper@37994
|
361 |
SOME "Integrate (f_f, v_v)",
|
neuper@37954
|
362 |
[["diff","integration","named"]]));
|
neuper@37954
|
363 |
|
neuper@37996
|
364 |
*}
|
neuper@37996
|
365 |
ML {*
|
neuper@37954
|
366 |
(** methods **)
|
neuper@37954
|
367 |
|
neuper@37954
|
368 |
store_met
|
neuper@37972
|
369 |
(prep_met thy "met_diffint" [] e_metID
|
neuper@37954
|
370 |
(["diff","integration"],
|
neuper@37994
|
371 |
[("#Given" ,["functionTerm f_f", "integrateBy v_v"]),
|
neuper@37996
|
372 |
("#Find" ,["antiDerivative F_F"])
|
neuper@37954
|
373 |
],
|
neuper@37954
|
374 |
{rew_ord'="tless_true", rls'=Atools_erls, calc = [],
|
neuper@37954
|
375 |
srls = e_rls,
|
neuper@37954
|
376 |
prls=e_rls,
|
neuper@42425
|
377 |
crls = Atools_erls, errpats = [], nrls = e_rls},
|
neuper@37994
|
378 |
"Script IntegrationScript (f_f::real) (v_v::real) = " ^
|
neuper@37996
|
379 |
" (let t_t = Take (Integral f_f D v_v) " ^
|
neuper@37996
|
380 |
" in (Rewrite_Set_Inst [(bdv,v_v)] integration False) (t_t::real))"
|
neuper@37954
|
381 |
));
|
neuper@37996
|
382 |
*}
|
neuper@37996
|
383 |
ML {*
|
neuper@37996
|
384 |
|
neuper@37954
|
385 |
store_met
|
neuper@37972
|
386 |
(prep_met thy "met_diffint_named" [] e_metID
|
neuper@37954
|
387 |
(["diff","integration","named"],
|
neuper@37994
|
388 |
[("#Given" ,["functionTerm f_f", "integrateBy v_v"]),
|
neuper@37996
|
389 |
("#Find" ,["antiDerivativeName F_F"])
|
neuper@37954
|
390 |
],
|
neuper@37954
|
391 |
{rew_ord'="tless_true", rls'=Atools_erls, calc = [],
|
neuper@37954
|
392 |
srls = e_rls,
|
neuper@37954
|
393 |
prls=e_rls,
|
neuper@42425
|
394 |
crls = Atools_erls, errpats = [], nrls = e_rls},
|
neuper@37996
|
395 |
"Script NamedIntegrationScript (f_f::real) (v_v::real) (F_F::real=>real) = " ^
|
neuper@37996
|
396 |
" (let t_t = Take (F_F v_v = Integral f_f D v_v) " ^
|
neuper@37991
|
397 |
" in ((Try (Rewrite_Set_Inst [(bdv,v_v)] simplify_Integral False)) @@ " ^
|
neuper@37996
|
398 |
" (Rewrite_Set_Inst [(bdv,v_v)] integration False)) t_t) "
|
neuper@37954
|
399 |
));
|
neuper@37954
|
400 |
*}
|
neuper@37954
|
401 |
|
neuper@37906
|
402 |
end |