(**************************************************************************) (* ___ *) (* ||M|| *) (* ||A|| A project by Andrea Asperti *) (* ||T|| *) (* ||I|| Developers: *) (* ||T|| The HELM team. *) (* ||A|| http://helm.cs.unibo.it *) (* \ / *) (* \ / This file is distributed under the terms of the *) (* v GNU General Public License Version 2 *) (* *) (**************************************************************************) (* This file was automatically generated: do not edit *********************) include "CoRN.ma". (* $Id: Taylor.v,v 1.10 2004/04/23 10:01:01 lcf Exp $ *) include "ftc/TaylorLemma.ma". (* UNEXPORTED Opaque Min Max N_Deriv. *) (* UNEXPORTED Section More_Taylor_Defs *) (*#* **General case The generalization to arbitrary intervals just needs a few more definitions. %\begin{convention}% Let [I] be a proper interval, [F:PartIR] and [a,b:IR] be points of [I]. %\end{convention}% *) alias id "I" = "cic:/CoRN/ftc/Taylor/More_Taylor_Defs/I.var". alias id "pI" = "cic:/CoRN/ftc/Taylor/More_Taylor_Defs/pI.var". alias id "F" = "cic:/CoRN/ftc/Taylor/More_Taylor_Defs/F.var". (* begin show *) inline procedural "cic:/CoRN/ftc/Taylor/More_Taylor_Defs/deriv_Sn.con" "More_Taylor_Defs__". (* end show *) alias id "a" = "cic:/CoRN/ftc/Taylor/More_Taylor_Defs/a.var". alias id "b" = "cic:/CoRN/ftc/Taylor/More_Taylor_Defs/b.var". alias id "Ha" = "cic:/CoRN/ftc/Taylor/More_Taylor_Defs/Ha.var". alias id "Hb" = "cic:/CoRN/ftc/Taylor/More_Taylor_Defs/Hb.var". (* begin show *) inline procedural "cic:/CoRN/ftc/Taylor/More_Taylor_Defs/fi.con" "More_Taylor_Defs__". inline procedural "cic:/CoRN/ftc/Taylor/More_Taylor_Defs/funct_i.con" "More_Taylor_Defs__". (* end show *) inline procedural "cic:/CoRN/ftc/Taylor/Taylor_Seq'.con". (* begin hide *) inline procedural "cic:/CoRN/ftc/Taylor/TaylorB.con". (* end hide *) inline procedural "cic:/CoRN/ftc/Taylor/Taylor_Rem.con". (* begin hide *) inline procedural "cic:/CoRN/ftc/Taylor/Taylor_Sumx_lemma.con". inline procedural "cic:/CoRN/ftc/Taylor/Taylor_lemma_ap.con". (* end hide *) inline procedural "cic:/CoRN/ftc/Taylor/Taylor'.con". (* UNEXPORTED End More_Taylor_Defs *) (* UNEXPORTED Section Taylor_Theorem *) (*#* And finally the ``nice'' version, when we know the expression of the derivatives of [F]. %\begin{convention}% Let [f] be the sequence of derivatives of [F] of order up to [n] and [F'] be the nth-derivative of [F]. %\end{convention}% *) alias id "I" = "cic:/CoRN/ftc/Taylor/Taylor_Theorem/I.var". alias id "pI" = "cic:/CoRN/ftc/Taylor/Taylor_Theorem/pI.var". alias id "F" = "cic:/CoRN/ftc/Taylor/Taylor_Theorem/F.var". alias id "n" = "cic:/CoRN/ftc/Taylor/Taylor_Theorem/n.var". alias id "f" = "cic:/CoRN/ftc/Taylor/Taylor_Theorem/f.var". alias id "goodF" = "cic:/CoRN/ftc/Taylor/Taylor_Theorem/goodF.var". alias id "goodF'" = "cic:/CoRN/ftc/Taylor/Taylor_Theorem/goodF'.var". alias id "derF" = "cic:/CoRN/ftc/Taylor/Taylor_Theorem/derF.var". alias id "F'" = "cic:/CoRN/ftc/Taylor/Taylor_Theorem/F'.var". alias id "derF'" = "cic:/CoRN/ftc/Taylor/Taylor_Theorem/derF'.var". alias id "a" = "cic:/CoRN/ftc/Taylor/Taylor_Theorem/a.var". alias id "b" = "cic:/CoRN/ftc/Taylor/Taylor_Theorem/b.var". alias id "Ha" = "cic:/CoRN/ftc/Taylor/Taylor_Theorem/Ha.var". alias id "Hb" = "cic:/CoRN/ftc/Taylor/Taylor_Theorem/Hb.var". (* begin show *) inline procedural "cic:/CoRN/ftc/Taylor/Taylor_Theorem/funct_i.con" "Taylor_Theorem__". inline procedural "cic:/CoRN/ftc/Taylor/Taylor_Seq.con". inline procedural "cic:/CoRN/ftc/Taylor/Taylor_Theorem/deriv_Sn.con" "Taylor_Theorem__". (* end show *) inline procedural "cic:/CoRN/ftc/Taylor/Taylor_aux.con". (* UNEXPORTED Transparent N_Deriv. *) inline procedural "cic:/CoRN/ftc/Taylor/Taylor.con". (* UNEXPORTED End Taylor_Theorem *)