def open_output_files(self): #------------------------------------------------- # Notes: v0 = infiltration rate at surface #------------------------------------------------- model_output.check_netcdf() self.update_outfile_names()
def open_output_files(self): model_output.check_netcdf() self.update_outfile_names() #-------------------------------------- # Open new files to write grid stacks #-------------------------------------- if (self.SAVE_ER_GRIDS): model_output.open_new_gs_file(self, self.ET_gs_file, self.rti, var_name='ET', long_name='evaporation_rate', units_name='mm/hr') ### units_name='m/s') #-------------------------------------- # Open new files to write time series #-------------------------------------- IDs = self.outlet_IDs if (self.SAVE_ER_PIXELS): model_output.open_new_ts_file(self, self.ER_ts_file, IDs, var_name='ET', long_name='evaporation_rate', units_name='mm/hr')
def open_output_files(self): #--------------------------------------------------------- # Note: Qc (conduction heat flux), from Priestly-Taylor # component, could also be saved. #--------------------------------------------------------- model_output.check_netcdf() self.update_outfile_names() #-------------------------------------- # Open new files to write grid stacks #-------------------------------------- if (self.SAVE_ER_GRIDS): model_output.open_new_gs_file(self, self.ET_gs_file, self.rti, var_name='ET', long_name='evaporation_rate', units_name='mm/hr') ### units_name='m/s') #-------------------------------------- # Open new files to write time series #-------------------------------------- IDs = self.outlet_IDs if (self.SAVE_ER_PIXELS): model_output.open_new_ts_file(self, self.ER_ts_file, IDs, var_name='ET', long_name='evaporation_rate', units_name='mm/hr')
def open_output_files(self): model_output.check_netcdf() self.update_outfile_names() #---------------------------------- # Open files to write grid stacks #---------------------------------- if (self.SAVE_HI_GRIDS): model_output.open_new_gs_file( self, self.hi_gs_file, self.rti, var_name='hi', long_name='ice_depth', units_name='m') if (self.SAVE_ZI_GRIDS): model_output.open_new_gs_file( self, self.zi_gs_file, self.rti, var_name='zi', long_name='ice_free_surface', units_name='m') if (self.SAVE_MR_GRIDS): model_output.open_new_gs_file( self, self.mr_gs_file, self.rti, var_name='mr', long_name='ice_meltrate', units_name='mm/hr') ##### units_name='m/s') #--------------------------------------- # Open text files to write time series #--------------------------------------- IDs = self.outlet_IDs if (self.SAVE_HI_PIXELS): model_output.open_new_ts_file( self, self.hi_ts_file, IDs, var_name='hi', long_name='ice_depth', units_name='m', time_units='years') if (self.SAVE_ZI_PIXELS): model_output.open_new_ts_file( self, self.zi_ts_file, IDs, var_name='zi', long_name='ice_free_surface', units_name='m', time_units='years') if (self.SAVE_MR_PIXELS): model_output.open_new_ts_file( self, self.mr_ts_file, IDs, var_name='mr', long_name='ice_meltrate', units_name='mm/hr', time_units='years')
def open_output_files(self): model_output.check_netcdf() self.update_outfile_names() #-------------------------------------- # Open new files to write grid stacks #-------------------------------------- if (self.SAVE_ER_GRIDS): model_output.open_new_gs_file( self, self.ET_gs_file, self.rti, var_name='ET', long_name='evaporation_rate', units_name='mm/hr') ### units_name='m/s') #-------------------------------------- # Open new files to write time series #-------------------------------------- IDs = self.outlet_IDs if (self.SAVE_ER_PIXELS): model_output.open_new_ts_file( self, self.ER_ts_file, IDs, var_name='ET', long_name='evaporation_rate', units_name='mm/hr')
def open_output_files(self): model_output.check_netcdf() self.update_outfile_names() #---------------------------------- # Open files to write grid stacks #---------------------------------- if (self.SAVE_MR_GRIDS): model_output.open_new_gs_file( self, self.mr_gs_file, self.rti, ## var_name='MR', var_name='mr', long_name='snow_meltrate', units_name='m/s') if (self.SAVE_HS_GRIDS): model_output.open_new_gs_file( self, self.hs_gs_file, self.rti, ## var_name='h_snow', var_name='hs', long_name='snow_depth', units_name='m') if (self.SAVE_SW_GRIDS): model_output.open_new_gs_file( self, self.sw_gs_file, self.rti, ## var_name='SWE', var_name='sw', long_name='snow_water_equivalent', units_name='m') if (self.SAVE_CC_GRIDS): model_output.open_new_gs_file( self, self.cc_gs_file, self.rti, ## var_name='SCC', var_name='cc', long_name='snow_cold_content', units_name='J/m^2') #--------------------------------------- # Open text files to write time series #--------------------------------------- IDs = self.outlet_IDs if (self.SAVE_MR_PIXELS): model_output.open_new_ts_file( self, self.mr_ts_file, IDs, ## var_name='MR', var_name='mr', long_name='snow_meltrate', units_name='m/s') if (self.SAVE_HS_PIXELS): model_output.open_new_ts_file( self, self.hs_ts_file, IDs, ## var_name='h_snow', var_name='hs', long_name='snow_depth', units_name='m') if (self.SAVE_SW_PIXELS): model_output.open_new_ts_file( self, self.sw_ts_file, IDs, ## var_name='SWE', var_name='sw', long_name='snow_water_equivalent', units_name='m') if (self.SAVE_CC_PIXELS): model_output.open_new_ts_file( self, self.cc_ts_file, IDs, ## var_name='SCC', var_name='cc', long_name='snow_cold_content', units_name='J/m^2')
def open_output_files(self): model_output.check_netcdf() self.update_outfile_names() #---------------------------------- # Open files to write grid stacks #---------------------------------- if (self.SAVE_HI_GRIDS): model_output.open_new_gs_file(self, self.hi_gs_file, self.rti, var_name='hi', long_name='ice_depth', units_name='m') if (self.SAVE_ZI_GRIDS): model_output.open_new_gs_file(self, self.zi_gs_file, self.rti, var_name='zi', long_name='ice_free_surface', units_name='m') if (self.SAVE_MR_GRIDS): model_output.open_new_gs_file(self, self.mr_gs_file, self.rti, var_name='mr', long_name='ice_meltrate', units_name='mm/hr') ##### units_name='m/s') #--------------------------------------- # Open text files to write time series #--------------------------------------- IDs = self.outlet_IDs if (self.SAVE_HI_PIXELS): model_output.open_new_ts_file(self, self.hi_ts_file, IDs, var_name='hi', long_name='ice_depth', units_name='m', time_units='years') if (self.SAVE_ZI_PIXELS): model_output.open_new_ts_file(self, self.zi_ts_file, IDs, var_name='zi', long_name='ice_free_surface', units_name='m', time_units='years') if (self.SAVE_MR_PIXELS): model_output.open_new_ts_file(self, self.mr_ts_file, IDs, var_name='mr', long_name='ice_meltrate', units_name='mm/hr', time_units='years')