| LIB "classify.lib";
internalfunctions();
→ Internal functions for the classification using Arnold's method,
→ the function numbers correspond to numbers in Arnold's classifier:
→ Klassifiziere(poly f); //determine the type of the singularity f
→ Funktion1bis (poly f, list cstn)
→ Funktion3 (poly f, list cstn)
→ Funktion6 (poly f, list cstn)
→ Funktion13 (poly f, list cstn)
→ Funktion17 (poly f, list cstn)
→ Funktion25 (poly f, list cstn)
→ Funktion40 (poly f, list cstn, int k)
→ Funktion47 (poly f, list cstn)
→ Funktion50 (poly f, list cstn)
→ Funktion58 (poly fin, list cstn)
→ Funktion59 (poly f, list cstn)
→ Funktion66 (poly f, list cstn)
→ Funktion82 (poly f, list cstn)
→ Funktion83 (poly f, list cstn)
→ Funktion91 (poly f, list cstn, int k)
→ Funktion92 (poly f, list cstn, int k)
→ Funktion93 (poly f, list cstn, int k)
→ Funktion94 (poly f, list cstn, int k)
→ Funktion95 (poly f, list cstn, int k)
→ Funktion96 (poly f, list cstn, int k)
→ Funktion97 (poly f, list cstn)
→ Isomorphie_s82_x (poly f, poly fk, int k)
→ Isomorphie_s82_z (poly f, poly fk, int k)
→ Isomorphie_s17 (poly f, poly fk, int k, int ct)
→ printresult (string f,string typ,int Mu,int m,int corank,int K)
→
→ Internal functions for the classifcation by invariants:
→ Cubic (poly f)
→ parity (int e) //return the parity of e
→ HKclass (intvec i)
→ HKclass3( intvec i, string SG_Typ, int cnt)
→ HKclass3_teil_1 (intvec i, string SG_Typ, int cnt)
→ HKclass5 (intvec i, string SG_Typ, int cnt)
→ HKclass5_teil_1 (intvec i, string SG_Typ, int cnt)
→ HKclass5_teil_2 (intvec i, string SG_Typ, int cnt)
→ HKclass7 (intvec i, string SG_Typ, int cnt)
→ HKclass7_teil_1 (intvec i, string SG_Typ, int cnt)
→
→ Internal functions for the Morse-splitting lemma:
→ Morse(poly fi, int K, int corank) //splitting lemma itself
→ Coeffs (list #)
→ Coeff
→
→ Internal functions providing tools:
→ ReOrder(poly f)
→ Singularitaet(string typ,int k,int r,int s,poly a,poly b,poly c,poly d)
→ RandomPolyK
→ Faktorisiere(poly f, poly g, int p, int k) compute g = (ax+by^k)^p
→ Teile(poly f, poly g); //divides f by g
→ GetRf(poly f, int n);
→ Show(poly f);
→ checkring();
→ DecodeNormalFormString(string s);
→ Setring(int n, string ringname);
→
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