print ".....done" print "math_classes, Lfunction" from math_classes import ArtinRepresentation, NumberFieldGaloisGroup from Lfunction import ArtinLfunction print ".....done" # a = ArtinRepresentation(1,"5",2) # b = ArtinRepresentation.find_one({'Dim': 1, 'DBIndex': 1, 'Conductor': '5'}) # c = b.number_field_galois_group() # d = c.artin_representations() # l = ArtinLfunction(dimension = "1", conductor = "5", tim_index = "2") k = 0 for x in ArtinRepresentation.find(): try: tmp = [ x.local_factor(p) for p in [11, 13, 17, 19, 23] if not self.is_bad_prime(p) ] print tmp print x except: pass k += 1 if k > 100: break # nf = l.artin.number_field_galois_group()
print "initializing connection" base._init(37010, "") print ".....done" print "math_classes, Lfunction" from math_classes import ArtinRepresentation, NumberFieldGaloisGroup from Lfunction import ArtinLfunction print ".....done" # a = ArtinRepresentation(1,"5",2) # b = ArtinRepresentation.find_one({'Dim': 1, 'DBIndex': 1, 'Conductor': '5'}) # c = b.number_field_galois_group() # d = c.artin_representations() # l = ArtinLfunction("1","5","2") k = 0 for x in ArtinRepresentation.find(): try: tmp = [x.local_factor(p) for p in [11, 13, 17, 19, 23] if not self.is_bad_prime(p)] print tmp print x except: pass k += 1 if k > 100: break # nf = l.artin.number_field_galois_group()