def save_grids(self): #----------------------------------- # Save grid stack to a netCDF file #--------------------------------------------- # Note that add_grid() methods will convert # var from scalar to grid now, if necessary. #--------------------------------------------- if (self.SAVE_ER_GRIDS): ET_mmph = self.ET * self.mps_to_mmph # (Bolton 28 Aug) model_output.add_grid(self, ET_mmph, 'ET', self.time_min)
def save_grids(self): #----------------------------------- # Save grid stack to a netCDF file #--------------------------------------------- # Note that add_grid() methods will convert # var from scalar to grid now, if necessary. #--------------------------------------------- if (self.SAVE_ER_GRIDS): ET_mmph = self.ET * self.mps_to_mmph # (Bolton 28 Aug) model_output.add_grid( self, ET_mmph, 'ET', self.time_min )
def save_grids(self): if (self.SAVE_MR_GRIDS): model_output.add_grid( self, self.SM, 'mr', self.time_min ) if (self.SAVE_HS_GRIDS): model_output.add_grid( self, self.h_snow, 'hs', self.time_min ) if (self.SAVE_SW_GRIDS): model_output.add_grid( self, self.h_swe, 'sw', self.time_min ) if (self.SAVE_CC_GRIDS): model_output.add_grid( self, self.Ecc, 'cc', self.time_min )
def save_grids(self): #------------------------------------------------------ # Notes: The RTG function will work whether argument # is a scalar or already a 2D grid. #------------------------------------------------------ if (self.SAVE_HI_GRIDS): model_output.add_grid(self, self.H, 'hi', self.time_min) ## model_output.add_grid( self, self.H, 'H' ) if (self.SAVE_ZI_GRIDS): model_output.add_grid(self, self.Zi, 'zi', self.time_min) ## model_output.add_grid( self, self.Zi, 'Z' ) if (self.SAVE_MR_GRIDS): MR_mmph = self.MR * self.mps_to_mmph model_output.add_grid(self, MR_mmph, 'mr', self.time_min)
def save_grids(self): #------------------------------------------------------ # Notes: The RTG function will work whether argument # is a scalar or already a 2D grid. #------------------------------------------------------ if (self.SAVE_HI_GRIDS): model_output.add_grid( self, self.H, 'hi', self.time_min ) ## model_output.add_grid( self, self.H, 'H' ) if (self.SAVE_ZI_GRIDS): model_output.add_grid( self, self.Zi, 'zi', self.time_min ) ## model_output.add_grid( self, self.Zi, 'Z' ) if (self.SAVE_MR_GRIDS): MR_mmph = self.MR * self.mps_to_mmph model_output.add_grid( self, MR_mmph, 'mr', self.time_min )