def npp_func(day): return mpa.npp[day_2_month_index(day)]
def npp_func(day): month = day_2_month_index(day) return dvs.npp[month] * 86400 # kg/m2/s kg/m2/day
def npp_func(day): #xs = tup[1:] return mpa.npp[day_2_month_index(day)]
def NPP_fun(day): return npp[day_2_month_index(day)]
def test_day_2_month_index(self): # note that days are counted from zero so day 30 is January 31. self.assertEqual(day_2_month_index(0), 0) self.assertEqual(day_2_month_index(30), 0) self.assertEqual(day_2_month_index(31), 1) self.assertEqual(day_2_month_index(60), 2)
def npp_func(day): month=day_2_month_index(day) return dvs.gpp[month]-(svs.rh[month]+svs.ra[month])
def npp_func(day): month=day_2_month_index(day) return (dvs.gpp[month]-svs.ra[month]) * 86400 # kg/m2/s kg/m2/day;
def npp_func(day, X): return npp[day_2_month_index(day)] * b