DeRhamComputation/auxilliaries/laurent_analytic_part.sage

16 lines
438 B
Python

def laurent_analytic_part(series):
F = base_ring(parent(series))
Ft.<t> = LaurentSeriesRing(F)
result = Ft(0)
for i in series.exponents():
if i<0:
result += series[i]*t^i
return result
def laurent_integral(series):
F = base_ring(parent(series))
Ft.<t> = LaurentSeriesRing(F)
result = Ft(0)
for i in series.exponents():
result += series[i]*(t^i).integral()
return result