1 | # -*- coding: iso-8859-1 -*- |
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2 | # Created : S.Sénési - nov 2015 |
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3 | |
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4 | """ |
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5 | Base pour le traitement des données SE de LMDZ : |
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6 | - variables, saisons et grilles habituellement gérées, |
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7 | - organisation des données SE |
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8 | - renommage et re-scaling des variables |
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9 | - dictionnaire de fichiers d'exemples pour les grilles traitées |
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10 | et une fonction pour rendre un objet CliMAF pour tuple (simu, variable, saison, grille) |
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11 | """ |
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12 | |
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13 | from climaf.api import * |
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14 | |
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15 | # Liste des variables LMDZ objet d'une cmorisation ou d'une projection+moyenne saisonniere |
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16 | ######################################################################################### |
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17 | """ |
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18 | variables_list=['sfcWind','hfls','hfss','huss','hurs','pr',\ |
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19 | 'rldscs','rlds','rlus','rsdscs','rsds','rsuscs','rsus','rsutcs','rsut','rlut','rlutcs','rsdt',\ |
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20 | 'sfcWind','tas','ts','tauu','tauv','psl','zg500','hfns','ta','ua','va','wap','hus','hur',\ |
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21 | 'cllcalipso','clmcalipso','clhcalipso','cltcalipso','clt','prw','tasmax','tasmin'] |
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22 | """ |
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23 | variables_list=['sfcWind','hfls','hfss','bil','huss','hurs','pr',\ |
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24 | 'rldscs','rlds','rlus','rsdscs','rsds','rsuscs','rsus','rsutcs','rsut','rlut','rlutcs','rsdt',\ |
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25 | 'sfcWind','tas','sst','tauu','tauv','psl','zg500','hfns','ta','ua','va','wap','hus','hur',\ |
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26 | 'cllcalipso','clmcalipso','clhcalipso','cltcalipso','clt','prw','tasmax','tasmin'] |
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27 | |
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28 | #Dictionnaire des grilles connues et de fichiers d'exemple |
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29 | ######################################################################################### |
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30 | grid_remapfiles={ 'VLR' : '/data/ssenesi/stable/VLR.nc'} |
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31 | |
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32 | # Saisons gérées et leur traduction CDO |
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33 | ######################################################################################### |
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34 | seasons={ 'YEAR':"", 'DJF' : "-timavg -selmon,1,2,12", 'JJA' : "-timavg -selmon,6,7,8" , 'JJAS' : "-timavg -selmon,6,7,8,9" } |
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35 | #seasons={ 'YEAR':"", 'DJF' : " selmon,1,2,12", 'JJA' : " selmon,6,7,8" , 'JJAS' : "-timavg -selmon,6,7,8,9" } |
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36 | |
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37 | |
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38 | |
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39 | ######################################################################################### |
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40 | # Definitions pour l'acces aux obs gérées par Ionela |
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41 | ######################################################################################### |
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42 | cproject('OBS', ('period','fx'), ('root','/modfs/ipslfs/dods/fabric/lmdz/SE/CMOR/OBS')) #, '/data/musat/LMDZ6/SE/CMOR/OBS')) |
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43 | dataloc(project='OBS',url='${root}/${variable}.nc') |
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44 | # Définiton de variables dérivées pour ce projet |
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45 | |
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46 | #derive('OBS','rstt','minus','rsdt','rsut') |
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47 | #derive('OBS','rstscs','minus','rsdscs','rsuscs') |
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48 | #derive('OBS','rsts','minus','rsds','rsus') |
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49 | |
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50 | #derive('OBS','cress','minus','rsds','rsdscs') |
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51 | #derive('OBS','crels','minus','rlds','rldscs') |
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52 | #derive('OBS','crets','plus','crels','cress') |
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53 | #derive('OBS','crest','minus','rsutcs','rsut') |
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54 | #derive('OBS','crelt','minus','rlutcs','rlut') |
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55 | #derive('OBS','crett','plus','crest','crelt') |
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56 | |
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57 | # Variables dérivées |
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58 | derive('OBS','rstt','minus','rsdt','rsut') |
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59 | derive('OBS','rsts','minus','rsds','rsus') |
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60 | #BUH here: IMderive('OBS','rlts','minus','rlds','rlus') |
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61 | derive('OBS','rlts','minus','rlus','rlds') |
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62 | derive('OBS','rtt','minus','rstt','rlut') |
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63 | derive('OBS','rts','plus','rsts','rlts') |
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64 | |
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65 | derive('OBS','rstscs','minus','rsdscs','rsuscs') |
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66 | derive('OBS','rsttcs','minus','rsdt' ,'rsutcs') |
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67 | |
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68 | derive('OBS','cress','minus','rsds','rsdscs') |
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69 | derive('OBS','crels','minus','rlds','rldscs') |
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70 | derive('OBS','crets','plus','cress','crels') |
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71 | |
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72 | derive('OBS','crest','minus','rsutcs','rsut') |
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73 | derive('OBS','crelt','minus','rlutcs','rlut') |
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74 | derive('OBS','crett','plus','crest','crelt') |
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75 | |
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76 | derive('OBS','hfns','plus','hfls','hfss') |
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77 | derive('OBS','bil' ,'minus','rts','hfns') |
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78 | derive('OBS','tsmtas','minus','ts','tas') |
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79 | |
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80 | derive('OBS','rlah','minus','rlts','rlut') |
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81 | derive('OBS','rtmp','plus','rldscs','rlutcs') |
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82 | derive('OBS','rlahcs','minus','rlus','rtmp') |
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83 | |
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84 | derive('OBS','rlahcre','minus','rlah','rlahcs') |
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85 | |
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86 | derive('OBS','rsah','minus','rstt','rsts') |
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87 | derive('OBS','rsahcs','minus','rsttcs','rstscs') |
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88 | derive('OBS','rsahcre','minus','rsah','rsahcs') |
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89 | |
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90 | derive('OBS','rah','plus','rsah','rlah') |
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91 | derive('OBS','rahcs','plus','rsahcs','rlahcs') |
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92 | derive('OBS','rahcre','minus','rah','rahcs') |
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93 | |
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94 | cscript('mask_val_inf_1','cdo setrtomiss,0,1 ${in} ${out}') |
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95 | derive('OBS','rsdt_mask','mask_val_inf_1','rsdt') |
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96 | derive('OBS','albt','divide','rsut','rsdt_mask') |
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97 | derive('OBS','albtcs','divide','rsutcs','rsdt_mask') |
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98 | |
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99 | |
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100 | derive('OBS','albs','divide','rsus','rsds') |
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101 | derive('OBS','dtr','minus','tasmax','tasmin') |
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102 | |
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103 | |
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104 | ######################################################################################### |
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105 | # Définition logique des donnees de type 'SE' de l'IPSL, et de leur localisation |
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106 | # La periode n'est pas traitee comme un objet 'period' de CliMAF, mais comme une chaine |
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107 | # de caracteres dont le nom de facette est 'years' |
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108 | |
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109 | # Le nommage des données découvert chez F.Hourdin est traité. On utilise la facette 'root' |
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110 | # pour indiquer le répertoire de base |
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111 | # Les re-scaling habituels sont decrits a l'aide de la fonction calias |
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112 | # Les variables dérivées sont décrites aussi |
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113 | ######################################################################################### |
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114 | |
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115 | cproject('SE', |
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116 | ('frequency','seasonnal'), |
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117 | ('period','fx'), |
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118 | 'years', |
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119 | ('root','/modfs/ipslfs/dods/aidelkad/lmdz/SE/ORIG'), |
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120 | separator='|') |
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121 | #exemple de nom de fichier : NPv3.1ada_SE_1982_1991_1M_histmthCOSP.nc |
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122 | pattern='${root}/${simulation}_SE_${years}_1M_histmth*.nc' |
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123 | dataloc(project='SE',url=pattern, organization='generic') |
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124 | |
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125 | |
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126 | calias('SE','hfls','flat',scale=-1.) |
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127 | calias('SE','hfss','sens',scale=-1.) |
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128 | calias('SE','pr','precip') |
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129 | calias('SE','sfcWind','wind10m') |
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130 | calias('SE','rldscs','LWdnSFCclr') |
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131 | calias('SE','rlds','LWdnSFC') |
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132 | calias('SE','rlus','LWupSFC') |
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133 | calias('SE','rsdscs','SWdnSFCclr') |
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134 | calias('SE','rsds','SWdnSFC') |
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135 | calias('SE','rsuscs','SWupSFCclr') |
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136 | calias('SE','rsus','SWupSFC') |
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137 | calias('SE','rsutcs','SWupTOAclr') |
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138 | calias('SE','rsut','SWupTOA') |
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139 | calias('SE','rsdt','SWdnTOA') |
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140 | calias('SE','rlut','topl') |
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141 | calias('SE','rlutcs','topl0') |
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142 | calias('SE','sfcWind','wind10m') |
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143 | calias('SE','tas','t2m') |
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144 | calias('SE','tasmax','ave_t2m_daily_max') |
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145 | calias('SE','tasmin','ave_t2m_daily_min') |
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146 | calias('SE','ts','tsol') |
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147 | calias('SE','sst','tsol_oce') |
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148 | calias('SE','huss','q2m') |
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149 | calias('SE','hurs','rh2m') |
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150 | calias('SE','tauu','taux_oce') |
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151 | calias('SE','tauv','tauy_oce') |
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152 | #calias('SE','psl','slp') |
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153 | calias('SE','psl','slp', scale=0.01) |
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154 | calias('SE','zg500','z500') |
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155 | #calias('SE','pslhPa','slp', scale=0.01) |
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156 | #calias('OBS','pslhPa','psl', scale=0.01) |
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157 | |
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158 | #calias('SE','hfns','bils') |
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159 | calias('SE','ta','temp') |
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160 | calias('SE','ua','vitu') |
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161 | calias('SE','va','vitv') |
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162 | calias('SE','wap','vitw') |
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163 | calias('SE','hus','ovap') |
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164 | calias('SE','hur','rhum', scale=100.) |
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165 | calias('SE','clt','cldt', scale=100.) |
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166 | calias('SE','cltcalipso', scale=100.) |
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167 | calias('SE','clhcalipso', scale=100.) |
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168 | calias('SE','clmcalipso', scale=100.) |
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169 | calias('SE','cllcalipso', scale=100.) |
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170 | |
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171 | # Variables dérivées |
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172 | derive('SE','rstt','minus','rsdt','rsut') |
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173 | derive('SE','rsts','minus','rsds','rsus') |
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174 | #BUG HERE derive('SE','rlts','minus','rlds','rlus') |
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175 | derive('SE','rlts','minus','rlus','rlds') |
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176 | derive('SE','rltscs','minus','rldscs','rluscs') |
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177 | |
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178 | derive('SE','rtt','minus','rstt','rlut') |
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179 | derive('SE','rts','plus','rsts','rlts') |
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180 | |
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181 | derive('SE','rstscs','minus','rsdscs','rsuscs') |
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182 | derive('SE','rsttcs','minus','rsdt' ,'rsutcs') |
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183 | |
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184 | derive('SE','cress','minus','rsds','rsdscs') |
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185 | derive('SE','crels','minus','rlds','rldscs') |
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186 | derive('SE','crets','plus','cress','crels') |
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187 | |
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188 | derive('SE','crest','minus','rsutcs','rsut') |
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189 | derive('SE','crelt','minus','rlutcs','rlut') |
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190 | derive('SE','crett','plus','crest','crelt') |
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191 | |
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192 | derive('SE','hfns','plus','hfls','hfss') |
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193 | derive('SE','bil' ,'minus','rts','hfns') |
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194 | derive('SE','tsmtas','minus','ts','tas') |
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195 | |
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196 | derive('SE','rlah','minus','rlts','rlut') |
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197 | derive('SE','rtmp','plus','rldscs','rlutcs') |
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198 | derive('SE','rlahcs','minus','rlus','rtmp') |
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199 | |
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200 | #let rlahcs=rlus-rldscs-rlutcs |
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201 | derive('SE','rlahcre','minus','rlah','rlahcs') |
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202 | # |
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203 | derive('SE','rsah','minus','rstt','rsts') |
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204 | derive('SE','rsahcs','minus','rsttcs','rstscs') |
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205 | derive('SE','rsahcre','minus','rsah','rsahcs') |
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206 | |
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207 | derive('SE','rah','plus','rsah','rlah') |
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208 | derive('SE','rahcs','plus','rsahcs','rlahcs') |
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209 | derive('SE','rahcre','minus','rah','rahcs') |
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210 | |
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211 | cscript('mask_valLMDZ_inf_1','cdo setrtomiss,0,1 ${in} ${out}') |
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212 | derive('SE','rsdt_maskLMDZ','mask_valLMDZ_inf_1','rsdt') |
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213 | derive('SE','albt','divide','rsut','rsdt_maskLMDZ') |
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214 | derive('SE','albtcs','divide','rsutcs','rsdt_maskLMDZ') |
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215 | #derive('SE','albt','divide','rsut','rsdt') |
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216 | #derive('SE','albtcs','divide','rsutcs','rsdt') |
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217 | |
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218 | derive('SE','albs','divide','rsus','rsds') |
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219 | |
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220 | derive('SE','dtr','minus','tasmax','tasmin') |
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221 | |
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222 | # -- P - E |
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223 | calias('SE', 'hflsevap', 'flat', scale=-1./2.5e6, filenameVar='histmth') |
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224 | derive('SE', 'pme', 'minus', 'pr' ,'hflsevap') |
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225 | |
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226 | |
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227 | # -- Atmospheric Variables on vertical levels |
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228 | for tmpvar in ['ua', 'va', 'ta', 'hus', 'hur']: |
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229 | for tmplev in ['850', '700', '500', '200']: |
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230 | derive('OBS', tmpvar+tmplev, 'ccdo', tmpvar, operator='intlevel,'+tmplev) |
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231 | derive('SE', tmpvar+tmplev, 'ccdo', tmpvar, operator='intlevel,'+tmplev+'00') |
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232 | |
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233 | |
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234 | # let albt=100*(rsut/rsdt) |
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235 | # let albs=100*(rsus/rsds) |
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236 | # let tsk=ts+273.18 |
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237 | # let pslhPa=psl/100. |
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238 | # let tasc=tas-273.16 |
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239 | |
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240 | def all_SE_simulations(): |
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241 | """ |
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242 | Listage de toutes les simulations du projet par listage de leurs |
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243 | fichiers de données et décodage de leur nom |
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244 | |
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245 | Il faudrait quelque chose de moins adhoc ... |
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246 | """ |
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247 | import re |
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248 | simus=[] |
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249 | # Listage des fichiers de donnees |
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250 | a=ds(project='SE',years="*", simulation='*', variable='*') |
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251 | for f in a.baseFiles().split(' ') : |
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252 | basename=f.split('/')[-1].replace('_SE','') |
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253 | #basename=re.sub(r'_1M_histmth.*.nc','',basename) |
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254 | basename=re.sub(r'_1M_histmth*.*.nc','',basename) |
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255 | if basename not in simus : simus.append(basename) |
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256 | return simus |
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257 | |
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258 | |
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259 | def svsg(simulation,variable,season='YEAR',grid='',root='/modfs/ipslfs/dods/aidelkad/lmdz/SE/ORIG'): |
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260 | """ |
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261 | Rend l'objet CliMAF pour une variable d'une simulation, pour les données |
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262 | - SE d'un intervalle d'annéees (forme YYY1_YYY2) |
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263 | - ou OBS |
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264 | et une saison et une grille |
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265 | |
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266 | (Le nom de la fonction est la concaténation des intiales des arguments) |
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267 | |
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268 | Exemples : |
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269 | >>> svsg('NPv3.1ada','1982_1991','hurs') |
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270 | >>> svsg(simulation='NPv3.1ada',years='1982_1991',variable='hurs',season='DJF, grid='') |
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271 | >>> svsg('OBS','','hurs','JJA') |
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272 | |
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273 | Il faut au préalable avoir déclaré les projets 'SE' et 'OBS' |
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274 | """ |
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275 | if simulation != 'OBS' : |
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276 | # Il faut identifier les annees dans le nom de la simu |
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277 | yeardeb=simulation.split('_')[1] |
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278 | yearfin=simulation.split('_')[2] |
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279 | years=yeardeb+"_"+yearfin |
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280 | simulation=simulation.split('_')[0] |
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281 | data=ds(project='SE',variable=variable,years=years, simulation=simulation) |
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282 | else: |
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283 | data=ds(project='OBS',variable=variable) |
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284 | if season != 'YEAR' : |
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285 | seas=ccdo(data,operator=seasons[season]) |
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286 | else : |
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287 | seas=time_average(data) |
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288 | rds=seas |
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289 | if grid != '' : |
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290 | if grid not in grid_remapfiles : |
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291 | print "La grille %s n'est pas connue"%options.grid ; |
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292 | return None |
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293 | rds=regrid(seas,fds(grid_remapfiles[grid],period='fx')) |
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294 | return rds |
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295 | |
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296 | def bias_SE(simu,variable,season='YEAR',grid='',root='/modfs/ipslfs/dods/aidelkad/lmdz/SE/ORIG') : |
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297 | """ |
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298 | Calcule le biais pour une variable d'une simu, vs 'OBS' |
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299 | Rend -999. en cas de probleme |
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300 | """ |
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301 | try : |
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302 | sim=svsg(simu ,variable,season,grid,root) |
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303 | ref=svsg('OBS',variable,season,grid) |
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304 | if (grid == '' ) : ref=regrid(ref,sim) |
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305 | dif=minus(sim,ref) |
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306 | return cvalue(space_average(dif)) |
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307 | except : |
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308 | return -999. |
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309 | |
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310 | def is3d(variable) : |
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311 | if variable in ['ta','ua','va','hus','hur','wap','cl','clw','cli','mc','tro3'] : |
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312 | return True |
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313 | return False |
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314 | |
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315 | |
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316 | def varlongname(variable,short=False): |
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317 | """ |
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318 | Returns the long name of variable |
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319 | """ |
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320 | shortvarname = longvarname = variable |
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321 | if variable=='tas': |
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322 | longvarname = '2M Temperature' |
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323 | shortvarname = '2M Temp.' |
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324 | if variable=='tasmax': |
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325 | longvarname = '2M daymax Temperature' |
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326 | shortvarname = '2M daymx Temp.' |
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327 | if variable=='tasmin': |
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328 | longvarname = '2M daymin Temperature' |
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329 | shortvarname = '2M daymn Temp.' |
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330 | if variable=='DRT': |
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331 | longvarname = '2M diurnal amplitude temperature' |
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332 | shortvarname = '2M dtr ' |
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333 | if variable=='pr': |
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334 | longvarname = 'Precipitation' |
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335 | shortvarname = 'Precip.' |
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336 | if variable=='psl': |
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337 | longvarname = 'Sea Level Pressure' |
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338 | shortvarname = 'Sea Level Pres.' |
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339 | if variable=='ua': |
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340 | longvarname = 'Zonal Wind' |
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341 | shortvarname = 'U-Wind' |
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342 | if variable=='va': |
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343 | longvarname = 'Meridional Wind' |
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344 | shortvarname = 'V-Wind' |
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345 | if variable=='ta': |
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346 | longvarname = 'Air Temperature' |
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347 | shortvarname = 'Air Temp.' |
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348 | if variable=='hus': |
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349 | longvarname = 'Specific Humidity' |
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350 | shortvarname = 'Sp. Humidity' |
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351 | if variable=='hur': |
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352 | longvarname = 'Relative Humidity' |
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353 | shortvarname = 'Rel. Humidity' |
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354 | if variable=='huss': |
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355 | longvarname = 'Specific Humidity at Surface' |
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356 | shortvarname = 'Sp. Humidity (surf)' |
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357 | if variable=='rstt': |
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358 | longvarname = 'Rad SW Total TOA' |
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359 | shortvarname = 'Rad SW Total TOA' |
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360 | if variable=='rsts': |
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361 | longvarname = 'Total SW rad surface' |
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362 | shortvarname = 'Total SW rad surf.' |
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363 | if variable=='rtt': |
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364 | longvarname = 'Total Radiation TOA' |
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365 | shortvarname = 'Total Rad. TOA' |
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366 | if variable=='crelt': |
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367 | longvarname = 'Longwave Cloud Radiative Effect TOA' |
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368 | shortvarname = 'LW CRE TOA' |
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369 | if variable=='crest': |
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370 | longvarname = 'Shortwave Cloud Radiative Effect TOA' |
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371 | shortvarname = 'SW CRE TOA' |
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372 | if variable=='crett': |
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373 | longvarname = 'Total CRE TOA' |
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374 | shortvarname = 'Total CRE TOA' |
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375 | if variable=='hfls': |
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376 | longvarname = 'Latent Heat Flux' |
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377 | shortvarname = 'Latent HF' |
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378 | if variable=='hfss': |
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379 | longvarname = 'Sensible Heat Flux' |
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380 | shortvarname = 'Sensible HF' |
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381 | if variable=='hfns': |
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382 | longvarname = 'Surface Total Heat Flux' |
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383 | shortvarname = 'Surf. Tot. HF' |
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384 | if variable=='zg500': |
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385 | longvarname = '500mb geopotential height' |
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386 | shortvarname = '' |
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387 | if variable=='rsut': |
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388 | longvarname = 'Upward SW rad TOA' |
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389 | shortvarname = '' |
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390 | if variable=='rlut': |
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391 | longvarname = 'Outgoing Long Wave Radiation' |
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392 | shortvarname = 'OLR' |
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393 | if variable=='rlutcs': |
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394 | longvarname = 'Clear Sky OLR' |
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395 | shortvarname = 'Clear sky OLR' |
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396 | if variable=='albs': |
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397 | longvarname = 'Surface albedo' |
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398 | shortvarname = '' |
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399 | if variable=='albt': |
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400 | longvarname = 'Planetary albedo' |
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401 | shortvarname = '' |
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402 | if variable=='albtcs': |
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403 | longvarname = 'Clear Sky Planetary albedo' |
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404 | shortvarname = '' |
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405 | if variable=='cress': |
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406 | longvarname = 'SW CRE surface' |
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407 | shortvarname = '' |
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408 | if variable=='crels': |
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409 | longvarname = 'LW CRE surface' |
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410 | shortvarname = '' |
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411 | if variable=='crets': |
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412 | longvarname = 'Total CRE surface' |
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413 | shortvarname = '' |
---|
414 | if variable=='rts': |
---|
415 | longvarname = 'Total radiation surface' |
---|
416 | shortvarname = '' |
---|
417 | if variable=='rah': |
---|
418 | longvarname = 'Atm. Rad. Heat.' |
---|
419 | shortvarname = '' |
---|
420 | if variable=='rahcs': |
---|
421 | longvarname = 'Atm. Rad. Heat. - clear sky' |
---|
422 | shortvarname = '' |
---|
423 | if variable=='rahcre': |
---|
424 | longvarname = 'Atm. rad. Heat. - CRE' |
---|
425 | shortvarname = '' |
---|
426 | if variable=='rsah': |
---|
427 | longvarname = 'Atm. SW Heat.' |
---|
428 | shortvarname = '' |
---|
429 | if variable=='rsahcs': |
---|
430 | longvarname = 'Atm. SW Heat. - Clear sky' |
---|
431 | shortvarname = '' |
---|
432 | if variable=='rsahcre': |
---|
433 | longvarname = 'Atm. SW Heat. - CRE' |
---|
434 | shortvarname = '' |
---|
435 | if variable=='rlah': |
---|
436 | longvarname = 'Atm. LW Heat.' |
---|
437 | shortvarname = '' |
---|
438 | if variable=='rlahcs': |
---|
439 | longvarname = 'Atm. LW Heat. - Clear sky' |
---|
440 | shortvarname = '' |
---|
441 | if variable=='rlahcre': |
---|
442 | longvarname = 'Atm. LW Heat. - CRE' |
---|
443 | shortvarname = '' |
---|
444 | if variable=='cltcalipso': |
---|
445 | longvarname = 'Total Cloud Cover' |
---|
446 | shortvarname = '' |
---|
447 | if variable=='cllcalipso': |
---|
448 | longvarname = 'Low Cloud Cover' |
---|
449 | shortvarname = '' |
---|
450 | if variable=='clmcalipso': |
---|
451 | longvarname = 'Medium Cloud Cover' |
---|
452 | shortvarname = '' |
---|
453 | if variable=='clhcalipso': |
---|
454 | longvarname = 'High Cloud Cover' |
---|
455 | shortvarname = '' |
---|
456 | if variable=='rlds': |
---|
457 | longvarname = 'Downward LW rad at Surface' |
---|
458 | shortvarname = '' |
---|
459 | if variable=='rldscs': |
---|
460 | longvarname = 'Downward LW rad at Surface - Clear Sky' |
---|
461 | shortvarname = '' |
---|
462 | if variable=='hurs': |
---|
463 | longvarname = 'Relative Humidity at Surface' |
---|
464 | shortvarname = '' |
---|
465 | if variable=='rlus': |
---|
466 | longvarname = 'Upward LW rad at Surface' |
---|
467 | shortvarname = '' |
---|
468 | if variable=='rsus': |
---|
469 | longvarname = 'Upward SW rad at Surface' |
---|
470 | shortvarname = '' |
---|
471 | if variable=='rsuscs': |
---|
472 | longvarname = 'Upward SW rad at Surface - Clear Sky' |
---|
473 | shortvarname = '' |
---|
474 | if variable=='rsdscs': |
---|
475 | longvarname = 'Downward SW rad at Surface - Clear Sky' |
---|
476 | shortvarname = '' |
---|
477 | if variable=='rsds': |
---|
478 | longvarname = 'Downward SW rad at Surface' |
---|
479 | shortvarname = '' |
---|
480 | if variable=='rsucs': |
---|
481 | longvarname = 'Upward SW rad at Surface - Clear Sky' |
---|
482 | shortvarname = '' |
---|
483 | if variable=='rsutcs': |
---|
484 | longvarname = 'Upward SW rad at TOA - Clear Sky' |
---|
485 | shortvarname = '' |
---|
486 | if variable=='tauu': |
---|
487 | longvarname = 'Zonal Wind Stress' |
---|
488 | shortvarname = '' |
---|
489 | if variable=='tauv': |
---|
490 | longvarname = 'Meridional Wind Stress' |
---|
491 | shortvarname = '' |
---|
492 | if variable=='pme': |
---|
493 | longvarname = 'P-E Precip-Evap(hfls/2.5e6) mm/day' |
---|
494 | shortvarname = '' |
---|
495 | # |
---|
496 | if short: |
---|
497 | return shortvarname |
---|
498 | else: |
---|
499 | return longvarname |
---|
500 | |
---|
501 | |
---|
502 | |
---|