// Magma code for working with number field 26.0.4459331436230036418749915076130198106842162927.1

// Some of these functions may take a long time to execute (this depends on the field).

// Define the number field: 
R<x> := PolynomialRing(Rationals()); K<a> := NumberField(x^26 - 2*x^25 + 17*x^24 - 98*x^23 + 152*x^22 - 696*x^21 + 1597*x^20 + 1896*x^19 + 20067*x^18 + 156392*x^17 + 357813*x^16 - 241572*x^15 - 6441785*x^14 - 21049242*x^13 - 6337440*x^12 + 144534568*x^11 + 455484358*x^10 + 307770160*x^9 - 848362260*x^8 - 452511774*x^7 + 6860115833*x^6 + 21793527372*x^5 + 15854969370*x^4 - 22167126630*x^3 - 34371344111*x^2 - 12604846614*x + 29070259637);

// Defining polynomial: 
DefiningPolynomial(K);

// Degree over Q: 
Degree(K);

// Signature: 
Signature(K);

// Discriminant: 
OK := Integers(K); Discriminant(OK);

// Ramified primes: 
PrimeDivisors(Discriminant(OK));

// Autmorphisms: 
Automorphisms(K);

// Integral basis: 
IntegralBasis(K);

// Class group: 
ClassGroup(K);

// Unit group: 
UK, fUK := UnitGroup(K);

// Unit rank: 
UnitRank(K);

// Generator for roots of unity: 
K!f(TU.1) where TU,f is TorsionUnitGroup(K);

// Fundamental units: 
[K|fUK(g): g in Generators(UK)];

// Regulator: 
Regulator(K);

// Analytic class number formula: 
/* self-contained Magma code snippet to compute the analytic class number formula */
Qx<x> := PolynomialRing(QQ); K<a> := NumberField(x^26 - 2*x^25 + 17*x^24 - 98*x^23 + 152*x^22 - 696*x^21 + 1597*x^20 + 1896*x^19 + 20067*x^18 + 156392*x^17 + 357813*x^16 - 241572*x^15 - 6441785*x^14 - 21049242*x^13 - 6337440*x^12 + 144534568*x^11 + 455484358*x^10 + 307770160*x^9 - 848362260*x^8 - 452511774*x^7 + 6860115833*x^6 + 21793527372*x^5 + 15854969370*x^4 - 22167126630*x^3 - 34371344111*x^2 - 12604846614*x + 29070259637);
OK := Integers(K); DK := Discriminant(OK);
UK, fUK := UnitGroup(OK); clK, fclK := ClassGroup(OK);
r1,r2 := Signature(K); RK := Regulator(K); RR := Parent(RK);
hK := #clK; wK := #TorsionSubgroup(UK);
2^r1 * (2*Pi(RR))^r2 * RK * hK / (wK * Sqrt(RR!Abs(DK)));

// Intermediate fields: 
L := Subfields(K); L[2..#L];

// Galois group: 
G = GaloisGroup(K);

// Frobenius cycle types: 
// to obtain a list of $[e_i,f_i]$ for the factorization of the ideal $p\mathcal{O}_K$ for $p=7 in Magma:
p := 7; [<pr[2], Valuation(Norm(pr[1]), p)> : pr in Factorization(p*Integers(K))];