[6271] | 1 | #!/usr/bin/env python3 |
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| 2 | ### |
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| 3 | ### Script to check water conservation in the IPSL coupled model |
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| 4 | ### |
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| 5 | ## Warning, to install, configure, run, use any of included software or |
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| 6 | ## to read the associated documentation you'll need at least one (1) |
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| 7 | ## brain in a reasonably working order. Lack of this implement will |
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| 8 | ## void any warranties (either express or implied). Authors assumes |
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| 9 | ## no responsability for errors, omissions, data loss, or any other |
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| 10 | ## consequences caused directly or indirectly by the usage of his |
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| 11 | ## software by incorrectly or partially configured personal |
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| 12 | ## |
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| 13 | ## |
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[6647] | 14 | # SVN information |
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[6271] | 15 | # $Author$ |
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| 16 | # $Date$ |
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| 17 | # $Revision$ |
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| 18 | # $Id$ |
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| 19 | # $HeadURL$ |
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| 20 | |
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[6647] | 21 | # SVN Information |
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| 22 | SVN = { |
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| 23 | 'Author' : "$Author$", |
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| 24 | 'Date' : "$Date$", |
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| 25 | 'Revision': "$Revision$", |
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| 26 | 'Id' : "$Id$", |
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| 27 | 'HeadURL' : "$HeadUrl: $" |
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| 28 | } |
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[6271] | 29 | ### |
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[6647] | 30 | ### |
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| 31 | ## Import system modules |
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[6676] | 32 | import sys |
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| 33 | import os |
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| 34 | import configparser |
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[6647] | 35 | |
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| 36 | ## Import needed scientific modules |
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[6676] | 37 | import numpy as np |
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| 38 | import xarray as xr |
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[6647] | 39 | |
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| 40 | ## Import local modules |
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[6508] | 41 | import WaterUtils as wu |
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[6647] | 42 | import nemo, lmdz |
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[6508] | 43 | |
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[6647] | 44 | ## Read command line arguments |
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| 45 | ## --------------------------- |
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[6508] | 46 | print ( "Name of Python script:", sys.argv[0] ) |
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| 47 | IniFile = sys.argv[1] |
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[6647] | 48 | |
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| 49 | # Test existence of IniFile |
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[6508] | 50 | if not os.path.exists (IniFile ) : |
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| 51 | raise FileExistsError ( f"File not found : {IniFile = }" ) |
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[6271] | 52 | |
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[6676] | 53 | if 'full' in IniFile or 'ATM' in IniFile : |
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| 54 | FullIniFile = IniFile |
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| 55 | else : |
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| 56 | FullIniFile = 'ATM_' + IniFile |
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[6271] | 57 | |
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[6676] | 58 | print ("Output file : ", FullIniFile ) |
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[6647] | 59 | |
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[6676] | 60 | ## Experiment parameters |
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| 61 | ## -------------------- |
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| 62 | dpar = wu.ReadConfig ( IniFile ) |
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[6647] | 63 | |
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[6676] | 64 | ## Configure all needed parameter from existant parameters |
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| 65 | ## ------------------------------------------------------- |
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| 66 | dpar = wu.SetDatesAndFiles ( dpar ) |
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[6647] | 67 | |
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[6676] | 68 | ## Output file with water budget diagnostics |
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| 69 | ## ----------------------------------------- |
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| 70 | f_out = dpar['Files']['f_out'] |
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[6647] | 71 | |
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[6676] | 72 | ## Put dpar values in local namespace |
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| 73 | ## ---------------------------------- |
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| 74 | for Section in dpar.keys () : |
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[6665] | 75 | print ( f'\nReading [{Section}]' ) |
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[6676] | 76 | for VarName in dpar[Section].keys() : |
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| 77 | locals()[VarName] = dpar[Section][VarName] |
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[6665] | 78 | print ( f' {VarName:21} set to : {locals()[VarName]}' ) |
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[6676] | 79 | |
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[6665] | 80 | ## Debuging and timer |
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[6676] | 81 | Timer = wu.functools.partial (wu.Timer, debug=Debug, timer=Timing) |
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| 82 | |
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[6647] | 83 | ## Useful functions |
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| 84 | ## ---------------- |
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[6665] | 85 | if repr(readPrec) == "<class 'numpy.float64'>" or readPrec == float : |
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| 86 | def rprec (ptab) : |
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| 87 | '''This version does nothing |
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| 88 | |
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| 89 | rprec may be use to reduce floating precision when reading history files |
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| 90 | ''' |
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| 91 | return ptab |
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| 92 | else : |
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| 93 | def rprec (ptab) : |
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| 94 | '''Returns float with a different precision''' |
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| 95 | return ptab.astype(readPrec).astype(float) |
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[6647] | 96 | |
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[6665] | 97 | def kg2Sv (val, rho=ATM_RHO) : |
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[6508] | 98 | '''From kg to Sverdrup''' |
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| 99 | return val/dtime_sec*1.0e-6/rho |
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[6271] | 100 | |
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[6665] | 101 | def kg2myear (val, rho=ATM_RHO) : |
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[6508] | 102 | '''From kg to m/year''' |
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| 103 | return val/ATM_aire_sea_tot/rho/NbYear |
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| 104 | |
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[6665] | 105 | def var2prt (var, small=False, rho=ATM_RHO) : |
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| 106 | '''Formats value for printing''' |
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[6647] | 107 | if small : return var , kg2Sv(var, rho=rho)*1000., kg2myear(var, rho=rho)*1000 |
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[6508] | 108 | else : return var , kg2Sv(var, rho=rho) , kg2myear(var, rho=rho) |
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| 109 | |
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[6665] | 110 | def prtFlux (Desc, var, Form='F', small=False, rho=ATM_RHO, width=15) : |
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| 111 | '''Pretty print of formattd value''' |
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[6508] | 112 | if small : |
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[6647] | 113 | if Form in ['f', 'F'] : ff=" {:14.6e} kg | {:12.4f} mSv | {:12.4f} mm/year " |
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| 114 | if Form in ['e', 'E'] : ff=" {:14.6e} kg | {:12.4e} mSv | {:12.4e} mm/year " |
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[6508] | 115 | else : |
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[6647] | 116 | if Form in ['f', 'F'] : ff=" {:14.6e} kg | {:12.4f} Sv | {:12.4f} m/year " |
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| 117 | if Form in ['e', 'E'] : ff=" {:14.6e} kg | {:12.4e} Sv | {:12.4e} m/year " |
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| 118 | echo ( (' {:>{width}} = ' +ff).format (Desc, *var2prt(var, small=small, rho=rho), width=width ) ) |
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[6508] | 119 | return None |
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| 120 | |
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[6271] | 121 | def echo (string, end='\n') : |
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[6508] | 122 | '''Function to print to stdout *and* output file''' |
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| 123 | print ( str(string), end=end ) |
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[6271] | 124 | sys.stdout.flush () |
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[6508] | 125 | f_out.write ( str(string) + end ) |
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[6271] | 126 | f_out.flush () |
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| 127 | return None |
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[6647] | 128 | |
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| 129 | |
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| 130 | |
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| 131 | |
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| 132 | d_ATM_his = xr.open_dataset ( file_ATM_his, use_cftime=True, decode_times=True, decode_cf=True ).squeeze() |
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[6665] | 133 | if SRF : |
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| 134 | d_SRF_his = xr.open_dataset ( file_SRF_his, use_cftime=True, decode_times=True, decode_cf=True ).squeeze() |
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| 135 | if Routing == 'SECHIBA' : d_RUN_his = d_SRF_his |
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| 136 | if Routing == 'SIMPLE' : d_RUN_his = xr.open_dataset ( file_RUN_his, use_cftime=True, decode_times=True, decode_cf=True ).squeeze() |
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[6271] | 137 | |
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| 138 | d_OCE_his = xr.open_dataset ( file_OCE_his, use_cftime=True, decode_times=True, decode_cf=True ).squeeze() |
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| 139 | d_OCE_sca = xr.open_dataset ( file_OCE_sca, use_cftime=True, decode_times=True, decode_cf=True ).squeeze() |
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[6647] | 140 | #d_OCE_srf = xr.open_dataset ( file_OCE_srf, use_cftime=True, decode_times=True, decode_cf=True ).squeeze() |
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[6271] | 141 | d_ICE_his = xr.open_dataset ( file_ICE_his, use_cftime=True, decode_times=True, decode_cf=True ).squeeze() |
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[6665] | 142 | if NEMO == '3.6' : d_ICE_his = d_ICE_his.rename ( {'y_grid_T':'y', 'x_grid_T':'x'} ) |
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[6271] | 143 | |
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[6508] | 144 | echo ( f'{file_OCE_his = }' ) |
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| 145 | echo ( f'{file_ICE_his = }' ) |
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| 146 | echo ( f'{file_OCE_sca = }' ) |
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| 147 | echo ( f'{file_OCE_srf = }' ) |
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[6271] | 148 | |
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| 149 | ## Compute run length |
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[6647] | 150 | ## ------------------ |
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[6271] | 151 | dtime = ( d_ATM_his.time_counter_bounds.max() - d_ATM_his.time_counter_bounds.min() ) |
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| 152 | echo ('\nRun length : {:8.2f} days'.format ( (dtime/np.timedelta64(1, "D")).values ) ) |
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| 153 | dtime_sec = (dtime/np.timedelta64(1, "s")).values.item() # Convert in seconds |
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| 154 | |
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| 155 | ## Compute length of each period |
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| 156 | dtime_per = (d_ATM_his.time_counter_bounds[:,-1] - d_ATM_his.time_counter_bounds[:,0] ) |
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| 157 | echo ('\nPeriods lengths (days) : {:} days'.format ( (dtime_per/np.timedelta64(1, "D")).values ) ) |
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| 158 | dtime_per_sec = (dtime_per/np.timedelta64(1, "s")).values # In seconds |
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| 159 | dtime_per_sec = xr.DataArray (dtime_per_sec, dims=["time_counter", ], coords=[d_ATM_his.time_counter,] ) |
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[6508] | 160 | dtime_per_sec.attrs['unit'] = 's' |
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[6271] | 161 | |
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[6508] | 162 | # Number of years |
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[6665] | 163 | NbYear = dtime_sec / YEAR_LENGTH |
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[6508] | 164 | |
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| 165 | ## Write the full configuration |
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[6676] | 166 | ## ---------------------------- |
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| 167 | params_out = open (FullIniFile, 'w', encoding = 'utf-8') |
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| 168 | params = wu.dict2config ( dpar ) |
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| 169 | params.write ( params_out ) |
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| 170 | params_out.close () |
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[6271] | 171 | |
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| 172 | # ATM grid with cell surfaces |
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[6647] | 173 | if LMDZ : |
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| 174 | echo ('ATM grid with cell surfaces : LMDZ') |
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| 175 | ATM_lat = lmdz.geo2point ( rprec (d_ATM_his ['lat'])+0*rprec (d_ATM_his ['lon']), dim1D='cell' ) |
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| 176 | ATM_lon = lmdz.geo2point ( 0*rprec (d_ATM_his ['lat'])+ rprec (d_ATM_his ['lon']), dim1D='cell' ) |
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| 177 | ATM_aire = lmdz.geo2point ( rprec (d_ATM_his ['aire'] ) [0], cumulPoles=True, dim1D='cell' ) |
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| 178 | ATM_fter = lmdz.geo2point ( rprec (d_ATM_his ['fract_ter'][0]), dim1D='cell' ) |
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| 179 | ATM_foce = lmdz.geo2point ( rprec (d_ATM_his ['fract_oce'][0]), dim1D='cell' ) |
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| 180 | ATM_fsic = lmdz.geo2point ( rprec (d_ATM_his ['fract_sic'][0]), dim1D='cell' ) |
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| 181 | ATM_flic = lmdz.geo2point ( rprec (d_ATM_his ['fract_lic'][0]), dim1D='cell' ) |
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[6665] | 182 | if SRF : |
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| 183 | SRF_lat = lmdz.geo2point ( rprec (d_SRF_his ['lat'])+0*rprec (d_SRF_his ['lon']), dim1D='cell' ) |
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| 184 | SRF_lon = lmdz.geo2point ( 0*rprec (d_SRF_his ['lat'])+ rprec (d_SRF_his ['lon']), dim1D='cell' ) |
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| 185 | SRF_aire = lmdz.geo2point ( rprec (d_SRF_his ['Areas']) * rprec (d_SRF_his ['Contfrac']), dim1D='cell', cumulPoles=True ) |
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| 186 | SRF_areas = lmdz.geo2point ( rprec (d_SRF_his ['Areas']) , dim1D='cell', cumulPoles=True ) |
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| 187 | SRF_contfrac = lmdz.geo2point ( rprec (d_SRF_his ['Contfrac']), dim1D='cell' ) |
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| 188 | |
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[6271] | 189 | if ICO : |
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[6508] | 190 | if ATM_HIS == 'latlon' : |
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[6647] | 191 | echo ( 'ATM areas and fractions on latlon grid' ) |
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| 192 | if 'lat_dom_out' in d_ATM_his.variables : |
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| 193 | ATM_lat = lmdz.geo2point ( rprec (d_ATM_his ['lat_dom_out'])+0*rprec (d_ATM_his ['lon_dom_out']), dim1D='cell' ) |
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| 194 | ATM_lon = lmdz.geo2point ( 0*rprec (d_ATM_his ['lat_dom_out'])+ rprec (d_ATM_his ['lon_dom_out']), dim1D='cell' ) |
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| 195 | else : |
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| 196 | ATM_lat = lmdz.geo2point ( rprec (d_ATM_his ['lat'])+0*rprec (d_ATM_his ['lon']), dim1D='cell' ) |
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| 197 | ATM_lon = lmdz.geo2point ( 0*rprec (d_ATM_his ['lat'])+ rprec (d_ATM_his ['lon']), dim1D='cell' ) |
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| 198 | ATM_aire = lmdz.geo2point ( rprec (d_ATM_his ['aire'][0]).squeeze(), cumulPoles=True, dim1D='cell' ) |
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| 199 | ATM_fter = lmdz.geo2point ( rprec (d_ATM_his ['fract_ter'][0]), dim1D='cell' ) |
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| 200 | ATM_foce = lmdz.geo2point ( rprec (d_ATM_his ['fract_oce'][0]), dim1D='cell' ) |
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| 201 | ATM_fsic = lmdz.geo2point ( rprec (d_ATM_his ['fract_sic'][0]), dim1D='cell' ) |
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| 202 | ATM_flic = lmdz.geo2point ( rprec (d_ATM_his ['fract_lic'][0]), dim1D='cell' ) |
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| 203 | |
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[6508] | 204 | if ATM_HIS == 'ico' : |
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[6647] | 205 | echo ( 'ATM areas and fractions on ICO grid' ) |
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| 206 | ATM_aire = rprec (d_ATM_his ['aire'] [0]).squeeze() |
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| 207 | ATM_lat = rprec (d_ATM_his ['lat'] ) |
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| 208 | ATM_lon = rprec (d_ATM_his ['lon'] ) |
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| 209 | ATM_fter = rprec (d_ATM_his ['fract_ter'][0]) |
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| 210 | ATM_foce = rprec (d_ATM_his ['fract_oce'][0]) |
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| 211 | ATM_fsic = rprec (d_ATM_his ['fract_sic'][0]) |
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| 212 | ATM_flic = rprec (d_ATM_his ['fract_lic'][0]) |
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| 213 | |
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[6665] | 214 | if SRF : |
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| 215 | if SRF_HIS == 'latlon' : |
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| 216 | echo ( 'SRF areas and fractions on latlon grid' ) |
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| 217 | if 'lat_domain_landpoints_out' in d_SRF_his : |
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| 218 | SRF_lat = lmdz.geo2point ( rprec (d_SRF_his ['lat_domain_landpoints_out'])+0*rprec (d_SRF_his ['lon_domain_landpoints_out']), dim1D='cell' ) |
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| 219 | SRF_lon = lmdz.geo2point ( 0*rprec (d_SRF_his ['lat_domain_landpoints_out'])+ rprec (d_SRF_his ['lon_domain_landpoints_out']), dim1D='cell' ) |
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| 220 | else : |
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| 221 | if 'lat_domain_landpoints_out' in d_SRF_his : |
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| 222 | SRF_lat = lmdz.geo2point ( rprec (d_SRF_his ['lat_dom_out'])+0*rprec (d_SRF_his ['lon_dom_out']), dim1D='cell' ) |
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| 223 | SRF_lon = lmdz.geo2point ( 0*rprec (d_SRF_his ['lat_dom_out'])+ rprec (d_SRF_his ['lon_dom_out']), dim1D='cell' ) |
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| 224 | else : |
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| 225 | SRF_lat = lmdz.geo2point ( rprec (d_SRF_his ['lat'])+0*rprec (d_SRF_his ['lon']), dim1D='cell' ) |
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| 226 | SRF_lon = lmdz.geo2point ( 0*rprec (d_SRF_his ['lat'])+ rprec (d_SRF_his ['lon']), dim1D='cell' ) |
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| 227 | |
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| 228 | SRF_areas = lmdz.geo2point ( rprec (d_SRF_his ['Areas'] ) , dim1D='cell', cumulPoles=True ) |
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| 229 | SRF_areafrac = lmdz.geo2point ( rprec (d_SRF_his ['AreaFrac']) , dim1D='cell', cumulPoles=True ) |
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| 230 | SRF_contfrac = lmdz.geo2point ( rprec (d_SRF_his ['Contfrac']) , dim1D='cell', cumulPoles=True ) |
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| 231 | SRF_aire = SRF_areafrac |
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[6647] | 232 | |
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[6665] | 233 | if SRF_HIS == 'ico' : |
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| 234 | echo ( 'SRF areas and fractions on latlon grid' ) |
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| 235 | SRF_lat = rprec (d_SRF_his ['lat'] ) |
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| 236 | SRF_lon = rprec (d_SRF_his ['lon'] ) |
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| 237 | SRF_areas = rprec (d_SRF_his ['Areas'] ) |
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| 238 | SRF_contfrac = rprec (d_SRF_his ['Contfrac']) |
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| 239 | SRF_aire = SRF_areas * SRF_contfrac |
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| 240 | |
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[6508] | 241 | ATM_fsea = ATM_foce + ATM_fsic |
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| 242 | ATM_flnd = ATM_fter + ATM_flic |
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| 243 | ATM_aire_fter = ATM_aire * ATM_fter |
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| 244 | ATM_aire_flic = ATM_aire * ATM_flic |
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| 245 | ATM_aire_fsic = ATM_aire * ATM_fsic |
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| 246 | ATM_aire_foce = ATM_aire * ATM_foce |
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| 247 | ATM_aire_flnd = ATM_aire * ATM_flnd |
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| 248 | ATM_aire_fsea = ATM_aire * ATM_fsea |
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[6271] | 249 | |
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[6647] | 250 | #SRF_aire = SRF_aire.where ( SRF_aire < 1E15, 0.) |
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[6508] | 251 | |
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[6647] | 252 | # if ICO : |
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| 253 | # if wu.unDefined ('file_DYN_aire') : file_DYN_aire = os.path.join ( R_IN, 'ATM', 'GRID', ATM+'_grid.nc' ) |
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| 254 | # config['Files']['file_DYN_aire'] = file_DYN_aire |
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[6271] | 255 | |
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[6647] | 256 | # if ICO : |
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| 257 | # # Area on icosahedron grid |
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| 258 | # d_DYN_aire = xr.open_dataset ( file_DYN_aire, decode_times=False ).squeeze() |
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| 259 | |
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| 260 | # DYN_lat = d_DYN_aire['lat'] |
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| 261 | # DYN_lon = d_DYN_aire['lon'] |
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| 262 | |
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| 263 | # DYN_aire = d_DYN_aire['aire'] |
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| 264 | # DYN_fsea = d_DYN_aire['fract_oce'] + d_DYN_aire['fract_sic'] |
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| 265 | # DYN_flnd = 1.0 - DYN_fsea |
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| 266 | # DYN_fter = d_ATM_beg['FTER'] |
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| 267 | # DYN_flic = d_ATM_beg['FLIC'] |
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| 268 | # DYN_aire_fter = DYN_aire * DYN_fter |
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[6271] | 269 | |
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[6647] | 270 | # if LMDZ : |
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| 271 | # # Area on lon/lat grid |
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| 272 | # DYN_aire = ATM_aire |
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| 273 | # DYN_fsea = ATM_fsea |
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| 274 | # DYN_flnd = ATM_flnd |
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| 275 | # DYN_fter = rprec (d_ATM_beg['FTER']) |
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| 276 | # DYN_flic = rprec (d_ATM_beg['FLIC']) |
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| 277 | # DYN_aire_fter = DYN_aire * DYN_fter |
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[6271] | 278 | |
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[6647] | 279 | # Functions computing integrals and sum |
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| 280 | # def ATM_stock_int (stock) : |
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| 281 | # '''Integrate (* surface) stock on atmosphere grid''' |
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| 282 | # ATM_stock_int = wu.Psum ( (stock * DYN_aire).to_masked_array().ravel() ) |
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| 283 | # return ATM_stock_int |
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[6508] | 284 | |
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| 285 | def ATM_flux_int (flux) : |
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| 286 | '''Integrate (* time * surface) flux on atmosphere grid''' |
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| 287 | ATM_flux_int = wu.Psum ( (flux * dtime_per_sec * ATM_aire).to_masked_array().ravel() ) |
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| 288 | return ATM_flux_int |
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| 289 | |
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[6647] | 290 | # def SRF_stock_int (stock) : |
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| 291 | # '''Integrate (* surface) stock on land grid''' |
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| 292 | # ATM_stock_int = wu.Ksum ( ( (stock * DYN_aire_fter).to_masked_array().ravel()) ) |
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| 293 | # return ATM_stock_int |
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[6508] | 294 | |
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| 295 | def SRF_flux_int (flux) : |
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| 296 | '''Integrate (* time * surface) flux on land grid''' |
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| 297 | SRF_flux_int = wu.Psum ( (flux * dtime_per_sec * SRF_aire).to_masked_array().ravel() ) |
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| 298 | return SRF_flux_int |
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| 299 | |
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[6665] | 300 | # def LIC_flux_int (flux) : |
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| 301 | # '''Integrate (* time * surface) flux on land ice grid''' |
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| 302 | # LIC_flux_int = wu.Psum ( (flux * dtime_per_sec * ATM_aire_flic).to_masked_array().ravel() ) |
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| 303 | # return LIC_flux_int |
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[6508] | 304 | |
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[6647] | 305 | # def OCE_stock_int (stock) : |
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| 306 | # '''Integrate stock on ocean grid''' |
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| 307 | # OCE_stock_int = np.sum ( np.sort ( (stock * OCE_aire ).to_masked_array().ravel()) ) |
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| 308 | # return OCE_stock_int |
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| 309 | |
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[6508] | 310 | def ONE_stock_int (stock) : |
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| 311 | '''Sum stock''' |
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[6651] | 312 | ONE_stock_int = wu.Psum ( stock.to_masked_array().ravel() ) |
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[6508] | 313 | return ONE_stock_int |
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| 314 | |
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| 315 | def OCE_flux_int (flux) : |
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| 316 | '''Integrate flux on oce grid''' |
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[6651] | 317 | OCE_flux_int = wu.Psum ( (flux * OCE_aire * dtime_per_sec).to_masked_array().ravel() ) |
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[6508] | 318 | return OCE_flux_int |
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| 319 | |
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| 320 | def ONE_flux_int (flux) : |
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| 321 | '''Integrate flux on oce grid''' |
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[6651] | 322 | OCE_flux_int = wu.Psum ( (flux * dtime_per_sec).to_masked_array().ravel() ) |
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[6508] | 323 | return OCE_flux_int |
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[6271] | 324 | |
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| 325 | # Get mask and surfaces |
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| 326 | sos = d_OCE_his ['sos'][0].squeeze() |
---|
[6676] | 327 | OCE_msk = nemo.lbc_mask ( xr.where ( sos>0, 1., 0.0 ), cd_type = 'T', nperio=nperio ) |
---|
[6271] | 328 | so = sos = d_OCE_his ['sos'][0].squeeze() |
---|
[6676] | 329 | OCE_msk3 = nemo.lbc_mask ( xr.where ( so>0., 1., 0. ), cd_type = 'T', sval = 0., nperio=nperio ) |
---|
[6271] | 330 | |
---|
| 331 | # lbc_mask removes the duplicate points (periodicity and north fold) |
---|
[6676] | 332 | OCE_aire = nemo.lbc_mask ( d_OCE_his ['area'] * OCE_msk, cd_type = 'T', sval = 0.0, nperio=nperio ) |
---|
[6271] | 333 | ICE_aire = OCE_aire |
---|
| 334 | |
---|
| 335 | ATM_aire_tot = ONE_stock_int (ATM_aire) |
---|
[6665] | 336 | if SRF : |
---|
| 337 | SRF_aire_tot = ONE_stock_int (SRF_aire) |
---|
[6271] | 338 | OCE_aire_tot = ONE_stock_int (OCE_aire) |
---|
| 339 | ICE_aire_tot = ONE_stock_int (ICE_aire) |
---|
| 340 | |
---|
| 341 | ATM_aire_sea = ATM_aire * ATM_fsea |
---|
| 342 | ATM_aire_sea_tot = ONE_stock_int ( ATM_aire_sea ) |
---|
| 343 | |
---|
[6508] | 344 | echo ( '\n====================================================================================' ) |
---|
[6647] | 345 | echo ( f'-- ATM Fluxes -- {Title} ' ) |
---|
[6271] | 346 | |
---|
[6647] | 347 | if ATM_HIS == 'latlon' : |
---|
| 348 | echo ( ' latlon case' ) |
---|
| 349 | ATM_wbilo_oce = lmdz.geo2point ( rprec (d_ATM_his ['wbilo_oce']), dim1D='cell' ) |
---|
| 350 | ATM_wbilo_sic = lmdz.geo2point ( rprec (d_ATM_his ['wbilo_sic']), dim1D='cell' ) |
---|
| 351 | ATM_wbilo_ter = lmdz.geo2point ( rprec (d_ATM_his ['wbilo_ter']), dim1D='cell' ) |
---|
| 352 | ATM_wbilo_lic = lmdz.geo2point ( rprec (d_ATM_his ['wbilo_lic']), dim1D='cell' ) |
---|
| 353 | ATM_runofflic = lmdz.geo2point ( rprec (d_ATM_his ['runofflic']), dim1D='cell' ) |
---|
| 354 | ATM_fqcalving = lmdz.geo2point ( rprec (d_ATM_his ['fqcalving']), dim1D='cell' ) |
---|
| 355 | ATM_fqfonte = lmdz.geo2point ( rprec (d_ATM_his ['fqfonte'] ), dim1D='cell' ) |
---|
| 356 | ATM_precip = lmdz.geo2point ( rprec (d_ATM_his ['precip'] ), dim1D='cell' ) |
---|
| 357 | ATM_snowf = lmdz.geo2point ( rprec (d_ATM_his ['snow'] ), dim1D='cell' ) |
---|
| 358 | ATM_evap = lmdz.geo2point ( rprec (d_ATM_his ['evap'] ), dim1D='cell' ) |
---|
| 359 | ATM_wevap_ter = lmdz.geo2point ( rprec (d_ATM_his ['wevap_ter']), dim1D='cell' ) |
---|
| 360 | ATM_wevap_oce = lmdz.geo2point ( rprec (d_ATM_his ['wevap_oce']), dim1D='cell' ) |
---|
| 361 | ATM_wevap_lic = lmdz.geo2point ( rprec (d_ATM_his ['wevap_lic']), dim1D='cell' ) |
---|
| 362 | ATM_wevap_sic = lmdz.geo2point ( rprec (d_ATM_his ['wevap_sic']), dim1D='cell' ) |
---|
| 363 | ATM_wrain_ter = lmdz.geo2point ( rprec (d_ATM_his ['wrain_ter']), dim1D='cell' ) |
---|
| 364 | ATM_wrain_oce = lmdz.geo2point ( rprec (d_ATM_his ['wrain_oce']), dim1D='cell' ) |
---|
| 365 | ATM_wrain_lic = lmdz.geo2point ( rprec (d_ATM_his ['wrain_lic']), dim1D='cell' ) |
---|
| 366 | ATM_wrain_sic = lmdz.geo2point ( rprec (d_ATM_his ['wrain_sic']), dim1D='cell' ) |
---|
| 367 | ATM_wsnow_ter = lmdz.geo2point ( rprec (d_ATM_his ['wsnow_ter']), dim1D='cell' ) |
---|
| 368 | ATM_wsnow_oce = lmdz.geo2point ( rprec (d_ATM_his ['wsnow_oce']), dim1D='cell' ) |
---|
| 369 | ATM_wsnow_lic = lmdz.geo2point ( rprec (d_ATM_his ['wsnow_lic']), dim1D='cell' ) |
---|
| 370 | ATM_wsnow_sic = lmdz.geo2point ( rprec (d_ATM_his ['wsnow_sic']), dim1D='cell' ) |
---|
| 371 | ATM_runofflic = lmdz.geo2point ( rprec (d_ATM_his ['runofflic']), dim1D='cell' ) |
---|
| 372 | echo ( f'End of LATLON case') |
---|
| 373 | |
---|
| 374 | if ATM_HIS == 'ico' : |
---|
| 375 | echo (' ico case') |
---|
| 376 | ATM_wbilo_oce = rprec (d_ATM_his ['wbilo_oce']) |
---|
| 377 | ATM_wbilo_sic = rprec (d_ATM_his ['wbilo_sic']) |
---|
| 378 | ATM_wbilo_ter = rprec (d_ATM_his ['wbilo_ter']) |
---|
| 379 | ATM_wbilo_lic = rprec (d_ATM_his ['wbilo_lic']) |
---|
| 380 | ATM_runofflic = rprec (d_ATM_his ['runofflic']) |
---|
| 381 | ATM_fqcalving = rprec (d_ATM_his ['fqcalving']) |
---|
| 382 | ATM_fqfonte = rprec (d_ATM_his ['fqfonte'] ) |
---|
| 383 | ATM_precip = rprec (d_ATM_his ['precip'] ) |
---|
| 384 | ATM_snowf = rprec (d_ATM_his ['snow'] ) |
---|
| 385 | ATM_evap = rprec (d_ATM_his ['evap'] ) |
---|
| 386 | ATM_wevap_ter = rprec (d_ATM_his ['wevap_ter']) |
---|
| 387 | ATM_wevap_oce = rprec (d_ATM_his ['wevap_oce']) |
---|
| 388 | ATM_wevap_lic = rprec (d_ATM_his ['wevap_lic']) |
---|
| 389 | ATM_wevap_sic = rprec (d_ATM_his ['wevap_sic']) |
---|
| 390 | ATM_runofflic = rprec (d_ATM_his ['runofflic']) |
---|
| 391 | ATM_wevap_ter = rprec (d_ATM_his ['wevap_ter']) |
---|
| 392 | ATM_wevap_oce = rprec (d_ATM_his ['wevap_oce']) |
---|
| 393 | ATM_wevap_lic = rprec (d_ATM_his ['wevap_lic']) |
---|
| 394 | ATM_wevap_sic = rprec (d_ATM_his ['wevap_sic']) |
---|
| 395 | ATM_wrain_ter = rprec (d_ATM_his ['wrain_ter']) |
---|
| 396 | ATM_wrain_oce = rprec (d_ATM_his ['wrain_oce']) |
---|
| 397 | ATM_wrain_lic = rprec (d_ATM_his ['wrain_lic']) |
---|
| 398 | ATM_wrain_sic = rprec (d_ATM_his ['wrain_sic']) |
---|
| 399 | ATM_wsnow_ter = rprec (d_ATM_his ['wsnow_ter']) |
---|
| 400 | ATM_wsnow_oce = rprec (d_ATM_his ['wsnow_oce']) |
---|
| 401 | ATM_wsnow_lic = rprec (d_ATM_his ['wsnow_lic']) |
---|
| 402 | ATM_wsnow_sic = rprec (d_ATM_his ['wsnow_sic']) |
---|
| 403 | echo ( f'End of ico case ') |
---|
[6271] | 404 | |
---|
[6647] | 405 | echo ( 'ATM wprecip_oce' ) |
---|
| 406 | ATM_wprecip_oce = ATM_wrain_oce + ATM_wsnow_oce |
---|
| 407 | ATM_wprecip_ter = ATM_wrain_ter + ATM_wsnow_ter |
---|
| 408 | ATM_wprecip_sic = ATM_wrain_sic + ATM_wsnow_sic |
---|
| 409 | ATM_wprecip_lic = ATM_wrain_lic + ATM_wsnow_lic |
---|
[6271] | 410 | |
---|
[6647] | 411 | ATM_wbilo = ATM_wbilo_oce + ATM_wbilo_sic + ATM_wbilo_ter + ATM_wbilo_lic |
---|
| 412 | ATM_wevap = ATM_wevap_oce + ATM_wevap_sic + ATM_wevap_ter + ATM_wevap_lic |
---|
| 413 | ATM_wprecip = ATM_wprecip_oce + ATM_wprecip_sic + ATM_wprecip_ter + ATM_wprecip_lic |
---|
| 414 | ATM_wsnow = ATM_wsnow_oce + ATM_wsnow_sic + ATM_wsnow_ter + ATM_wsnow_lic |
---|
| 415 | ATM_wrain = ATM_wrain_oce + ATM_wrain_sic + ATM_wrain_ter + ATM_wrain_lic |
---|
| 416 | ATM_wemp = ATM_wevap - ATM_wprecip |
---|
| 417 | ATM_emp = ATM_evap - ATM_precip |
---|
[6271] | 418 | |
---|
[6647] | 419 | ATM_wprecip_sea = ATM_wprecip_oce + ATM_wprecip_sic |
---|
| 420 | ATM_wsnow_sea = ATM_wsnow_oce + ATM_wsnow_sic |
---|
| 421 | ATM_wrain_sea = ATM_wrain_oce + ATM_wrain_sic |
---|
| 422 | ATM_wbilo_sea = ATM_wbilo_oce + ATM_wbilo_sic |
---|
| 423 | ATM_wevap_sea = ATM_wevap_sic + ATM_wevap_oce |
---|
[6271] | 424 | |
---|
[6647] | 425 | ATM_wemp_ter = ATM_wevap_ter - ATM_wprecip_ter |
---|
| 426 | ATM_wemp_oce = ATM_wevap_oce - ATM_wprecip_oce |
---|
| 427 | ATM_wemp_sic = ATM_wevap_sic - ATM_wprecip_sic |
---|
| 428 | ATM_wemp_lic = ATM_wevap_lic - ATM_wprecip_lic |
---|
| 429 | ATM_wemp_sea = ATM_wevap_sic - ATM_wprecip_oce |
---|
[6271] | 430 | |
---|
[6665] | 431 | if SRF : |
---|
| 432 | if RUN_HIS == 'latlon' : |
---|
| 433 | echo ( f'RUN costalflow Grille LATLON' ) |
---|
| 434 | if TestInterp : |
---|
| 435 | echo ( f'RUN runoff TestInterp' ) |
---|
| 436 | RUN_runoff = lmdz.geo2point ( rprec (d_RUN_his ['runoff_contfrac_interp'] ) , dim1D='cell' ) |
---|
| 437 | RUN_drainage = lmdz.geo2point ( rprec (d_RUN_his ['drainage_contfrac_interp']) , dim1D='cell' ) |
---|
| 438 | else : |
---|
| 439 | echo ( f'RUN runoff' ) |
---|
| 440 | RUN_runoff = lmdz.geo2point ( rprec (d_RUN_his ['runoff'] ), dim1D='cell' ) |
---|
| 441 | RUN_drainage = lmdz.geo2point ( rprec (d_RUN_his ['drainage'] ), dim1D='cell' ) |
---|
| 442 | |
---|
| 443 | RUN_coastalflow = lmdz.geo2point ( rprec (d_RUN_his ['coastalflow'] ), dim1D='cell' ) |
---|
| 444 | RUN_riverflow = lmdz.geo2point ( rprec (d_RUN_his ['riverflow'] ), dim1D='cell' ) |
---|
| 445 | RUN_riversret = lmdz.geo2point ( rprec (d_RUN_his ['riversret'] ), dim1D='cell' ) |
---|
| 446 | RUN_coastalflow_cpl = lmdz.geo2point ( rprec (d_RUN_his ['coastalflow_cpl']), dim1D='cell' ) |
---|
| 447 | RUN_riverflow_cpl = lmdz.geo2point ( rprec (d_RUN_his ['riverflow_cpl'] ), dim1D='cell' ) |
---|
[6647] | 448 | |
---|
[6665] | 449 | if RUN_HIS == 'ico' : |
---|
| 450 | echo ( f'RUN costalflow Grille ICO' ) |
---|
| 451 | RUN_coastalflow = rprec (d_RUN_his ['coastalflow']) |
---|
| 452 | RUN_riverflow = rprec (d_RUN_his ['riverflow'] ) |
---|
| 453 | RUN_runoff = rprec (d_RUN_his ['runoff'] ) |
---|
| 454 | RUN_drainage = rprec (d_RUN_his ['drainage'] ) |
---|
| 455 | RUN_riversret = rprec (d_RUN_his ['riversret'] ) |
---|
| 456 | |
---|
| 457 | RUN_coastalflow_cpl = rprec (d_RUN_his ['coastalflow_cpl']) |
---|
| 458 | RUN_riverflow_cpl = rprec (d_RUN_his ['riverflow_cpl'] ) |
---|
| 459 | |
---|
| 460 | ## Correcting units of SECHIBA variables |
---|
| 461 | def mmd2SI ( Var ) : |
---|
| 462 | '''Change unit from mm/d or m^3/s to kg/s if needed''' |
---|
| 463 | if 'units' in VarT.attrs : |
---|
| 464 | if VarT.attrs['units'] in ['m^3/s', 'm3/s', 'm3.s-1',] : |
---|
| 465 | VarT.values = VarT.values * ATM_RHO ; VarT.attrs['units'] = 'kg/s' |
---|
| 466 | if VarT.attrs['units'] == 'mm/d' : |
---|
| 467 | VarT.values = VarT.values * ATM_RHO * (1e-3/86400.) ; VarT.attrs['units'] = 'kg/s' |
---|
| 468 | if VarT.attrs['units'] in ['m^3', 'm3', ] : |
---|
| 469 | VarT.values = VarT.values * ATM_RHO ; VarT.attrs['units'] = 'kg' |
---|
| 470 | |
---|
| 471 | for var in [ 'runoff', 'drainage', 'riversret', 'coastalflow', 'riverflow', 'coastalflow_cpl', 'riverflow_cpl' ] : |
---|
| 472 | VarT = locals()['RUN_' + var] |
---|
| 473 | mmd2SI (VarT) |
---|
| 474 | |
---|
| 475 | #for var in ['evap', 'snowf', 'subli', 'transpir', 'rain', 'emp' ] : |
---|
| 476 | # VarT = locals()['SRF_' + var] |
---|
| 477 | # mmd2SI (VarT) |
---|
| 478 | echo ( f'RUN input' ) |
---|
| 479 | RUN_input = RUN_runoff + RUN_drainage |
---|
| 480 | RUN_output = RUN_coastalflow + RUN_riverflow |
---|
[6271] | 481 | |
---|
[6647] | 482 | echo ( f'ATM flw_wbilo' ) |
---|
| 483 | ATM_flx_wbilo = ATM_flux_int ( ATM_wbilo ) |
---|
| 484 | ATM_flx_wevap = ATM_flux_int ( ATM_wevap ) |
---|
| 485 | ATM_flx_wprecip = ATM_flux_int ( ATM_wprecip ) |
---|
| 486 | ATM_flx_wsnow = ATM_flux_int ( ATM_wsnow ) |
---|
| 487 | ATM_flx_wrain = ATM_flux_int ( ATM_wrain ) |
---|
| 488 | ATM_flx_wemp = ATM_flux_int ( ATM_wemp ) |
---|
[6271] | 489 | |
---|
[6647] | 490 | ATM_flx_wbilo_lic = ATM_flux_int ( ATM_wbilo_lic ) |
---|
| 491 | ATM_flx_wbilo_oce = ATM_flux_int ( ATM_wbilo_oce ) |
---|
| 492 | ATM_flx_wbilo_sea = ATM_flux_int ( ATM_wbilo_sea ) |
---|
| 493 | ATM_flx_wbilo_sic = ATM_flux_int ( ATM_wbilo_sic ) |
---|
| 494 | ATM_flx_wbilo_ter = ATM_flux_int ( ATM_wbilo_ter ) |
---|
| 495 | ATM_flx_calving = ATM_flux_int ( ATM_fqcalving ) |
---|
| 496 | ATM_flx_fqfonte = ATM_flux_int ( ATM_fqfonte ) |
---|
[6271] | 497 | |
---|
[6665] | 498 | LIC_flx_calving = ATM_flux_int ( ATM_fqcalving ) |
---|
| 499 | LIC_flx_fqfonte = ATM_flux_int ( ATM_fqfonte ) |
---|
[6271] | 500 | |
---|
[6647] | 501 | ATM_flx_precip = ATM_flux_int ( ATM_precip ) |
---|
| 502 | ATM_flx_snowf = ATM_flux_int ( ATM_snowf ) |
---|
| 503 | ATM_flx_evap = ATM_flux_int ( ATM_evap ) |
---|
| 504 | ATM_flx_runlic = ATM_flux_int ( ATM_runofflic ) |
---|
[6271] | 505 | |
---|
[6665] | 506 | #LIC_flx_precip = LIC_flux_int ( ATM_precip ) |
---|
| 507 | #LIC_flx_snowf = LIC_flux_int ( ATM_snowf ) |
---|
| 508 | #LIC_flx_evap = LIC_flux_int ( ATM_evap ) |
---|
| 509 | #LIC_flx_runlic = LIC_flux_int ( ATM_runofflic ) |
---|
[6271] | 510 | |
---|
[6647] | 511 | ATM_flx_wrain_ter = ATM_flux_int ( ATM_wrain_ter ) |
---|
| 512 | ATM_flx_wrain_oce = ATM_flux_int ( ATM_wrain_oce ) |
---|
| 513 | ATM_flx_wrain_lic = ATM_flux_int ( ATM_wrain_lic ) |
---|
| 514 | ATM_flx_wrain_sic = ATM_flux_int ( ATM_wrain_sic ) |
---|
| 515 | ATM_flx_wrain_sea = ATM_flux_int ( ATM_wrain_sea ) |
---|
[6271] | 516 | |
---|
[6647] | 517 | ATM_flx_wsnow_ter = ATM_flux_int ( ATM_wsnow_ter ) |
---|
| 518 | ATM_flx_wsnow_oce = ATM_flux_int ( ATM_wsnow_oce ) |
---|
| 519 | ATM_flx_wsnow_lic = ATM_flux_int ( ATM_wsnow_lic ) |
---|
| 520 | ATM_flx_wsnow_sic = ATM_flux_int ( ATM_wsnow_sic ) |
---|
| 521 | ATM_flx_wsnow_sea = ATM_flux_int ( ATM_wsnow_sea ) |
---|
[6271] | 522 | |
---|
[6647] | 523 | ATM_flx_wevap_ter = ATM_flux_int ( ATM_wevap_ter ) |
---|
| 524 | ATM_flx_wevap_oce = ATM_flux_int ( ATM_wevap_oce ) |
---|
| 525 | ATM_flx_wevap_lic = ATM_flux_int ( ATM_wevap_lic ) |
---|
| 526 | ATM_flx_wevap_sic = ATM_flux_int ( ATM_wevap_sic ) |
---|
| 527 | ATM_flx_wevap_sea = ATM_flux_int ( ATM_wevap_sea ) |
---|
| 528 | ATM_flx_wprecip_lic = ATM_flux_int ( ATM_wprecip_lic ) |
---|
| 529 | ATM_flx_wprecip_oce = ATM_flux_int ( ATM_wprecip_oce ) |
---|
| 530 | ATM_flx_wprecip_sic = ATM_flux_int ( ATM_wprecip_sic ) |
---|
| 531 | ATM_flx_wprecip_ter = ATM_flux_int ( ATM_wprecip_ter ) |
---|
| 532 | ATM_flx_wprecip_sea = ATM_flux_int ( ATM_wprecip_sea ) |
---|
| 533 | ATM_flx_wemp_lic = ATM_flux_int ( ATM_wemp_lic ) |
---|
| 534 | ATM_flx_wemp_oce = ATM_flux_int ( ATM_wemp_oce ) |
---|
| 535 | ATM_flx_wemp_sic = ATM_flux_int ( ATM_wemp_sic ) |
---|
| 536 | ATM_flx_wemp_ter = ATM_flux_int ( ATM_wemp_ter ) |
---|
| 537 | ATM_flx_wemp_sea = ATM_flux_int ( ATM_wemp_sea ) |
---|
[6271] | 538 | |
---|
[6647] | 539 | ATM_flx_emp = ATM_flux_int ( ATM_emp ) |
---|
[6271] | 540 | |
---|
[6665] | 541 | if SRF : |
---|
| 542 | RUN_flx_coastal = ONE_flux_int ( RUN_coastalflow) |
---|
| 543 | RUN_flx_river = ONE_flux_int ( RUN_riverflow ) |
---|
| 544 | RUN_flx_coastal_cpl = ONE_flux_int ( RUN_coastalflow_cpl) |
---|
| 545 | RUN_flx_river_cpl = ONE_flux_int ( RUN_riverflow_cpl ) |
---|
| 546 | RUN_flx_drainage = SRF_flux_int ( RUN_drainage ) |
---|
| 547 | RUN_flx_riversret = SRF_flux_int ( RUN_riversret ) |
---|
| 548 | RUN_flx_runoff = SRF_flux_int ( RUN_runoff ) |
---|
| 549 | RUN_flx_input = SRF_flux_int ( RUN_input ) |
---|
| 550 | RUN_flx_output = ONE_flux_int ( RUN_output ) |
---|
| 551 | |
---|
| 552 | RUN_flx_bil = ONE_flux_int ( RUN_input - RUN_output) |
---|
| 553 | RUN_flx_rivcoa = ONE_flux_int ( RUN_coastalflow + RUN_riverflow) |
---|
| 554 | |
---|
[6647] | 555 | prtFlux ('wbilo_oce ', ATM_flx_wbilo_oce , 'f' ) |
---|
| 556 | prtFlux ('wbilo_sic ', ATM_flx_wbilo_sic , 'f' ) |
---|
| 557 | prtFlux ('wbilo_sic+oce ', ATM_flx_wbilo_sea , 'f' ) |
---|
| 558 | prtFlux ('wbilo_ter ', ATM_flx_wbilo_ter , 'f' ) |
---|
| 559 | prtFlux ('wbilo_lic ', ATM_flx_wbilo_lic , 'f' ) |
---|
| 560 | prtFlux ('Sum wbilo_* ', ATM_flx_wbilo , 'f', True) |
---|
| 561 | prtFlux ('E-P ', ATM_flx_emp , 'f', True) |
---|
| 562 | prtFlux ('calving ', ATM_flx_calving , 'f' ) |
---|
| 563 | prtFlux ('fqfonte ', ATM_flx_fqfonte , 'f' ) |
---|
| 564 | prtFlux ('precip ', ATM_flx_precip , 'f' ) |
---|
| 565 | prtFlux ('snowf ', ATM_flx_snowf , 'f' ) |
---|
| 566 | prtFlux ('evap ', ATM_flx_evap , 'f' ) |
---|
| 567 | prtFlux ('runoff lic ', ATM_flx_runlic , 'f' ) |
---|
[6271] | 568 | |
---|
[6647] | 569 | prtFlux ('ATM_flx_wevap* ', ATM_flx_wevap , 'f' ) |
---|
| 570 | prtFlux ('ATM_flx_wrain* ', ATM_flx_wrain , 'f' ) |
---|
| 571 | prtFlux ('ATM_flx_wsnow* ', ATM_flx_wsnow , 'f' ) |
---|
| 572 | prtFlux ('ATM_flx_wprecip* ', ATM_flx_wprecip , 'f' ) |
---|
| 573 | prtFlux ('ATM_flx_wemp* ', ATM_flx_wemp , 'f', True ) |
---|
[6271] | 574 | |
---|
[6647] | 575 | prtFlux ('ERROR evap ', ATM_flx_wevap - ATM_flx_evap , 'e', True ) |
---|
| 576 | prtFlux ('ERROR precip ', ATM_flx_wprecip - ATM_flx_precip, 'e', True ) |
---|
| 577 | prtFlux ('ERROR snow ', ATM_flx_wsnow - ATM_flx_snowf , 'e', True ) |
---|
| 578 | prtFlux ('ERROR emp ', ATM_flx_wemp - ATM_flx_emp , 'e', True ) |
---|
[6271] | 579 | |
---|
[6665] | 580 | if SRF : |
---|
| 581 | echo ( '\n====================================================================================' ) |
---|
| 582 | echo ( f'-- RUNOFF Fluxes -- {Title} ' ) |
---|
| 583 | prtFlux ('coastalflow ', RUN_flx_coastal , 'f' ) |
---|
| 584 | prtFlux ('riverflow ', RUN_flx_river , 'f' ) |
---|
| 585 | prtFlux ('coastal_cpl ', RUN_flx_coastal_cpl, 'f' ) |
---|
| 586 | prtFlux ('riverf_cpl ', RUN_flx_river_cpl , 'f' ) |
---|
| 587 | prtFlux ('river+coastal ', RUN_flx_rivcoa , 'f' ) |
---|
| 588 | prtFlux ('drainage ', RUN_flx_drainage , 'f' ) |
---|
| 589 | prtFlux ('riversret ', RUN_flx_riversret , 'f' ) |
---|
| 590 | prtFlux ('runoff ', RUN_flx_runoff , 'f' ) |
---|
| 591 | prtFlux ('river in ', RUN_flx_input , 'f' ) |
---|
| 592 | prtFlux ('river out ', RUN_flx_output , 'f' ) |
---|
| 593 | prtFlux ('river bil ', RUN_flx_bil , 'f' ) |
---|
[6271] | 594 | |
---|
[6647] | 595 | echo ( '\n====================================================================================' ) |
---|
| 596 | echo ( f'-- OCE Fluxes -- {Title} ' ) |
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[6271] | 597 | |
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[6647] | 598 | # Read variable and computes integral over space and time |
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| 599 | OCE_empmr = rprec (d_OCE_his['wfo'] ) ; OCE_mas_empmr = OCE_flux_int ( OCE_empmr ) |
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| 600 | OCE_wfob = rprec (d_OCE_his['wfob'] ) ; OCE_mas_wfob = OCE_flux_int ( OCE_wfob ) |
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| 601 | OCE_emp_oce = rprec (d_OCE_his['emp_oce'] ) ; OCE_mas_emp_oce = OCE_flux_int ( OCE_emp_oce ) |
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| 602 | OCE_emp_ice = rprec (d_OCE_his['emp_ice'] ) ; OCE_mas_emp_ice = OCE_flux_int ( OCE_emp_ice ) |
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| 603 | OCE_iceshelf = rprec (d_OCE_his['iceshelf']) ; OCE_mas_iceshelf = OCE_flux_int ( OCE_iceshelf ) |
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| 604 | OCE_calving = rprec (d_OCE_his['calving'] ) ; OCE_mas_calving = OCE_flux_int ( OCE_calving ) |
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| 605 | OCE_iceberg = rprec (d_OCE_his['iceberg'] ) ; OCE_mas_iceberg = OCE_flux_int ( OCE_iceberg ) |
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| 606 | OCE_friver = rprec (d_OCE_his['friver'] ) ; OCE_mas_friver = OCE_flux_int ( OCE_friver ) |
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| 607 | OCE_runoffs = rprec (d_OCE_his['runoffs'] ) ; OCE_mas_runoffs = OCE_flux_int ( OCE_runoffs ) |
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| 608 | if NEMO == 4.0 or NEMO == 4.2 : |
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| 609 | OCE_wfxice = rprec (d_OCE_his['vfxice']) ; OCE_mas_wfxice = OCE_flux_int ( OCE_wfxice ) |
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| 610 | OCE_wfxsnw = rprec (d_OCE_his['vfxsnw']) ; OCE_mas_wfxsnw = OCE_flux_int ( OCE_wfxsnw ) |
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| 611 | OCE_wfxsub = rprec (d_OCE_his['vfxsub']) ; OCE_mas_wfxsub = OCE_flux_int ( OCE_wfxsub ) |
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| 612 | if NEMO == 3.6 : |
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[6665] | 613 | OCE_wfxice = rprec (d_OCE_his['vfxice'])/86400.*ICE_RHO_ICE ; OCE_mas_wfxice = OCE_flux_int ( OCE_wfxice ) |
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| 614 | OCE_wfxsnw = rprec (d_OCE_his['vfxsnw'])/86400.*ICE_RHO_SNO ; OCE_mas_wfxsnw = OCE_flux_int ( OCE_wfxsnw ) |
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| 615 | OCE_wfxsub = rprec (d_OCE_his['vfxsub'])/86400.*ICE_RHO_SNO ; OCE_mas_wfxsub = OCE_flux_int ( OCE_wfxsub ) |
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[6647] | 616 | # Additional checks |
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| 617 | OCE_evap_oce = rprec (d_OCE_his['evap_ao_cea']) ; OCE_mas_evap_oce = OCE_flux_int ( OCE_evap_oce ) |
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| 618 | ICE_evap_ice = rprec (d_OCE_his['subl_ai_cea']) ; ICE_mas_evap_ice = OCE_flux_int ( ICE_evap_ice ) |
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| 619 | OCE_snow_oce = rprec (d_OCE_his['snow_ao_cea']) ; OCE_mas_snow_oce = OCE_flux_int ( OCE_snow_oce ) |
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| 620 | OCE_snow_ice = rprec (d_OCE_his['snow_ai_cea']) ; OCE_mas_snow_ice = OCE_flux_int ( OCE_snow_ice ) |
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| 621 | OCE_rain = rprec (d_OCE_his['rain'] ) ; OCE_mas_rain = OCE_flux_int ( OCE_rain ) |
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| 622 | ICE_wfxsub_err = rprec (d_ICE_his['vfxsub_err'] ) ; ICE_mas_wfxsub_err = OCE_flux_int ( ICE_wfxsub_err ) |
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| 623 | if NEMO == 4.0 or NEMO == 4.2 : |
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| 624 | ICE_wfxpnd = rprec (d_ICE_his['vfxpnd'] ) ; ICE_mas_wfxpnd = OCE_flux_int ( ICE_wfxpnd ) |
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| 625 | ICE_wfxsnw_sub = rprec (d_ICE_his['vfxsnw_sub']) ; ICE_mas_wfxsnw_sub = OCE_flux_int ( ICE_wfxsnw_sub ) |
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| 626 | ICE_wfxsnw_pre = rprec (d_ICE_his['vfxsnw_pre']) ; ICE_mas_wfxsnw_pre = OCE_flux_int ( ICE_wfxsnw_pre ) |
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| 627 | if NEMO == 3.6 : |
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| 628 | ICE_wfxpnd = 0.0 ; ICE_mas_wfxpnd = 0.0 |
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[6665] | 629 | ICE_wfxsnw_sub = rprec (d_ICE_his['vfxsub'])/86400.*ICE_RHO_SNO ; ICE_mas_wfxsnw_sub = OCE_flux_int ( ICE_wfxsnw_sub ) |
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| 630 | ICE_wfxsnw_pre = rprec (d_ICE_his['vfxspr'])/86400.*ICE_RHO_SNO ; ICE_mas_wfxsnw_pre = OCE_flux_int ( ICE_wfxsnw_pre ) |
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[6271] | 631 | |
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[6647] | 632 | OCE_wfcorr = rprec (d_OCE_his['wfcorr']) ; OCE_mas_wfcorr = OCE_flux_int ( OCE_wfcorr ) |
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| 633 | if OCE_relax : |
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| 634 | # ssr and fwb are included in emp=>empmr but not in emp_oce (outputed by sea-ice) |
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| 635 | OCE_vflx_fwb = rprec (d_OCE_his['vflx_fwb']) ; OCE_mas_vflx_fwb = OCE_flux_int ( OCE_vflx_fwb ) |
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| 636 | OCE_vflx_ssr = rprec (d_OCE_his['vflx_ssr']) ; OCE_mas_vflx_ssr = OCE_flux_int ( OCE_vflx_ssr ) |
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| 637 | else : |
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| 638 | OCE_fwb = 0.0 ; OCE_mas_fwb = 0.0 |
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| 639 | OCE_ssr = 0.0 ; OCE_mas_ssr = 0.0 |
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| 640 | if OCE_icb : |
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| 641 | OCE_berg_icb = rprec (d_OCE_his['berg_floating_melt']) ; OCE_mas_berg_icb = OCE_flux_int ( OCE_berg_icb ) |
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| 642 | OCE_calving_icb = rprec (d_OCE_his['calving_icb'] ) ; OCE_mas_calv_icb = OCE_flux_int ( OCE_calving_icb ) |
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| 643 | else : |
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| 644 | OCE_berg_icb = 0. ; OCE_mas_berg_icb = 0. |
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| 645 | OCE_calv_icb = 0. ; OCE_mas_calv_icb = 0. |
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[6271] | 646 | |
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[6647] | 647 | OCE_mas_emp = OCE_mas_emp_oce - OCE_mas_wfxice - OCE_mas_wfxsnw - ICE_mas_wfxpnd - ICE_mas_wfxsub_err |
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| 648 | OCE_mas_all = OCE_mas_emp_oce + OCE_mas_emp_ice - OCE_mas_runoffs - OCE_mas_iceshelf |
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[6271] | 649 | |
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[6647] | 650 | prtFlux ('OCE+ICE budget ', OCE_mas_all , 'e', True) |
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| 651 | prtFlux (' EMPMR ', OCE_mas_empmr , 'e', True) |
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| 652 | prtFlux (' WFOB ', OCE_mas_wfob , 'e', True) |
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| 653 | prtFlux (' EMP_OCE ', OCE_mas_emp_oce , 'e', True) |
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| 654 | prtFlux (' EMP_ICE ', OCE_mas_emp_ice , 'e', True) |
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| 655 | prtFlux (' EMP ', OCE_mas_emp , 'e', True) |
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| 656 | prtFlux (' ICEBERG ', OCE_mas_iceberg , 'e', ) |
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| 657 | prtFlux (' ICESHELF ', OCE_mas_iceshelf , 'e', True) |
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| 658 | prtFlux (' CALVING ', OCE_mas_calving , 'e', True) |
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| 659 | prtFlux (' FRIVER ', OCE_mas_friver , 'e', ) |
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| 660 | prtFlux (' RUNOFFS ', OCE_mas_runoffs , 'e', True) |
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| 661 | prtFlux (' WFXICE ', OCE_mas_wfxice , 'e', True) |
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| 662 | prtFlux (' WFXSNW ', OCE_mas_wfxsnw , 'e', True) |
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| 663 | prtFlux (' WFXSUB ', OCE_mas_wfxsub , 'e', True) |
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| 664 | prtFlux (' WFXPND ', ICE_mas_wfxpnd , 'e', True) |
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| 665 | prtFlux (' WFXSNW_SUB ', ICE_mas_wfxsnw_sub, 'e', True) |
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| 666 | prtFlux (' WFXSNW_PRE ', ICE_mas_wfxsnw_pre, 'e', True) |
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| 667 | prtFlux (' WFXSUB_ERR ', ICE_mas_wfxsub_err, 'e', True) |
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| 668 | prtFlux (' EVAP_OCE ', OCE_mas_evap_oce , 'e' ) |
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| 669 | prtFlux (' EVAP_ICE ', ICE_mas_evap_ice , 'e', True) |
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| 670 | prtFlux (' SNOW_OCE ', OCE_mas_snow_oce , 'e', True) |
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| 671 | prtFlux (' SNOW_ICE ', OCE_mas_snow_ice , 'e', True) |
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| 672 | prtFlux (' RAIN ', OCE_mas_rain , 'e' ) |
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| 673 | prtFlux (' FWB ', OCE_mas_fwb , 'e', True) |
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| 674 | prtFlux (' SSR ', OCE_mas_ssr , 'e', True) |
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| 675 | prtFlux (' WFCORR ', OCE_mas_wfcorr , 'e', True) |
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| 676 | prtFlux (' BERG_ICB ', OCE_mas_berg_icb , 'e', True) |
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| 677 | prtFlux (' CALV_ICB ', OCE_mas_calv_icb , 'e', True) |
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[6271] | 678 | |
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| 679 | |
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[6647] | 680 | echo (' ') |
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[6271] | 681 | |
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[6647] | 682 | prtFlux ( 'wbilo sea ', ATM_flux_int (ATM_wbilo_sea), 'e', ) |
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[6665] | 683 | if SRF : |
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| 684 | prtFlux ( 'costalflow ', ONE_flux_int (RUN_coastalflow), 'e', ) |
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| 685 | prtFlux ( 'riverflow ', RUN_flx_river , 'e', ) |
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| 686 | prtFlux ( 'costalflow ', RUN_flx_coastal, 'e', ) |
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| 687 | prtFlux ( 'runoff ', RUN_flx_river+RUN_flx_coastal, 'e', ) |
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[6271] | 688 | |
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[6665] | 689 | #ATM_to_OCE = ATM_flux_int (ATM_wbilo_sea) - RUN_flx_river - RUN_flx_coastal - ATM_flx_calving |
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| 690 | ATM_to_OCE = ATM_flux_int (ATM_wbilo_sea) - ATM_flx_river - ATM_flx_coastal - ATM_flx_calving |
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[6647] | 691 | #OCE_from_ATM = -OCE_mas_emp_oce - OCE_mas_emp_ice + OCE_mas_runoffs + OCE_mas_iceberg + OCE_mas_calving + OCE_mas_iceshelf |
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| 692 | OCE_from_ATM = OCE_mas_all |
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[6271] | 693 | |
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[6647] | 694 | prtFlux ( 'ATM_to_OCE ', ATM_to_OCE , 'e', True ) |
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| 695 | prtFlux ( 'OCE_from_ATM', OCE_from_ATM, 'e', True ) |
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[6665] | 696 | |
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| 697 | echo ( ' ' ) |
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| 698 | echo ( f'{Title = }' ) |
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| 699 | |
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| 700 | echo ( 'SVN Information' ) |
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| 701 | for kk in SVN.keys(): |
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| 702 | print ( SVN[kk] ) |
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[6676] | 703 | |
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| 704 | ## Write the full configuration |
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| 705 | ## ---------------------------- |
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| 706 | params_out = open (FullIniFile, 'w', encoding = 'utf-8') |
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| 707 | params = wu.dict2config ( dpar ) |
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| 708 | params.write ( params_out ) |
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| 709 | params_out.close () |
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