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Merge remote-tracking branch 'origin/feature/ECC-1903-tablesVersion-switch' into feature/ECC-1903-tablesVersion-switch-with-chem-param-split

This commit is contained in:
Matthew Griffith 2024-12-18 15:50:39 +00:00
parent 473517435d 2da5b49ef8
commit 70960d32e1
134 changed files with 1937 additions and 579 deletions
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2
definitions/boot.def
View File

@ -124,3 +124,5 @@ if(kindOfProduct == `WRAP`){
constant WRAPstr="WRAP";
alias ls.identifier=WRAPstr;
}
meta isMessageValid message_is_valid(kindOfProduct) : hidden;

108
definitions/grib1/localConcepts/ecmf/name.def
View File

@ -3799,13 +3799,13 @@
table2Version = 171 ;
indicatorOfParameter = 122 ;
}
#Mean surface runoff rate
'Mean surface runoff rate' = {
#Time-mean surface runoff rate
'Time-mean surface runoff rate' = {
table2Version = 172 ;
indicatorOfParameter = 8 ;
}
#Mean sub-surface runoff rate
'Mean sub-surface runoff rate' = {
#Time-mean sub-surface runoff rate
'Time-mean sub-surface runoff rate' = {
table2Version = 172 ;
indicatorOfParameter = 9 ;
}
@ -14919,18 +14919,18 @@
table2Version = 172 ;
indicatorOfParameter = 50 ;
}
#Mean large-scale precipitation rate
'Mean large-scale precipitation rate' = {
#Time-mean large-scale precipitation rate
'Time-mean large-scale precipitation rate' = {
table2Version = 172 ;
indicatorOfParameter = 142 ;
}
#Mean convective precipitation rate
'Mean convective precipitation rate' = {
#Time-mean convective precipitation rate
'Time-mean convective precipitation rate' = {
table2Version = 172 ;
indicatorOfParameter = 143 ;
}
#Mean total snowfall rate
'Mean total snowfall rate' = {
#Time-mean total snowfall rate
'Time-mean total snowfall rate' = {
table2Version = 172 ;
indicatorOfParameter = 144 ;
}
@ -14939,68 +14939,68 @@
table2Version = 172 ;
indicatorOfParameter = 145 ;
}
#Mean surface sensible heat flux
'Mean surface sensible heat flux' = {
#Time-mean surface sensible heat flux
'Time-mean surface sensible heat flux' = {
table2Version = 172 ;
indicatorOfParameter = 146 ;
}
#Mean surface latent heat flux
'Mean surface latent heat flux' = {
#Time-mean surface latent heat flux
'Time-mean surface latent heat flux' = {
table2Version = 172 ;
indicatorOfParameter = 147 ;
}
#Mean short-wave heating rate
'Mean short-wave heating rate' = {
#Time-mean short-wave (solar) heating rate
'Time-mean short-wave (solar) heating rate' = {
table2Version = 172 ;
indicatorOfParameter = 153 ;
}
#Mean long-wave heating rate
'Mean long-wave heating rate' = {
#Time-mean long-wave (thermal) heating rate
'Time-mean long-wave (thermal) heating rate' = {
table2Version = 172 ;
indicatorOfParameter = 154 ;
}
#Mean surface downward solar radiation flux
'Mean surface downward solar radiation flux' = {
#Time-mean surface downward short-wave (solar) radiation flux
'Time-mean surface downward short-wave (solar) radiation flux' = {
table2Version = 172 ;
indicatorOfParameter = 169 ;
}
#Mean surface downward thermal radiation flux
'Mean surface downward thermal radiation flux' = {
#Time-mean surface downward long-wave (thermal) radiation flux
'Time-mean surface downward long-wave (thermal) radiation flux' = {
table2Version = 172 ;
indicatorOfParameter = 175 ;
}
#Mean surface net solar radiation flux
'Mean surface net solar radiation flux' = {
#Time-mean surface net short-wave (solar) radiation flux
'Time-mean surface net short-wave (solar) radiation flux' = {
table2Version = 172 ;
indicatorOfParameter = 176 ;
}
#Mean surface net thermal radiation flux
'Mean surface net thermal radiation flux' = {
#Time-mean surface net long-wave (thermal) radiation flux
'Time-mean surface net long-wave (thermal) radiation flux' = {
table2Version = 172 ;
indicatorOfParameter = 177 ;
}
#Mean top net solar radiation flux
'Mean top net solar radiation flux' = {
#Time-mean top net short-wave (solar) radiation flux
'Time-mean top net short-wave (solar) radiation flux' = {
table2Version = 172 ;
indicatorOfParameter = 178 ;
}
#Mean top net thermal radiation flux
'Mean top net thermal radiation flux' = {
#Time-mean top net long-wave (thermal) radiation flux
'Time-mean top net long-wave (thermal) radiation flux' = {
table2Version = 172 ;
indicatorOfParameter = 179 ;
}
#East-West surface stress rate of accumulation
'East-West surface stress rate of accumulation' = {
#Time-mean eastward turbulent surface stress
'Time-mean eastward turbulent surface stress' = {
table2Version = 172 ;
indicatorOfParameter = 180 ;
}
#North-South surface stress rate of accumulation
'North-South surface stress rate of accumulation' = {
#Time-mean northward turbulent surface stress
'Time-mean northward turbulent surface stress' = {
table2Version = 172 ;
indicatorOfParameter = 181 ;
}
#Evaporation
'Evaporation' = {
#Time-mean evaporation rate
'Time-mean evaporation rate' = {
table2Version = 172 ;
indicatorOfParameter = 182 ;
}
@ -15024,48 +15024,48 @@
table2Version = 172 ;
indicatorOfParameter = 197 ;
}
#Mean runoff rate
'Mean runoff rate' = {
#Time-mean runoff rate
'Time-mean runoff rate' = {
table2Version = 172 ;
indicatorOfParameter = 205 ;
}
#Top net solar radiation, clear sky
'Top net solar radiation, clear sky' = {
#Time-mean top net short-wave (solar) radiation flux, clear sky
'Time-mean top net short-wave (solar) radiation flux, clear sky' = {
table2Version = 172 ;
indicatorOfParameter = 208 ;
}
#Top net thermal radiation, clear sky
'Top net thermal radiation, clear sky' = {
#Time-mean top net long-wave (thermal) radiation flux, clear sky
'Time-mean top net long-wave (thermal) radiation flux, clear sky' = {
table2Version = 172 ;
indicatorOfParameter = 209 ;
}
#Surface net solar radiation, clear sky
'Surface net solar radiation, clear sky' = {
#Time-mean surface net short-wave (solar) radiation flux, clear sky
'Time-mean surface net short-wave (solar) radiation flux, clear sky' = {
table2Version = 172 ;
indicatorOfParameter = 210 ;
}
#Surface net thermal radiation, clear sky
'Surface net thermal radiation, clear sky' = {
#Time-mean surface net long-wave (thermal) radiation flux, clear sky
'Time-mean surface net long-wave (thermal) radiation flux, clear sky' = {
table2Version = 172 ;
indicatorOfParameter = 211 ;
}
#Solar insolation rate of accumulation
'Solar insolation rate of accumulation' = {
#Time-mean short-wave (solar) insolation rate
'Time-mean short-wave (solar) insolation rate' = {
table2Version = 172 ;
indicatorOfParameter = 212 ;
}
#Mean total precipitation rate
'Mean total precipitation rate' = {
#Time-mean total precipitation rate
'Time-mean total precipitation rate' = {
table2Version = 172 ;
indicatorOfParameter = 228 ;
}
#Convective snowfall
'Convective snowfall' = {
#Time-mean convective snowfall rate
'Time-mean convective snowfall rate' = {
table2Version = 172 ;
indicatorOfParameter = 239 ;
}
#Large scale snowfall
'Large scale snowfall' = {
#Time-mean large-scale snowfall rate
'Time-mean large-scale snowfall rate' = {
table2Version = 172 ;
indicatorOfParameter = 240 ;
}

54
definitions/grib1/localConcepts/ecmf/paramId.def
View File

@ -3799,12 +3799,12 @@
table2Version = 171 ;
indicatorOfParameter = 122 ;
}
#Mean surface runoff rate
#Time-mean surface runoff rate
'172008' = {
table2Version = 172 ;
indicatorOfParameter = 8 ;
}
#Mean sub-surface runoff rate
#Time-mean sub-surface runoff rate
'172009' = {
table2Version = 172 ;
indicatorOfParameter = 9 ;
@ -14919,17 +14919,17 @@
table2Version = 172 ;
indicatorOfParameter = 50 ;
}
#Mean large-scale precipitation rate
#Time-mean large-scale precipitation rate
'172142' = {
table2Version = 172 ;
indicatorOfParameter = 142 ;
}
#Mean convective precipitation rate
#Time-mean convective precipitation rate
'172143' = {
table2Version = 172 ;
indicatorOfParameter = 143 ;
}
#Mean total snowfall rate
#Time-mean total snowfall rate
'172144' = {
table2Version = 172 ;
indicatorOfParameter = 144 ;
@ -14939,67 +14939,67 @@
table2Version = 172 ;
indicatorOfParameter = 145 ;
}
#Mean surface sensible heat flux
#Time-mean surface sensible heat flux
'172146' = {
table2Version = 172 ;
indicatorOfParameter = 146 ;
}
#Mean surface latent heat flux
#Time-mean surface latent heat flux
'172147' = {
table2Version = 172 ;
indicatorOfParameter = 147 ;
}
#Mean short-wave heating rate
#Time-mean short-wave (solar) heating rate
'172153' = {
table2Version = 172 ;
indicatorOfParameter = 153 ;
}
#Mean long-wave heating rate
#Time-mean long-wave (thermal) heating rate
'172154' = {
table2Version = 172 ;
indicatorOfParameter = 154 ;
}
#Mean surface downward solar radiation flux
#Time-mean surface downward short-wave (solar) radiation flux
'172169' = {
table2Version = 172 ;
indicatorOfParameter = 169 ;
}
#Mean surface downward thermal radiation flux
#Time-mean surface downward long-wave (thermal) radiation flux
'172175' = {
table2Version = 172 ;
indicatorOfParameter = 175 ;
}
#Mean surface net solar radiation flux
#Time-mean surface net short-wave (solar) radiation flux
'172176' = {
table2Version = 172 ;
indicatorOfParameter = 176 ;
}
#Mean surface net thermal radiation flux
#Time-mean surface net long-wave (thermal) radiation flux
'172177' = {
table2Version = 172 ;
indicatorOfParameter = 177 ;
}
#Mean top net solar radiation flux
#Time-mean top net short-wave (solar) radiation flux
'172178' = {
table2Version = 172 ;
indicatorOfParameter = 178 ;
}
#Mean top net thermal radiation flux
#Time-mean top net long-wave (thermal) radiation flux
'172179' = {
table2Version = 172 ;
indicatorOfParameter = 179 ;
}
#East-West surface stress rate of accumulation
#Time-mean eastward turbulent surface stress
'172180' = {
table2Version = 172 ;
indicatorOfParameter = 180 ;
}
#North-South surface stress rate of accumulation
#Time-mean northward turbulent surface stress
'172181' = {
table2Version = 172 ;
indicatorOfParameter = 181 ;
}
#Evaporation
#Time-mean evaporation rate
'172182' = {
table2Version = 172 ;
indicatorOfParameter = 182 ;
@ -15024,47 +15024,47 @@
table2Version = 172 ;
indicatorOfParameter = 197 ;
}
#Mean runoff rate
#Time-mean runoff rate
'172205' = {
table2Version = 172 ;
indicatorOfParameter = 205 ;
}
#Top net solar radiation, clear sky
#Time-mean top net short-wave (solar) radiation flux, clear sky
'172208' = {
table2Version = 172 ;
indicatorOfParameter = 208 ;
}
#Top net thermal radiation, clear sky
#Time-mean top net long-wave (thermal) radiation flux, clear sky
'172209' = {
table2Version = 172 ;
indicatorOfParameter = 209 ;
}
#Surface net solar radiation, clear sky
#Time-mean surface net short-wave (solar) radiation flux, clear sky
'172210' = {
table2Version = 172 ;
indicatorOfParameter = 210 ;
}
#Surface net thermal radiation, clear sky
#Time-mean surface net long-wave (thermal) radiation flux, clear sky
'172211' = {
table2Version = 172 ;
indicatorOfParameter = 211 ;
}
#Solar insolation rate of accumulation
#Time-mean short-wave (solar) insolation rate
'172212' = {
table2Version = 172 ;
indicatorOfParameter = 212 ;
}
#Mean total precipitation rate
#Time-mean total precipitation rate
'172228' = {
table2Version = 172 ;
indicatorOfParameter = 228 ;
}
#Convective snowfall
#Time-mean convective snowfall rate
'172239' = {
table2Version = 172 ;
indicatorOfParameter = 239 ;
}
#Large scale snowfall
#Time-mean large-scale snowfall rate
'172240' = {
table2Version = 172 ;
indicatorOfParameter = 240 ;

56
definitions/grib1/localConcepts/ecmf/shortName.def
View File

@ -3799,12 +3799,12 @@
table2Version = 171 ;
indicatorOfParameter = 122 ;
}
#Mean surface runoff rate
#Time-mean surface runoff rate
'msror' = {
table2Version = 172 ;
indicatorOfParameter = 8 ;
}
#Mean sub-surface runoff rate
#Time-mean sub-surface runoff rate
'mssror' = {
table2Version = 172 ;
indicatorOfParameter = 9 ;
@ -6230,7 +6230,7 @@
indicatorOfParameter = 221 ;
}
#Cosine of solar zenith angle
'uvcossza' = {
'cossza' = {
table2Version = 214 ;
indicatorOfParameter = 1 ;
}
@ -14919,17 +14919,17 @@
table2Version = 172 ;
indicatorOfParameter = 50 ;
}
#Mean large-scale precipitation rate
#Time-mean large-scale precipitation rate
'mlsprt' = {
table2Version = 172 ;
indicatorOfParameter = 142 ;
}
#Mean convective precipitation rate
#Time-mean convective precipitation rate
'cprate' = {
table2Version = 172 ;
indicatorOfParameter = 143 ;
}
#Mean total snowfall rate
#Time-mean total snowfall rate
'mtsfr' = {
table2Version = 172 ;
indicatorOfParameter = 144 ;
@ -14939,67 +14939,67 @@
table2Version = 172 ;
indicatorOfParameter = 145 ;
}
#Mean surface sensible heat flux
#Time-mean surface sensible heat flux
'msshfl' = {
table2Version = 172 ;
indicatorOfParameter = 146 ;
}
#Mean surface latent heat flux
#Time-mean surface latent heat flux
'mslhfl' = {
table2Version = 172 ;
indicatorOfParameter = 147 ;
}
#Mean short-wave heating rate
#Time-mean short-wave (solar) heating rate
'mswhr' = {
table2Version = 172 ;
indicatorOfParameter = 153 ;
}
#Mean long-wave heating rate
#Time-mean long-wave (thermal) heating rate
'mlwhr' = {
table2Version = 172 ;
indicatorOfParameter = 154 ;
}
#Mean surface downward solar radiation flux
#Time-mean surface downward short-wave (solar) radiation flux
'msdsrf' = {
table2Version = 172 ;
indicatorOfParameter = 169 ;
}
#Mean surface downward thermal radiation flux
#Time-mean surface downward long-wave (thermal) radiation flux
'msdtrf' = {
table2Version = 172 ;
indicatorOfParameter = 175 ;
}
#Mean surface net solar radiation flux
#Time-mean surface net short-wave (solar) radiation flux
'msnsrf' = {
table2Version = 172 ;
indicatorOfParameter = 176 ;
}
#Mean surface net thermal radiation flux
#Time-mean surface net long-wave (thermal) radiation flux
'msntrf' = {
table2Version = 172 ;
indicatorOfParameter = 177 ;
}
#Mean top net solar radiation flux
#Time-mean top net short-wave (solar) radiation flux
'mtnsrf' = {
table2Version = 172 ;
indicatorOfParameter = 178 ;
}
#Mean top net thermal radiation flux
#Time-mean top net long-wave (thermal) radiation flux
'mtntrf' = {
table2Version = 172 ;
indicatorOfParameter = 179 ;
}
#East-West surface stress rate of accumulation
#Time-mean eastward turbulent surface stress
'ewssra' = {
table2Version = 172 ;
indicatorOfParameter = 180 ;
}
#North-South surface stress rate of accumulation
#Time-mean northward turbulent surface stress
'nsssra' = {
table2Version = 172 ;
indicatorOfParameter = 181 ;
}
#Evaporation
#Time-mean evaporation rate
'erate' = {
table2Version = 172 ;
indicatorOfParameter = 182 ;
@ -15024,47 +15024,47 @@
table2Version = 172 ;
indicatorOfParameter = 197 ;
}
#Mean runoff rate
#Time-mean runoff rate
'mrort' = {
table2Version = 172 ;
indicatorOfParameter = 205 ;
}
#Top net solar radiation, clear sky
#Time-mean top net short-wave (solar) radiation flux, clear sky
'~' = {
table2Version = 172 ;
indicatorOfParameter = 208 ;
}
#Top net thermal radiation, clear sky
#Time-mean top net long-wave (thermal) radiation flux, clear sky
'~' = {
table2Version = 172 ;
indicatorOfParameter = 209 ;
}
#Surface net solar radiation, clear sky
#Time-mean surface net short-wave (solar) radiation flux, clear sky
'~' = {
table2Version = 172 ;
indicatorOfParameter = 210 ;
}
#Surface net thermal radiation, clear sky
#Time-mean surface net long-wave (thermal) radiation flux, clear sky
'~' = {
table2Version = 172 ;
indicatorOfParameter = 211 ;
}
#Solar insolation rate of accumulation
#Time-mean short-wave (solar) insolation rate
'soira' = {
table2Version = 172 ;
indicatorOfParameter = 212 ;
}
#Mean total precipitation rate
#Time-mean total precipitation rate
'tprate' = {
table2Version = 172 ;
indicatorOfParameter = 228 ;
}
#Convective snowfall
#Time-mean convective snowfall rate
'~' = {
table2Version = 172 ;
indicatorOfParameter = 239 ;
}
#Large scale snowfall
#Time-mean large-scale snowfall rate
'~' = {
table2Version = 172 ;
indicatorOfParameter = 240 ;

56
definitions/grib1/localConcepts/ecmf/units.def
View File

@ -3799,12 +3799,12 @@
table2Version = 171 ;
indicatorOfParameter = 122 ;
}
#Mean surface runoff rate
#Time-mean surface runoff rate
'm s**-1' = {
table2Version = 172 ;
indicatorOfParameter = 8 ;
}
#Mean sub-surface runoff rate
#Time-mean sub-surface runoff rate
'm s**-1' = {
table2Version = 172 ;
indicatorOfParameter = 9 ;
@ -6230,7 +6230,7 @@
indicatorOfParameter = 221 ;
}
#Cosine of solar zenith angle
'~' = {
'Numeric' = {
table2Version = 214 ;
indicatorOfParameter = 1 ;
}
@ -14919,17 +14919,17 @@
table2Version = 172 ;
indicatorOfParameter = 50 ;
}
#Mean large-scale precipitation rate
#Time-mean large-scale precipitation rate
'm s**-1' = {
table2Version = 172 ;
indicatorOfParameter = 142 ;
}
#Mean convective precipitation rate
#Time-mean convective precipitation rate
'm s**-1' = {
table2Version = 172 ;
indicatorOfParameter = 143 ;
}
#Mean total snowfall rate
#Time-mean total snowfall rate
'm of water equivalent s**-1' = {
table2Version = 172 ;
indicatorOfParameter = 144 ;
@ -14939,67 +14939,67 @@
table2Version = 172 ;
indicatorOfParameter = 145 ;
}
#Mean surface sensible heat flux
#Time-mean surface sensible heat flux
'W m**-2' = {
table2Version = 172 ;
indicatorOfParameter = 146 ;
}
#Mean surface latent heat flux
#Time-mean surface latent heat flux
'W m**-2' = {
table2Version = 172 ;
indicatorOfParameter = 147 ;
}
#Mean short-wave heating rate
#Time-mean short-wave (solar) heating rate
'K s**-1' = {
table2Version = 172 ;
indicatorOfParameter = 153 ;
}
#Mean long-wave heating rate
#Time-mean long-wave (thermal) heating rate
'K s**-1' = {
table2Version = 172 ;
indicatorOfParameter = 154 ;
}
#Mean surface downward solar radiation flux
#Time-mean surface downward short-wave (solar) radiation flux
'W m**-2' = {
table2Version = 172 ;
indicatorOfParameter = 169 ;
}
#Mean surface downward thermal radiation flux
#Time-mean surface downward long-wave (thermal) radiation flux
'W m**-2' = {
table2Version = 172 ;
indicatorOfParameter = 175 ;
}
#Mean surface net solar radiation flux
#Time-mean surface net short-wave (solar) radiation flux
'W m**-2' = {
table2Version = 172 ;
indicatorOfParameter = 176 ;
}
#Mean surface net thermal radiation flux
#Time-mean surface net long-wave (thermal) radiation flux
'W m**-2' = {
table2Version = 172 ;
indicatorOfParameter = 177 ;
}
#Mean top net solar radiation flux
#Time-mean top net short-wave (solar) radiation flux
'W m**-2' = {
table2Version = 172 ;
indicatorOfParameter = 178 ;
}
#Mean top net thermal radiation flux
#Time-mean top net long-wave (thermal) radiation flux
'W m**-2' = {
table2Version = 172 ;
indicatorOfParameter = 179 ;
}
#East-West surface stress rate of accumulation
#Time-mean eastward turbulent surface stress
'N m**-2' = {
table2Version = 172 ;
indicatorOfParameter = 180 ;
}
#North-South surface stress rate of accumulation
#Time-mean northward turbulent surface stress
'N m**-2' = {
table2Version = 172 ;
indicatorOfParameter = 181 ;
}
#Evaporation
#Time-mean evaporation rate
'm of water equivalent s**-1' = {
table2Version = 172 ;
indicatorOfParameter = 182 ;
@ -15024,47 +15024,47 @@
table2Version = 172 ;
indicatorOfParameter = 197 ;
}
#Mean runoff rate
#Time-mean runoff rate
'm s**-1' = {
table2Version = 172 ;
indicatorOfParameter = 205 ;
}
#Top net solar radiation, clear sky
#Time-mean top net short-wave (solar) radiation flux, clear sky
'W m**-2' = {
table2Version = 172 ;
indicatorOfParameter = 208 ;
}
#Top net thermal radiation, clear sky
#Time-mean top net long-wave (thermal) radiation flux, clear sky
'W m**-2' = {
table2Version = 172 ;
indicatorOfParameter = 209 ;
}
#Surface net solar radiation, clear sky
#Time-mean surface net short-wave (solar) radiation flux, clear sky
'W m**-2' = {
table2Version = 172 ;
indicatorOfParameter = 210 ;
}
#Surface net thermal radiation, clear sky
#Time-mean surface net long-wave (thermal) radiation flux, clear sky
'W m**-2' = {
table2Version = 172 ;
indicatorOfParameter = 211 ;
}
#Solar insolation rate of accumulation
#Time-mean short-wave (solar) insolation rate
'W m**-2' = {
table2Version = 172 ;
indicatorOfParameter = 212 ;
}
#Mean total precipitation rate
#Time-mean total precipitation rate
'm s**-1' = {
table2Version = 172 ;
indicatorOfParameter = 228 ;
}
#Convective snowfall
#Time-mean convective snowfall rate
'm of water equivalent s**-1' = {
table2Version = 172 ;
indicatorOfParameter = 239 ;
}
#Large scale snowfall
#Time-mean large-scale snowfall rate
'm of water equivalent s**-1' = {
table2Version = 172 ;
indicatorOfParameter = 240 ;

32
definitions/grib2/localConcepts/cerise/name.def
View File

@ -125,8 +125,8 @@
parameterCategory = 19 ;
parameterNumber = 193 ;
}
#Mean surface runoff rate
'Mean surface runoff rate' = {
#Time-mean surface runoff rate
'Time-mean surface runoff rate' = {
localTablesVersion = 1 ;
discipline = 2 ;
parameterCategory = 0 ;
@ -134,8 +134,8 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean sub-surface runoff rate
'Mean sub-surface runoff rate' = {
#Time-mean sub-surface runoff rate
'Time-mean sub-surface runoff rate' = {
localTablesVersion = 1 ;
discipline = 2 ;
parameterCategory = 0 ;
@ -206,8 +206,8 @@
parameterNumber = 193 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean large-scale precipitation rate
'Mean large-scale precipitation rate' = {
#Time-mean large-scale precipitation rate
'Time-mean large-scale precipitation rate' = {
localTablesVersion = 1 ;
discipline = 0 ;
parameterCategory = 1 ;
@ -215,8 +215,8 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean convective precipitation rate
'Mean convective precipitation rate' = {
#Time-mean convective precipitation rate
'Time-mean convective precipitation rate' = {
localTablesVersion = 1 ;
discipline = 0 ;
parameterCategory = 1 ;
@ -224,8 +224,8 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total snowfall rate
'Mean total snowfall rate' = {
#Time-mean total snowfall rate
'Time-mean total snowfall rate' = {
localTablesVersion = 1 ;
discipline = 0 ;
parameterCategory = 1 ;
@ -233,8 +233,8 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Evaporation
'Evaporation' = {
#Time-mean evaporation rate
'Time-mean evaporation rate' = {
localTablesVersion = 1 ;
discipline = 0 ;
parameterCategory = 1 ;
@ -242,8 +242,8 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean runoff rate
'Mean runoff rate' = {
#Time-mean runoff rate
'Time-mean runoff rate' = {
localTablesVersion = 1 ;
discipline = 2 ;
parameterCategory = 0 ;
@ -251,8 +251,8 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total precipitation rate
'Mean total precipitation rate' = {
#Time-mean total precipitation rate
'Time-mean total precipitation rate' = {
localTablesVersion = 1 ;
discipline = 0 ;
parameterCategory = 1 ;

16
definitions/grib2/localConcepts/cerise/paramId.def
View File

@ -125,7 +125,7 @@
parameterCategory = 19 ;
parameterNumber = 193 ;
}
#Mean surface runoff rate
#Time-mean surface runoff rate
'172008' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -134,7 +134,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean sub-surface runoff rate
#Time-mean sub-surface runoff rate
'172009' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -206,7 +206,7 @@
parameterNumber = 193 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean large-scale precipitation rate
#Time-mean large-scale precipitation rate
'172142' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -215,7 +215,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean convective precipitation rate
#Time-mean convective precipitation rate
'172143' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -224,7 +224,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total snowfall rate
#Time-mean total snowfall rate
'172144' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -233,7 +233,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Evaporation
#Time-mean evaporation rate
'172182' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -242,7 +242,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean runoff rate
#Time-mean runoff rate
'172205' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -251,7 +251,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total precipitation rate
#Time-mean total precipitation rate
'172228' = {
localTablesVersion = 1 ;
discipline = 0 ;

16
definitions/grib2/localConcepts/cerise/shortName.def
View File

@ -125,7 +125,7 @@
parameterCategory = 19 ;
parameterNumber = 193 ;
}
#Mean surface runoff rate
#Time-mean surface runoff rate
'msror' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -134,7 +134,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean sub-surface runoff rate
#Time-mean sub-surface runoff rate
'mssror' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -206,7 +206,7 @@
parameterNumber = 193 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean large-scale precipitation rate
#Time-mean large-scale precipitation rate
'mlsprt' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -215,7 +215,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean convective precipitation rate
#Time-mean convective precipitation rate
'cprate' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -224,7 +224,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total snowfall rate
#Time-mean total snowfall rate
'mtsfr' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -233,7 +233,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Evaporation
#Time-mean evaporation rate
'erate' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -242,7 +242,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean runoff rate
#Time-mean runoff rate
'mrort' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -251,7 +251,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total precipitation rate
#Time-mean total precipitation rate
'tprate' = {
localTablesVersion = 1 ;
discipline = 0 ;

16
definitions/grib2/localConcepts/cerise/units.def
View File

@ -125,7 +125,7 @@
parameterCategory = 19 ;
parameterNumber = 193 ;
}
#Mean surface runoff rate
#Time-mean surface runoff rate
'm s**-1' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -134,7 +134,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean sub-surface runoff rate
#Time-mean sub-surface runoff rate
'm s**-1' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -206,7 +206,7 @@
parameterNumber = 193 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean large-scale precipitation rate
#Time-mean large-scale precipitation rate
'm s**-1' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -215,7 +215,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean convective precipitation rate
#Time-mean convective precipitation rate
'm s**-1' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -224,7 +224,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total snowfall rate
#Time-mean total snowfall rate
'm of water equivalent s**-1' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -233,7 +233,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Evaporation
#Time-mean evaporation rate
'm of water equivalent s**-1' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -242,7 +242,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean runoff rate
#Time-mean runoff rate
'm s**-1' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -251,7 +251,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total precipitation rate
#Time-mean total precipitation rate
'm s**-1' = {
localTablesVersion = 1 ;
discipline = 0 ;

54
definitions/grib2/localConcepts/ecmf/name.def
View File

@ -2495,8 +2495,8 @@
parameterCategory = 171 ;
parameterNumber = 122 ;
}
#Mean surface runoff rate
'Mean surface runoff rate' = {
#Time-mean surface runoff rate
'Time-mean surface runoff rate' = {
localTablesVersion = 1 ;
discipline = 2 ;
parameterCategory = 0 ;
@ -2504,8 +2504,8 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean sub-surface runoff rate
'Mean sub-surface runoff rate' = {
#Time-mean sub-surface runoff rate
'Time-mean sub-surface runoff rate' = {
localTablesVersion = 1 ;
discipline = 2 ;
parameterCategory = 0 ;
@ -5291,12 +5291,6 @@
parameterCategory = 213 ;
parameterNumber = 221 ;
}
#Cosine of solar zenith angle
'Cosine of solar zenith angle' = {
discipline = 192 ;
parameterCategory = 214 ;
parameterNumber = 1 ;
}
#UV biologically effective dose
'UV biologically effective dose' = {
discipline = 192 ;
@ -18608,8 +18602,8 @@
parameterCategory = 172 ;
parameterNumber = 45 ;
}
#Mean large-scale precipitation rate
'Mean large-scale precipitation rate' = {
#Time-mean large-scale precipitation rate
'Time-mean large-scale precipitation rate' = {
localTablesVersion = 1 ;
discipline = 0 ;
parameterCategory = 1 ;
@ -18617,8 +18611,8 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean convective precipitation rate
'Mean convective precipitation rate' = {
#Time-mean convective precipitation rate
'Time-mean convective precipitation rate' = {
localTablesVersion = 1 ;
discipline = 0 ;
parameterCategory = 1 ;
@ -18626,8 +18620,8 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total snowfall rate
'Mean total snowfall rate' = {
#Time-mean total snowfall rate
'Time-mean total snowfall rate' = {
localTablesVersion = 1 ;
discipline = 0 ;
parameterCategory = 1 ;
@ -18635,20 +18629,20 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean short-wave heating rate
'Mean short-wave heating rate' = {
#Time-mean short-wave (solar) heating rate
'Time-mean short-wave (solar) heating rate' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 153 ;
}
#Mean long-wave heating rate
'Mean long-wave heating rate' = {
#Time-mean long-wave (thermal) heating rate
'Time-mean long-wave (thermal) heating rate' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 154 ;
}
#Evaporation
'Evaporation' = {
#Time-mean evaporation rate
'Time-mean evaporation rate' = {
localTablesVersion = 1 ;
discipline = 0 ;
parameterCategory = 1 ;
@ -18656,8 +18650,8 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean runoff rate
'Mean runoff rate' = {
#Time-mean runoff rate
'Time-mean runoff rate' = {
localTablesVersion = 1 ;
discipline = 2 ;
parameterCategory = 0 ;
@ -18665,8 +18659,8 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total precipitation rate
'Mean total precipitation rate' = {
#Time-mean total precipitation rate
'Time-mean total precipitation rate' = {
localTablesVersion = 1 ;
discipline = 0 ;
parameterCategory = 1 ;
@ -18674,14 +18668,14 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Convective snowfall
'Convective snowfall' = {
#Time-mean convective snowfall rate
'Time-mean convective snowfall rate' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 239 ;
}
#Large scale snowfall
'Large scale snowfall' = {
#Time-mean large-scale snowfall rate
'Time-mean large-scale snowfall rate' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 240 ;

90
definitions/grib2/localConcepts/ecmf/name.legacy.def
View File

@ -629,6 +629,12 @@
parameterCategory = 210 ;
parameterNumber = 197 ;
}
#Cosine of solar zenith angle
'Cosine of solar zenith angle' = {
discipline = 192 ;
parameterCategory = 214 ;
parameterNumber = 1 ;
}
#Ammonia mass mixing ratio
'Ammonia mass mixing ratio' = {
discipline = 192 ;
@ -1448,128 +1454,128 @@
parameterCategory = 162 ;
parameterNumber = 215 ;
}
#Mean large-scale precipitation rate
'Mean large-scale precipitation rate' = {
#Time-mean large-scale precipitation rate
'Time-mean large-scale precipitation rate' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 142 ;
}
#Mean convective precipitation rate
'Mean convective precipitation rate' = {
#Time-mean convective precipitation rate
'Time-mean convective precipitation rate' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 143 ;
}
#Mean total snowfall rate
'Mean total snowfall rate' = {
#Time-mean total snowfall rate
'Time-mean total snowfall rate' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 144 ;
}
#Mean surface sensible heat flux
'Mean surface sensible heat flux' = {
#Time-mean surface sensible heat flux
'Time-mean surface sensible heat flux' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 146 ;
}
#Mean surface latent heat flux
'Mean surface latent heat flux' = {
#Time-mean surface latent heat flux
'Time-mean surface latent heat flux' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 147 ;
}
#Mean surface downward solar radiation flux
'Mean surface downward solar radiation flux' = {
#Time-mean surface downward short-wave (solar) radiation flux
'Time-mean surface downward short-wave (solar) radiation flux' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 169 ;
}
#Mean surface downward thermal radiation flux
'Mean surface downward thermal radiation flux' = {
#Time-mean surface downward long-wave (thermal) radiation flux
'Time-mean surface downward long-wave (thermal) radiation flux' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 175 ;
}
#Mean surface net solar radiation flux
'Mean surface net solar radiation flux' = {
#Time-mean surface net short-wave (solar) radiation flux
'Time-mean surface net short-wave (solar) radiation flux' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 176 ;
}
#Mean surface net thermal radiation flux
'Mean surface net thermal radiation flux' = {
#Time-mean surface net long-wave (thermal) radiation flux
'Time-mean surface net long-wave (thermal) radiation flux' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 177 ;
}
#Mean top net solar radiation flux
'Mean top net solar radiation flux' = {
#Time-mean top net short-wave (solar) radiation flux
'Time-mean top net short-wave (solar) radiation flux' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 178 ;
}
#Mean top net thermal radiation flux
'Mean top net thermal radiation flux' = {
#Time-mean top net long-wave (thermal) radiation flux
'Time-mean top net long-wave (thermal) radiation flux' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 179 ;
}
#East-West surface stress rate of accumulation
'East-West surface stress rate of accumulation' = {
#Time-mean eastward turbulent surface stress
'Time-mean eastward turbulent surface stress' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 180 ;
}
#North-South surface stress rate of accumulation
'North-South surface stress rate of accumulation' = {
#Time-mean northward turbulent surface stress
'Time-mean northward turbulent surface stress' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 181 ;
}
#Evaporation
'Evaporation' = {
#Time-mean evaporation rate
'Time-mean evaporation rate' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 182 ;
}
#Mean runoff rate
'Mean runoff rate' = {
#Time-mean runoff rate
'Time-mean runoff rate' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 205 ;
}
#Top net solar radiation, clear sky
'Top net solar radiation, clear sky' = {
#Time-mean top net short-wave (solar) radiation flux, clear sky
'Time-mean top net short-wave (solar) radiation flux, clear sky' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 208 ;
}
#Top net thermal radiation, clear sky
'Top net thermal radiation, clear sky' = {
#Time-mean top net long-wave (thermal) radiation flux, clear sky
'Time-mean top net long-wave (thermal) radiation flux, clear sky' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 209 ;
}
#Surface net solar radiation, clear sky
'Surface net solar radiation, clear sky' = {
#Time-mean surface net short-wave (solar) radiation flux, clear sky
'Time-mean surface net short-wave (solar) radiation flux, clear sky' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 210 ;
}
#Surface net thermal radiation, clear sky
'Surface net thermal radiation, clear sky' = {
#Time-mean surface net long-wave (thermal) radiation flux, clear sky
'Time-mean surface net long-wave (thermal) radiation flux, clear sky' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 211 ;
}
#Solar insolation rate of accumulation
'Solar insolation rate of accumulation' = {
#Time-mean short-wave (solar) insolation rate
'Time-mean short-wave (solar) insolation rate' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 212 ;
}
#Mean total precipitation rate
'Mean total precipitation rate' = {
#Time-mean total precipitation rate
'Time-mean total precipitation rate' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 228 ;

30
definitions/grib2/localConcepts/ecmf/paramId.def
View File

@ -2495,7 +2495,7 @@
parameterCategory = 171 ;
parameterNumber = 122 ;
}
#Mean surface runoff rate
#Time-mean surface runoff rate
'172008' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -2504,7 +2504,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean sub-surface runoff rate
#Time-mean sub-surface runoff rate
'172009' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -5291,12 +5291,6 @@
parameterCategory = 213 ;
parameterNumber = 221 ;
}
#Cosine of solar zenith angle
'214001' = {
discipline = 192 ;
parameterCategory = 214 ;
parameterNumber = 1 ;
}
#UV biologically effective dose
'214002' = {
discipline = 192 ;
@ -18608,7 +18602,7 @@
parameterCategory = 172 ;
parameterNumber = 45 ;
}
#Mean large-scale precipitation rate
#Time-mean large-scale precipitation rate
'172142' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -18617,7 +18611,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean convective precipitation rate
#Time-mean convective precipitation rate
'172143' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -18626,7 +18620,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total snowfall rate
#Time-mean total snowfall rate
'172144' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -18635,19 +18629,19 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean short-wave heating rate
#Time-mean short-wave (solar) heating rate
'172153' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 153 ;
}
#Mean long-wave heating rate
#Time-mean long-wave (thermal) heating rate
'172154' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 154 ;
}
#Evaporation
#Time-mean evaporation rate
'172182' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -18656,7 +18650,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean runoff rate
#Time-mean runoff rate
'172205' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -18665,7 +18659,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total precipitation rate
#Time-mean total precipitation rate
'172228' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -18674,13 +18668,13 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Convective snowfall
#Time-mean convective snowfall rate
'172239' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 239 ;
}
#Large scale snowfall
#Time-mean large-scale snowfall rate
'172240' = {
discipline = 192 ;
parameterCategory = 172 ;

48
definitions/grib2/localConcepts/ecmf/paramId.legacy.def
View File

@ -629,6 +629,12 @@
parameterCategory = 210 ;
parameterNumber = 197 ;
}
#Cosine of solar zenith angle
'214001' = {
discipline = 192 ;
parameterCategory = 214 ;
parameterNumber = 1 ;
}
#Ammonia mass mixing ratio
'217019' = {
discipline = 192 ;
@ -1448,127 +1454,127 @@
parameterCategory = 162 ;
parameterNumber = 215 ;
}
#Mean large-scale precipitation rate
#Time-mean large-scale precipitation rate
'172142' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 142 ;
}
#Mean convective precipitation rate
#Time-mean convective precipitation rate
'172143' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 143 ;
}
#Mean total snowfall rate
#Time-mean total snowfall rate
'172144' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 144 ;
}
#Mean surface sensible heat flux
#Time-mean surface sensible heat flux
'172146' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 146 ;
}
#Mean surface latent heat flux
#Time-mean surface latent heat flux
'172147' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 147 ;
}
#Mean surface downward solar radiation flux
#Time-mean surface downward short-wave (solar) radiation flux
'172169' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 169 ;
}
#Mean surface downward thermal radiation flux
#Time-mean surface downward long-wave (thermal) radiation flux
'172175' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 175 ;
}
#Mean surface net solar radiation flux
#Time-mean surface net short-wave (solar) radiation flux
'172176' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 176 ;
}
#Mean surface net thermal radiation flux
#Time-mean surface net long-wave (thermal) radiation flux
'172177' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 177 ;
}
#Mean top net solar radiation flux
#Time-mean top net short-wave (solar) radiation flux
'172178' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 178 ;
}
#Mean top net thermal radiation flux
#Time-mean top net long-wave (thermal) radiation flux
'172179' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 179 ;
}
#East-West surface stress rate of accumulation
#Time-mean eastward turbulent surface stress
'172180' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 180 ;
}
#North-South surface stress rate of accumulation
#Time-mean northward turbulent surface stress
'172181' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 181 ;
}
#Evaporation
#Time-mean evaporation rate
'172182' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 182 ;
}
#Mean runoff rate
#Time-mean runoff rate
'172205' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 205 ;
}
#Top net solar radiation, clear sky
#Time-mean top net short-wave (solar) radiation flux, clear sky
'172208' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 208 ;
}
#Top net thermal radiation, clear sky
#Time-mean top net long-wave (thermal) radiation flux, clear sky
'172209' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 209 ;
}
#Surface net solar radiation, clear sky
#Time-mean surface net short-wave (solar) radiation flux, clear sky
'172210' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 210 ;
}
#Surface net thermal radiation, clear sky
#Time-mean surface net long-wave (thermal) radiation flux, clear sky
'172211' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 211 ;
}
#Solar insolation rate of accumulation
#Time-mean short-wave (solar) insolation rate
'172212' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 212 ;
}
#Mean total precipitation rate
#Time-mean total precipitation rate
'172228' = {
discipline = 192 ;
parameterCategory = 172 ;

30
definitions/grib2/localConcepts/ecmf/shortName.def
View File

@ -2495,7 +2495,7 @@
parameterCategory = 171 ;
parameterNumber = 122 ;
}
#Mean surface runoff rate
#Time-mean surface runoff rate
'msror' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -2504,7 +2504,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean sub-surface runoff rate
#Time-mean sub-surface runoff rate
'mssror' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -5291,12 +5291,6 @@
parameterCategory = 213 ;
parameterNumber = 221 ;
}
#Cosine of solar zenith angle
'uvcossza' = {
discipline = 192 ;
parameterCategory = 214 ;
parameterNumber = 1 ;
}
#UV biologically effective dose
'uvbed' = {
discipline = 192 ;
@ -18608,7 +18602,7 @@
parameterCategory = 172 ;
parameterNumber = 45 ;
}
#Mean large-scale precipitation rate
#Time-mean large-scale precipitation rate
'mlsprt' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -18617,7 +18611,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean convective precipitation rate
#Time-mean convective precipitation rate
'cprate' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -18626,7 +18620,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total snowfall rate
#Time-mean total snowfall rate
'mtsfr' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -18635,19 +18629,19 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean short-wave heating rate
#Time-mean short-wave (solar) heating rate
'mswhr' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 153 ;
}
#Mean long-wave heating rate
#Time-mean long-wave (thermal) heating rate
'mlwhr' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 154 ;
}
#Evaporation
#Time-mean evaporation rate
'erate' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -18656,7 +18650,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean runoff rate
#Time-mean runoff rate
'mrort' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -18665,7 +18659,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total precipitation rate
#Time-mean total precipitation rate
'tprate' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -18674,13 +18668,13 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Convective snowfall
#Time-mean convective snowfall rate
'~' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 239 ;
}
#Large scale snowfall
#Time-mean large-scale snowfall rate
'~' = {
discipline = 192 ;
parameterCategory = 172 ;

48
definitions/grib2/localConcepts/ecmf/shortName.legacy.def
View File

@ -629,6 +629,12 @@
parameterCategory = 210 ;
parameterNumber = 197 ;
}
#Cosine of solar zenith angle
'cossza' = {
discipline = 192 ;
parameterCategory = 214 ;
parameterNumber = 1 ;
}
#Ammonia mass mixing ratio
'nh3' = {
discipline = 192 ;
@ -1448,127 +1454,127 @@
parameterCategory = 162 ;
parameterNumber = 215 ;
}
#Mean large-scale precipitation rate
#Time-mean large-scale precipitation rate
'mlsprt' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 142 ;
}
#Mean convective precipitation rate
#Time-mean convective precipitation rate
'cprate' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 143 ;
}
#Mean total snowfall rate
#Time-mean total snowfall rate
'mtsfr' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 144 ;
}
#Mean surface sensible heat flux
#Time-mean surface sensible heat flux
'msshfl' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 146 ;
}
#Mean surface latent heat flux
#Time-mean surface latent heat flux
'mslhfl' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 147 ;
}
#Mean surface downward solar radiation flux
#Time-mean surface downward short-wave (solar) radiation flux
'msdsrf' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 169 ;
}
#Mean surface downward thermal radiation flux
#Time-mean surface downward long-wave (thermal) radiation flux
'msdtrf' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 175 ;
}
#Mean surface net solar radiation flux
#Time-mean surface net short-wave (solar) radiation flux
'msnsrf' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 176 ;
}
#Mean surface net thermal radiation flux
#Time-mean surface net long-wave (thermal) radiation flux
'msntrf' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 177 ;
}
#Mean top net solar radiation flux
#Time-mean top net short-wave (solar) radiation flux
'mtnsrf' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 178 ;
}
#Mean top net thermal radiation flux
#Time-mean top net long-wave (thermal) radiation flux
'mtntrf' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 179 ;
}
#East-West surface stress rate of accumulation
#Time-mean eastward turbulent surface stress
'ewssra' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 180 ;
}
#North-South surface stress rate of accumulation
#Time-mean northward turbulent surface stress
'nsssra' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 181 ;
}
#Evaporation
#Time-mean evaporation rate
'erate' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 182 ;
}
#Mean runoff rate
#Time-mean runoff rate
'mrort' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 205 ;
}
#Top net solar radiation, clear sky
#Time-mean top net short-wave (solar) radiation flux, clear sky
'~' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 208 ;
}
#Top net thermal radiation, clear sky
#Time-mean top net long-wave (thermal) radiation flux, clear sky
'~' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 209 ;
}
#Surface net solar radiation, clear sky
#Time-mean surface net short-wave (solar) radiation flux, clear sky
'~' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 210 ;
}
#Surface net thermal radiation, clear sky
#Time-mean surface net long-wave (thermal) radiation flux, clear sky
'~' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 211 ;
}
#Solar insolation rate of accumulation
#Time-mean short-wave (solar) insolation rate
'soira' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 212 ;
}
#Mean total precipitation rate
#Time-mean total precipitation rate
'tprate' = {
discipline = 192 ;
parameterCategory = 172 ;

30
definitions/grib2/localConcepts/ecmf/units.def
View File

@ -2495,7 +2495,7 @@
parameterCategory = 171 ;
parameterNumber = 122 ;
}
#Mean surface runoff rate
#Time-mean surface runoff rate
'm s**-1' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -2504,7 +2504,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean sub-surface runoff rate
#Time-mean sub-surface runoff rate
'm s**-1' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -5291,12 +5291,6 @@
parameterCategory = 213 ;
parameterNumber = 221 ;
}
#Cosine of solar zenith angle
'~' = {
discipline = 192 ;
parameterCategory = 214 ;
parameterNumber = 1 ;
}
#UV biologically effective dose
'~' = {
discipline = 192 ;
@ -18608,7 +18602,7 @@
parameterCategory = 172 ;
parameterNumber = 45 ;
}
#Mean large-scale precipitation rate
#Time-mean large-scale precipitation rate
'm s**-1' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -18617,7 +18611,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean convective precipitation rate
#Time-mean convective precipitation rate
'm s**-1' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -18626,7 +18620,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total snowfall rate
#Time-mean total snowfall rate
'm of water equivalent s**-1' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -18635,19 +18629,19 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean short-wave heating rate
#Time-mean short-wave (solar) heating rate
'K s**-1' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 153 ;
}
#Mean long-wave heating rate
#Time-mean long-wave (thermal) heating rate
'K s**-1' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 154 ;
}
#Evaporation
#Time-mean evaporation rate
'm of water equivalent s**-1' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -18656,7 +18650,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean runoff rate
#Time-mean runoff rate
'm s**-1' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -18665,7 +18659,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total precipitation rate
#Time-mean total precipitation rate
'm s**-1' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -18674,13 +18668,13 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Convective snowfall
#Time-mean convective snowfall rate
'm of water equivalent s**-1' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 239 ;
}
#Large scale snowfall
#Time-mean large-scale snowfall rate
'm of water equivalent s**-1' = {
discipline = 192 ;
parameterCategory = 172 ;

48
definitions/grib2/localConcepts/ecmf/units.legacy.def
View File

@ -629,6 +629,12 @@
parameterCategory = 210 ;
parameterNumber = 197 ;
}
#Cosine of solar zenith angle
'Numeric' = {
discipline = 192 ;
parameterCategory = 214 ;
parameterNumber = 1 ;
}
#Ammonia mass mixing ratio
'kg kg**-1' = {
discipline = 192 ;
@ -1448,127 +1454,127 @@
parameterCategory = 162 ;
parameterNumber = 215 ;
}
#Mean large-scale precipitation rate
#Time-mean large-scale precipitation rate
'm s**-1' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 142 ;
}
#Mean convective precipitation rate
#Time-mean convective precipitation rate
'm s**-1' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 143 ;
}
#Mean total snowfall rate
#Time-mean total snowfall rate
'm of water equivalent s**-1' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 144 ;
}
#Mean surface sensible heat flux
#Time-mean surface sensible heat flux
'W m**-2' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 146 ;
}
#Mean surface latent heat flux
#Time-mean surface latent heat flux
'W m**-2' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 147 ;
}
#Mean surface downward solar radiation flux
#Time-mean surface downward short-wave (solar) radiation flux
'W m**-2' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 169 ;
}
#Mean surface downward thermal radiation flux
#Time-mean surface downward long-wave (thermal) radiation flux
'W m**-2' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 175 ;
}
#Mean surface net solar radiation flux
#Time-mean surface net short-wave (solar) radiation flux
'W m**-2' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 176 ;
}
#Mean surface net thermal radiation flux
#Time-mean surface net long-wave (thermal) radiation flux
'W m**-2' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 177 ;
}
#Mean top net solar radiation flux
#Time-mean top net short-wave (solar) radiation flux
'W m**-2' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 178 ;
}
#Mean top net thermal radiation flux
#Time-mean top net long-wave (thermal) radiation flux
'W m**-2' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 179 ;
}
#East-West surface stress rate of accumulation
#Time-mean eastward turbulent surface stress
'N m**-2' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 180 ;
}
#North-South surface stress rate of accumulation
#Time-mean northward turbulent surface stress
'N m**-2' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 181 ;
}
#Evaporation
#Time-mean evaporation rate
'm of water equivalent s**-1' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 182 ;
}
#Mean runoff rate
#Time-mean runoff rate
'm s**-1' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 205 ;
}
#Top net solar radiation, clear sky
#Time-mean top net short-wave (solar) radiation flux, clear sky
'W m**-2' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 208 ;
}
#Top net thermal radiation, clear sky
#Time-mean top net long-wave (thermal) radiation flux, clear sky
'W m**-2' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 209 ;
}
#Surface net solar radiation, clear sky
#Time-mean surface net short-wave (solar) radiation flux, clear sky
'W m**-2' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 210 ;
}
#Surface net thermal radiation, clear sky
#Time-mean surface net long-wave (thermal) radiation flux, clear sky
'W m**-2' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 211 ;
}
#Solar insolation rate of accumulation
#Time-mean short-wave (solar) insolation rate
'W m**-2' = {
discipline = 192 ;
parameterCategory = 172 ;
parameterNumber = 212 ;
}
#Mean total precipitation rate
#Time-mean total precipitation rate
'm s**-1' = {
discipline = 192 ;
parameterCategory = 172 ;

20
definitions/grib2/localConcepts/nextgems/name.def
View File

@ -136,8 +136,8 @@
typeOfSecondFixedSurface = 255 ;
typeOfStatisticalProcessing = 1 ;
}
#Mean surface runoff rate
'Mean surface runoff rate' = {
#Time-mean surface runoff rate
'Time-mean surface runoff rate' = {
localTablesVersion = 1 ;
discipline = 2 ;
parameterCategory = 0 ;
@ -145,8 +145,8 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean sub-surface runoff rate
'Mean sub-surface runoff rate' = {
#Time-mean sub-surface runoff rate
'Time-mean sub-surface runoff rate' = {
localTablesVersion = 1 ;
discipline = 2 ;
parameterCategory = 0 ;
@ -273,8 +273,8 @@
scaleFactorOfSecondFixedSurface = missing() ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total snowfall rate
'Mean total snowfall rate' = {
#Time-mean total snowfall rate
'Time-mean total snowfall rate' = {
localTablesVersion = 1 ;
discipline = 0 ;
parameterCategory = 1 ;
@ -282,8 +282,8 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Evaporation
'Evaporation' = {
#Time-mean evaporation rate
'Time-mean evaporation rate' = {
localTablesVersion = 1 ;
discipline = 0 ;
parameterCategory = 1 ;
@ -291,8 +291,8 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total precipitation rate
'Mean total precipitation rate' = {
#Time-mean total precipitation rate
'Time-mean total precipitation rate' = {
localTablesVersion = 1 ;
discipline = 0 ;
parameterCategory = 1 ;

10
definitions/grib2/localConcepts/nextgems/paramId.def
View File

@ -136,7 +136,7 @@
typeOfSecondFixedSurface = 255 ;
typeOfStatisticalProcessing = 1 ;
}
#Mean surface runoff rate
#Time-mean surface runoff rate
'172008' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -145,7 +145,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean sub-surface runoff rate
#Time-mean sub-surface runoff rate
'172009' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -273,7 +273,7 @@
scaleFactorOfSecondFixedSurface = missing() ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total snowfall rate
#Time-mean total snowfall rate
'172144' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -282,7 +282,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Evaporation
#Time-mean evaporation rate
'172182' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -291,7 +291,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total precipitation rate
#Time-mean total precipitation rate
'172228' = {
localTablesVersion = 1 ;
discipline = 0 ;

10
definitions/grib2/localConcepts/nextgems/shortName.def
View File

@ -136,7 +136,7 @@
typeOfSecondFixedSurface = 255 ;
typeOfStatisticalProcessing = 1 ;
}
#Mean surface runoff rate
#Time-mean surface runoff rate
'msror' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -145,7 +145,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean sub-surface runoff rate
#Time-mean sub-surface runoff rate
'mssror' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -273,7 +273,7 @@
scaleFactorOfSecondFixedSurface = missing() ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total snowfall rate
#Time-mean total snowfall rate
'mtsfr' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -282,7 +282,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Evaporation
#Time-mean evaporation rate
'erate' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -291,7 +291,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total precipitation rate
#Time-mean total precipitation rate
'tprate' = {
localTablesVersion = 1 ;
discipline = 0 ;

10
definitions/grib2/localConcepts/nextgems/units.def
View File

@ -136,7 +136,7 @@
typeOfSecondFixedSurface = 255 ;
typeOfStatisticalProcessing = 1 ;
}
#Mean surface runoff rate
#Time-mean surface runoff rate
'm s**-1' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -145,7 +145,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean sub-surface runoff rate
#Time-mean sub-surface runoff rate
'm s**-1' = {
localTablesVersion = 1 ;
discipline = 2 ;
@ -273,7 +273,7 @@
scaleFactorOfSecondFixedSurface = missing() ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total snowfall rate
#Time-mean total snowfall rate
'm of water equivalent s**-1' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -282,7 +282,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Evaporation
#Time-mean evaporation rate
'm of water equivalent s**-1' = {
localTablesVersion = 1 ;
discipline = 0 ;
@ -291,7 +291,7 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Mean total precipitation rate
#Time-mean total precipitation rate
'm s**-1' = {
localTablesVersion = 1 ;
discipline = 0 ;

267
definitions/grib2/name.def
View File

@ -896,6 +896,18 @@
scaleFactorOfLowerLimit = 0 ;
probabilityType = 3 ;
}
#10 metre convective gust of at least 25 m/s
'10 metre convective gust of at least 25 m/s' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
scaledValueOfLowerLimit = 25 ;
scaleFactorOfLowerLimit = 0 ;
probabilityType = 3 ;
}
#Probability of temperature standardized anomaly greater than 1 standard deviation
'Probability of temperature standardized anomaly greater than 1 standard deviation' = {
discipline = 0 ;
@ -3989,6 +4001,13 @@
typeOfGeneratingProcess = 20 ;
is_aerosol = 1 ;
}
#Cosine of solar zenith angle
'Cosine of solar zenith angle' = {
discipline = 3 ;
parameterCategory = 1 ;
parameterNumber = 24 ;
typeOfFirstFixedSurface = 1 ;
}
#Dry deposition of ammonium aerosol
'Dry deposition of ammonium aerosol' = {
discipline = 0 ;
@ -8262,6 +8281,14 @@
typeOfSecondFixedSurface = 255 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean cosine of solar zenith angle
'Time-mean cosine of solar zenith angle' = {
discipline = 3 ;
parameterCategory = 1 ;
parameterNumber = 24 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean freezing rain precipitation rate
'Time-mean freezing rain precipitation rate' = {
discipline = 0 ;
@ -8646,6 +8673,58 @@
typeOfSecondFixedSurface = 8 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean land surface heat net flux
'Time-mean land surface heat net flux' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean surface direct normal short-wave radiation flux, clear sky
'Time-mean surface direct normal short-wave radiation flux, clear sky' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean 10 metre convective gust
'Time-mean 10 metre convective gust' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean 10 metre turbulent gust
'Time-mean 10 metre turbulent gust' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 69 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-integrated land surface heat net flux
'Time-integrated land surface heat net flux' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 1 ;
}
#Time-integrated surface direct normal short-wave radiation flux, clear sky
'Time-integrated surface direct normal short-wave radiation flux, clear sky' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 1 ;
}
#Time-maximum temperature tendency due to short-wave radiation
'Time-maximum temperature tendency due to short-wave radiation' = {
discipline = 0 ;
@ -10087,6 +10166,14 @@
typeOfSecondFixedSurface = 255 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum cosine of solar zenith angle
'Time-maximum cosine of solar zenith angle' = {
discipline = 3 ;
parameterCategory = 1 ;
parameterNumber = 24 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum freezing rain precipitation rate
'Time-maximum freezing rain precipitation rate' = {
discipline = 0 ;
@ -10482,6 +10569,42 @@
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum land surface heat net flux
'Time-maximum land surface heat net flux' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum surface direct normal short-wave radiation flux, clear sky
'Time-maximum surface direct normal short-wave radiation flux, clear sky' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum 10 metre convective gust
'Time-maximum 10 metre convective gust' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum 10 metre turbulent gust
'Time-maximum 10 metre turbulent gust' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 69 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-minimum temperature tendency due to short-wave radiation
'Time-minimum temperature tendency due to short-wave radiation' = {
discipline = 0 ;
@ -11923,6 +12046,14 @@
typeOfSecondFixedSurface = 255 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum cosine of solar zenith angle
'Time-minimum cosine of solar zenith angle' = {
discipline = 3 ;
parameterCategory = 1 ;
parameterNumber = 24 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum freezing rain rate water equivalent
'Time-minimum freezing rain rate water equivalent' = {
discipline = 0 ;
@ -12298,6 +12429,42 @@
parameterNumber = 51 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum land surface heat net flux
'Time-minimum land surface heat net flux' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum surface direct normal short-wave radiation flux, clear sky
'Time-minimum surface direct normal short-wave radiation flux, clear sky' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum 10 metre convective gust
'Time-minimum 10 metre convective gust' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum 10 metre turbulent gust
'Time-minimum 10 metre turbulent gust' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 69 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-standard-deviation temperature tendency due to short-wave radiation
'Time-standard-deviation temperature tendency due to short-wave radiation' = {
discipline = 0 ;
@ -13729,6 +13896,14 @@
typeOfSecondFixedSurface = 255 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation cosine of solar zenith angle
'Time-standard-deviation cosine of solar zenith angle' = {
discipline = 3 ;
parameterCategory = 1 ;
parameterNumber = 24 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation freezing rain rate water equivalent
'Time-standard-deviation freezing rain rate water equivalent' = {
discipline = 0 ;
@ -14097,6 +14272,42 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation land surface heat net flux
'Time-standard-deviation land surface heat net flux' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation surface direct normal short-wave radiation flux, clear sky
'Time-standard-deviation surface direct normal short-wave radiation flux, clear sky' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation 10 metre convective gust
'Time-standard-deviation 10 metre convective gust' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation 10 metre turbulent gust
'Time-standard-deviation 10 metre turbulent gust' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 69 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 6 ;
}
#Cross sectional area of flow in channel
'Cross sectional area of flow in channel' = {
discipline = 1 ;
@ -16300,6 +16511,38 @@
parameterNumber = 19 ;
typeOfStatisticalProcessing = 101 ;
}
#Land surface heat net flux
'Land surface heat net flux' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
}
#Surface direct normal short-wave radiation flux, clear sky
'Surface direct normal short-wave radiation flux, clear sky' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
}
#10 metre convective gust
'10 metre convective gust' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
}
#10 metre turbulent gust
'10 metre turbulent gust' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 69 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
}
#Universal thermal climate index
'Universal thermal climate index' = {
discipline = 20 ;
@ -19112,14 +19355,12 @@
discipline = 0 ;
parameterCategory = 20 ;
parameterNumber = 107 ;
typeOfFirstFixedSurface = 8 ;
}
#Aerosol backscatter from ground
'Aerosol backscatter from ground' = {
discipline = 0 ;
parameterCategory = 20 ;
parameterNumber = 108 ;
typeOfFirstFixedSurface = 1 ;
}
#Aerosol extinction coefficient
'Aerosol extinction coefficient' = {
@ -19127,6 +19368,28 @@
parameterCategory = 20 ;
parameterNumber = 105 ;
}
#Mass mixing ratio difference
'Mass mixing ratio difference' = {
discipline = 0 ;
parameterCategory = 20 ;
parameterNumber = 2 ;
typeOfGeneratingProcess = 20 ;
}
#Mass mixing ratio from volcanoes difference
'Mass mixing ratio from volcanoes difference' = {
discipline = 0 ;
parameterCategory = 20 ;
parameterNumber = 2 ;
typeOfGeneratingProcess = 20 ;
sourceSinkChemicalPhysicalProcess = 7 ;
}
#Emission mass flux from wild fires
'Emission mass flux from wild fires' = {
discipline = 0 ;
parameterCategory = 20 ;
parameterNumber = 77 ;
sourceSinkChemicalPhysicalProcess = 5 ;
}
#Pressure tendency
'Pressure tendency' = {
discipline = 0 ;

267
definitions/grib2/paramId.def
View File

@ -896,6 +896,18 @@
scaleFactorOfLowerLimit = 0 ;
probabilityType = 3 ;
}
#10 metre convective gust of at least 25 m/s
'131256' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
scaledValueOfLowerLimit = 25 ;
scaleFactorOfLowerLimit = 0 ;
probabilityType = 3 ;
}
#Probability of temperature standardized anomaly greater than 1 standard deviation
'133093' = {
discipline = 0 ;
@ -3989,6 +4001,13 @@
typeOfGeneratingProcess = 20 ;
is_aerosol = 1 ;
}
#Cosine of solar zenith angle
'214001' = {
discipline = 3 ;
parameterCategory = 1 ;
parameterNumber = 24 ;
typeOfFirstFixedSurface = 1 ;
}
#Dry deposition of ammonium aerosol
'215206' = {
discipline = 0 ;
@ -8262,6 +8281,14 @@
typeOfSecondFixedSurface = 255 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean cosine of solar zenith angle
'235340' = {
discipline = 3 ;
parameterCategory = 1 ;
parameterNumber = 24 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean freezing rain precipitation rate
'235341' = {
discipline = 0 ;
@ -8646,6 +8673,58 @@
typeOfSecondFixedSurface = 8 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean land surface heat net flux
'235386' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean surface direct normal short-wave radiation flux, clear sky
'235387' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean 10 metre convective gust
'235388' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean 10 metre turbulent gust
'235389' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 69 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-integrated land surface heat net flux
'236386' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 1 ;
}
#Time-integrated surface direct normal short-wave radiation flux, clear sky
'236387' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 1 ;
}
#Time-maximum temperature tendency due to short-wave radiation
'237001' = {
discipline = 0 ;
@ -10087,6 +10166,14 @@
typeOfSecondFixedSurface = 255 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum cosine of solar zenith angle
'237340' = {
discipline = 3 ;
parameterCategory = 1 ;
parameterNumber = 24 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum freezing rain precipitation rate
'237341' = {
discipline = 0 ;
@ -10482,6 +10569,42 @@
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum land surface heat net flux
'237386' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum surface direct normal short-wave radiation flux, clear sky
'237387' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum 10 metre convective gust
'237388' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum 10 metre turbulent gust
'237389' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 69 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-minimum temperature tendency due to short-wave radiation
'238001' = {
discipline = 0 ;
@ -11923,6 +12046,14 @@
typeOfSecondFixedSurface = 255 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum cosine of solar zenith angle
'238340' = {
discipline = 3 ;
parameterCategory = 1 ;
parameterNumber = 24 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum freezing rain rate water equivalent
'238341' = {
discipline = 0 ;
@ -12298,6 +12429,42 @@
parameterNumber = 51 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum land surface heat net flux
'238386' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum surface direct normal short-wave radiation flux, clear sky
'238387' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum 10 metre convective gust
'238388' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum 10 metre turbulent gust
'238389' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 69 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-standard-deviation temperature tendency due to short-wave radiation
'239001' = {
discipline = 0 ;
@ -13729,6 +13896,14 @@
typeOfSecondFixedSurface = 255 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation cosine of solar zenith angle
'239340' = {
discipline = 3 ;
parameterCategory = 1 ;
parameterNumber = 24 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation freezing rain rate water equivalent
'239341' = {
discipline = 0 ;
@ -14097,6 +14272,42 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation land surface heat net flux
'239386' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation surface direct normal short-wave radiation flux, clear sky
'239387' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation 10 metre convective gust
'239388' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation 10 metre turbulent gust
'239389' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 69 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 6 ;
}
#Cross sectional area of flow in channel
'240011' = {
discipline = 1 ;
@ -16300,6 +16511,38 @@
parameterNumber = 19 ;
typeOfStatisticalProcessing = 101 ;
}
#Land surface heat net flux
'260684' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
}
#Surface direct normal short-wave radiation flux, clear sky
'260685' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
}
#10 metre convective gust
'260686' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
}
#10 metre turbulent gust
'260687' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 69 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
}
#Universal thermal climate index
'261001' = {
discipline = 20 ;
@ -19112,14 +19355,12 @@
discipline = 0 ;
parameterCategory = 20 ;
parameterNumber = 107 ;
typeOfFirstFixedSurface = 8 ;
}
#Aerosol backscatter from ground
'461000' = {
discipline = 0 ;
parameterCategory = 20 ;
parameterNumber = 108 ;
typeOfFirstFixedSurface = 1 ;
}
#Aerosol extinction coefficient
'462000' = {
@ -19127,6 +19368,28 @@
parameterCategory = 20 ;
parameterNumber = 105 ;
}
#Mass mixing ratio difference
'467000' = {
discipline = 0 ;
parameterCategory = 20 ;
parameterNumber = 2 ;
typeOfGeneratingProcess = 20 ;
}
#Mass mixing ratio from volcanoes difference
'468000' = {
discipline = 0 ;
parameterCategory = 20 ;
parameterNumber = 2 ;
typeOfGeneratingProcess = 20 ;
sourceSinkChemicalPhysicalProcess = 7 ;
}
#Emission mass flux from wild fires
'469000' = {
discipline = 0 ;
parameterCategory = 20 ;
parameterNumber = 77 ;
sourceSinkChemicalPhysicalProcess = 5 ;
}
#Pressure tendency
'3003' = {
discipline = 0 ;

6
definitions/grib2/section.1.def
View File

@ -29,11 +29,6 @@ transient masterDir="grib2/tables/[tablesVersion]";
if (tablesVersion > tablesVersionLatest) {
transient masterDir="grib2/tables/[tablesVersionLatest]";
}
when (tablesVersion!=255) {
set masterDir="grib2/tables/[tablesVersion]";
} else {
set masterDir="grib2/tables/4";
}
codetable[1] localTablesVersion 'grib2/tables/local/[centreForLocal]/1.1.table' ;
alias versionNumberOfGribLocalTables=localTablesVersion;
@ -95,6 +90,7 @@ concept stepType {
"sum" = {selectStepTemplateInterval=1; stepTypeInternal="sum";}
"severity" = {selectStepTemplateInterval=1; stepTypeInternal="severity";}
"mode" = {selectStepTemplateInterval=1; stepTypeInternal="mode";}
"index" = {selectStepTemplateInterval=1; stepTypeInternal="index";}
}
# 0=atmospheric chemical constituents

267
definitions/grib2/shortName.def
View File

@ -896,6 +896,18 @@
scaleFactorOfLowerLimit = 0 ;
probabilityType = 3 ;
}
#10 metre convective gust of at least 25 m/s
'10cogug25' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
scaledValueOfLowerLimit = 25 ;
scaleFactorOfLowerLimit = 0 ;
probabilityType = 3 ;
}
#Probability of temperature standardized anomaly greater than 1 standard deviation
'ptsa_gt_1stdev' = {
discipline = 0 ;
@ -3989,6 +4001,13 @@
typeOfGeneratingProcess = 20 ;
is_aerosol = 1 ;
}
#Cosine of solar zenith angle
'cossza' = {
discipline = 3 ;
parameterCategory = 1 ;
parameterNumber = 24 ;
typeOfFirstFixedSurface = 1 ;
}
#Dry deposition of ammonium aerosol
'aerddpam' = {
discipline = 0 ;
@ -8262,6 +8281,14 @@
typeOfSecondFixedSurface = 255 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean cosine of solar zenith angle
'avg_cossza' = {
discipline = 3 ;
parameterCategory = 1 ;
parameterNumber = 24 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean freezing rain precipitation rate
'avg_fprate' = {
discipline = 0 ;
@ -8646,6 +8673,58 @@
typeOfSecondFixedSurface = 8 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean land surface heat net flux
'avg_lshnf' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean surface direct normal short-wave radiation flux, clear sky
'avg_sdirnswrfcs' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean 10 metre convective gust
'avg_10cogu' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean 10 metre turbulent gust
'avg_10tugu' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 69 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-integrated land surface heat net flux
'acc_lshnf' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 1 ;
}
#Time-integrated surface direct normal short-wave radiation flux, clear sky
'acc_sdirnswrfcs' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 1 ;
}
#Time-maximum temperature tendency due to short-wave radiation
'max_ttswr' = {
discipline = 0 ;
@ -10087,6 +10166,14 @@
typeOfSecondFixedSurface = 255 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum cosine of solar zenith angle
'max_cossza' = {
discipline = 3 ;
parameterCategory = 1 ;
parameterNumber = 24 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum freezing rain precipitation rate
'max_fprate' = {
discipline = 0 ;
@ -10482,6 +10569,42 @@
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum land surface heat net flux
'max_lshnf' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum surface direct normal short-wave radiation flux, clear sky
'max_sdirnswrfcs' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum 10 metre convective gust
'max_10cogu' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum 10 metre turbulent gust
'max_10tugu' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 69 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-minimum temperature tendency due to short-wave radiation
'min_ttswr' = {
discipline = 0 ;
@ -11923,6 +12046,14 @@
typeOfSecondFixedSurface = 255 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum cosine of solar zenith angle
'min_cossza' = {
discipline = 3 ;
parameterCategory = 1 ;
parameterNumber = 24 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum freezing rain rate water equivalent
'min_fprate' = {
discipline = 0 ;
@ -12298,6 +12429,42 @@
parameterNumber = 51 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum land surface heat net flux
'min_lshnf' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum surface direct normal short-wave radiation flux, clear sky
'min_sdirnswrfcs' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum 10 metre convective gust
'min_10cogu' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum 10 metre turbulent gust
'min_10tugu' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 69 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-standard-deviation temperature tendency due to short-wave radiation
'std_ttswr' = {
discipline = 0 ;
@ -13729,6 +13896,14 @@
typeOfSecondFixedSurface = 255 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation cosine of solar zenith angle
'std_cossza' = {
discipline = 3 ;
parameterCategory = 1 ;
parameterNumber = 24 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation freezing rain rate water equivalent
'std_fprate' = {
discipline = 0 ;
@ -14097,6 +14272,42 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation land surface heat net flux
'std_lshnf' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation surface direct normal short-wave radiation flux, clear sky
'std_sdirnswrfcs' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation 10 metre convective gust
'std_10cogu' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation 10 metre turbulent gust
'std_10tugu' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 69 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 6 ;
}
#Cross sectional area of flow in channel
'chcross' = {
discipline = 1 ;
@ -16300,6 +16511,38 @@
parameterNumber = 19 ;
typeOfStatisticalProcessing = 101 ;
}
#Land surface heat net flux
'lshnf' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
}
#Surface direct normal short-wave radiation flux, clear sky
'sdirnswrfcs' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
}
#10 metre convective gust
'10cogu' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
}
#10 metre turbulent gust
'10tugu' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 69 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
}
#Universal thermal climate index
'utci' = {
discipline = 20 ;
@ -19112,14 +19355,12 @@
discipline = 0 ;
parameterCategory = 20 ;
parameterNumber = 107 ;
typeOfFirstFixedSurface = 8 ;
}
#Aerosol backscatter from ground
'aerbscatgnd' = {
discipline = 0 ;
parameterCategory = 20 ;
parameterNumber = 108 ;
typeOfFirstFixedSurface = 1 ;
}
#Aerosol extinction coefficient
'aerext' = {
@ -19127,6 +19368,28 @@
parameterCategory = 20 ;
parameterNumber = 105 ;
}
#Mass mixing ratio difference
'mass_mixrat_diff' = {
discipline = 0 ;
parameterCategory = 20 ;
parameterNumber = 2 ;
typeOfGeneratingProcess = 20 ;
}
#Mass mixing ratio from volcanoes difference
'mass_mixrat_vol_diff' = {
discipline = 0 ;
parameterCategory = 20 ;
parameterNumber = 2 ;
typeOfGeneratingProcess = 20 ;
sourceSinkChemicalPhysicalProcess = 7 ;
}
#Emission mass flux from wild fires
'emi_mflx_wfire' = {
discipline = 0 ;
parameterCategory = 20 ;
parameterNumber = 77 ;
sourceSinkChemicalPhysicalProcess = 5 ;
}
#Pressure tendency
'ptend' = {
discipline = 0 ;

2
definitions/grib2/tables/0/1.0.table
View File

@ -2,4 +2,4 @@
1 1 Initial operational version number
2 2 Previous operational version number
3 3 Current operational version number implemented on 2 November 2005
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

2
definitions/grib2/tables/1.0.table
View File

@ -36,4 +36,4 @@
34 34 Version implemented on 18 November 2024
35 35 Pre-operational to be implemented by next amendment
# 36-254 Future versions
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

2
definitions/grib2/tables/1/1.0.table
View File

@ -2,4 +2,4 @@
1 1 Initial operational version number
2 2 Previous operational version number
3 3 Current operational version number implemented on 2 November 2005
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

2
definitions/grib2/tables/10/1.0.table
View File

@ -12,4 +12,4 @@
10 10 Version implemented on 7 November 2012
11 11 Pre-operational to be implemented by next amendment
# 12-254 Future versions
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

2
definitions/grib2/tables/11/1.0.table
View File

@ -12,4 +12,4 @@
10 10 Version implemented on 7 November 2012
11 11 Pre-operational to be implemented by next amendment
# 12-254 Future versions
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

2
definitions/grib2/tables/18/1.0.table
View File

@ -20,4 +20,4 @@
18 18 Version implemented on 2 November 2016
19 19 Pre-operational to be implemented by next amendment
# 20-254 Future versions
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

2
definitions/grib2/tables/19/1.0.table
View File

@ -21,4 +21,4 @@
19 19 Version implemented on 3 May 2017
20 20 Pre-operational to be implemented by next amendment
# 21-254 Future versions
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

2
definitions/grib2/tables/2/1.0.table
View File

@ -4,4 +4,4 @@
2 2 Previous operational version number
3 3 Current operational version number implemented on 2 November 2005
# 4-254 Future operational version numbers
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

2
definitions/grib2/tables/20/1.0.table
View File

@ -22,4 +22,4 @@
20 20 Version implemented on 8 November 2017
21 21 Pre-operational to be implemented by next amendment
# 22-254 Future versions
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

2
definitions/grib2/tables/21/1.0.table
View File

@ -23,4 +23,4 @@
21 21 Version implemented on 2 May 2018
22 22 Pre-operational to be implemented by next amendment
# 23-254 Future versions
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

2
definitions/grib2/tables/22/1.0.table
View File

@ -24,4 +24,4 @@
22 22 Version implemented on 7 November 2018
23 23 Version implemented on 15 May 2019
# 24-254 Future versions
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

2
definitions/grib2/tables/23/1.0.table
View File

@ -24,4 +24,4 @@
22 22 Version implemented on 7 November 2018
23 23 Version implemented on 15 May 2019
# 24-254 Future versions
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

2
definitions/grib2/tables/24/1.0.table
View File

@ -25,4 +25,4 @@
23 23 Version implemented on 15 May 2019
24 24 Version implemented on 6 November 2019
# 25-254 Future versions
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

2
definitions/grib2/tables/25/1.0.table
View File

@ -26,4 +26,4 @@
24 24 Version implemented on 6 November 2019
25 25 Version implemented on 6 May 2020
# 26-254 Future versions
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

2
definitions/grib2/tables/26/1.0.table
View File

@ -27,4 +27,4 @@
25 25 Version implemented on 6 May 2020
26 26 Version implemented on 16 November 2020
# 27-254 Future versions
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

2
definitions/grib2/tables/27/1.0.table
View File

@ -29,4 +29,4 @@
27 27 Version implemented on 15 June 2021
28 28 Pre-operational to be implemented by next amendment
# 29-254 Future versions
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

2
definitions/grib2/tables/28/1.0.table
View File

@ -30,4 +30,4 @@
28 28 Version implemented on 15 November 2021
29 29 Pre-operational to be implemented by next amendment
# 30-254 Future versions
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

2
definitions/grib2/tables/3/1.0.table
View File

@ -4,4 +4,4 @@
2 2 Previous operational version number
3 3 Current operational version number implemented on 2 November 2005
# 4-254 Future operational version numbers
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

2
definitions/grib2/tables/4/1.0.table
View File

@ -4,4 +4,4 @@
2 2 Previous operational version number
3 3 Current operational version number implemented on 2 November 2005
# 4-254 Future operational version numbers
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

2
definitions/grib2/tables/5/1.0.table
View File

@ -7,4 +7,4 @@
5 5 Version implemented on 4 November 2009
6 6 Pre-operational to be implemented by next amendment
# 7-254 Future versions
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

2
definitions/grib2/tables/6/1.0.table
View File

@ -8,5 +8,5 @@
6 6 Version implemented on 15 September 2010
7 7 Pre-operational to be implemented by next amendment
# 8-254 Future versions
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

2
definitions/grib2/tables/7/1.0.table
View File

@ -9,4 +9,4 @@
7 7 Version implemented on 4 May 2011
8 8 Pre-operational to be implemented by next amendment
# 9-254 Future versions
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

2
definitions/grib2/tables/8/1.0.table
View File

@ -10,4 +10,4 @@
8 8 Version implemented on 2 November 2011
9 9 Pre-operational to be implemented by next amendment
# 10-254 Future versions
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

2
definitions/grib2/tables/9/1.0.table
View File

@ -11,4 +11,4 @@
9 9 Version implemented on 2 May 2012
10 10 Pre-operational to be implemented by next amendment
# 11-254 Future versions
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

1
definitions/grib2/templates/template.4.statistical.def
View File

@ -69,6 +69,7 @@ if (numberOfTimeRanges == 1 || numberOfTimeRanges == 2) {
"sum" = {typeOfStatisticalProcessing=11;}
"severity" = {typeOfStatisticalProcessing=100;}
"mode" = {typeOfStatisticalProcessing=101;}
"index" = {typeOfStatisticalProcessing=102;}
}
meta startStep step_in_units(forecastTime,indicatorOfUnitOfTimeRange,stepUnits,
indicatorOfUnitForTimeRange,lengthOfTimeRange) : no_copy;

267
definitions/grib2/units.def
View File

@ -896,6 +896,18 @@
scaleFactorOfLowerLimit = 0 ;
probabilityType = 3 ;
}
#10 metre convective gust of at least 25 m/s
'm s**-1' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
scaledValueOfLowerLimit = 25 ;
scaleFactorOfLowerLimit = 0 ;
probabilityType = 3 ;
}
#Probability of temperature standardized anomaly greater than 1 standard deviation
'%' = {
discipline = 0 ;
@ -3989,6 +4001,13 @@
typeOfGeneratingProcess = 20 ;
is_aerosol = 1 ;
}
#Cosine of solar zenith angle
'Numeric' = {
discipline = 3 ;
parameterCategory = 1 ;
parameterNumber = 24 ;
typeOfFirstFixedSurface = 1 ;
}
#Dry deposition of ammonium aerosol
'kg m**-2 s**-1' = {
discipline = 0 ;
@ -8262,6 +8281,14 @@
typeOfSecondFixedSurface = 255 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean cosine of solar zenith angle
'Numeric' = {
discipline = 3 ;
parameterCategory = 1 ;
parameterNumber = 24 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean freezing rain precipitation rate
'kg m**-2 s**-1' = {
discipline = 0 ;
@ -8646,6 +8673,58 @@
typeOfSecondFixedSurface = 8 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean land surface heat net flux
'W m**-2' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean surface direct normal short-wave radiation flux, clear sky
'W m**-2' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean 10 metre convective gust
'm s**-1' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-mean 10 metre turbulent gust
'm s**-1' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 69 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 0 ;
}
#Time-integrated land surface heat net flux
'J m**-2' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 1 ;
}
#Time-integrated surface direct normal short-wave radiation flux, clear sky
'J m**-2' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 1 ;
}
#Time-maximum temperature tendency due to short-wave radiation
'K s**-1' = {
discipline = 0 ;
@ -10087,6 +10166,14 @@
typeOfSecondFixedSurface = 255 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum cosine of solar zenith angle
'Numeric' = {
discipline = 3 ;
parameterCategory = 1 ;
parameterNumber = 24 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum freezing rain precipitation rate
'kg m**-2 s**-1' = {
discipline = 0 ;
@ -10482,6 +10569,42 @@
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum land surface heat net flux
'W m**-2' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum surface direct normal short-wave radiation flux, clear sky
'W m**-2' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum 10 metre convective gust
'm s**-1' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-maximum 10 metre turbulent gust
'm s**-1' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 69 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 2 ;
}
#Time-minimum temperature tendency due to short-wave radiation
'K s**-1' = {
discipline = 0 ;
@ -11923,6 +12046,14 @@
typeOfSecondFixedSurface = 255 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum cosine of solar zenith angle
'Numeric' = {
discipline = 3 ;
parameterCategory = 1 ;
parameterNumber = 24 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum freezing rain rate water equivalent
'kg m**-2 s**-1' = {
discipline = 0 ;
@ -12298,6 +12429,42 @@
parameterNumber = 51 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum land surface heat net flux
'W m**-2' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum surface direct normal short-wave radiation flux, clear sky
'W m**-2' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum 10 metre convective gust
'm s**-1' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-minimum 10 metre turbulent gust
'm s**-1' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 69 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 3 ;
}
#Time-standard-deviation temperature tendency due to short-wave radiation
'K s**-1' = {
discipline = 0 ;
@ -13729,6 +13896,14 @@
typeOfSecondFixedSurface = 255 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation cosine of solar zenith angle
'Numeric' = {
discipline = 3 ;
parameterCategory = 1 ;
parameterNumber = 24 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation freezing rain rate water equivalent
'kg m**-2 s**-1' = {
discipline = 0 ;
@ -14097,6 +14272,42 @@
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation land surface heat net flux
'W m**-2' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation surface direct normal short-wave radiation flux, clear sky
'W m**-2' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation 10 metre convective gust
'm s**-1' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 6 ;
}
#Time-standard-deviation 10 metre turbulent gust
'm s**-1' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 69 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
typeOfStatisticalProcessing = 6 ;
}
#Cross sectional area of flow in channel
'm**2' = {
discipline = 1 ;
@ -16300,6 +16511,38 @@
parameterNumber = 19 ;
typeOfStatisticalProcessing = 101 ;
}
#Land surface heat net flux
'W m**-2' = {
discipline = 2 ;
parameterCategory = 7 ;
parameterNumber = 0 ;
typeOfFirstFixedSurface = 1 ;
}
#Surface direct normal short-wave radiation flux, clear sky
'W m**-2' = {
discipline = 0 ;
parameterCategory = 4 ;
parameterNumber = 62 ;
typeOfFirstFixedSurface = 1 ;
}
#10 metre convective gust
'm s**-1' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 68 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
}
#10 metre turbulent gust
'm s**-1' = {
discipline = 0 ;
parameterCategory = 2 ;
parameterNumber = 69 ;
typeOfFirstFixedSurface = 103 ;
scaledValueOfFirstFixedSurface = 10 ;
scaleFactorOfFirstFixedSurface = 0 ;
}
#Universal thermal climate index
'K' = {
discipline = 20 ;
@ -19112,14 +19355,12 @@
discipline = 0 ;
parameterCategory = 20 ;
parameterNumber = 107 ;
typeOfFirstFixedSurface = 8 ;
}
#Aerosol backscatter from ground
'm**-1 sr**-1' = {
discipline = 0 ;
parameterCategory = 20 ;
parameterNumber = 108 ;
typeOfFirstFixedSurface = 1 ;
}
#Aerosol extinction coefficient
'm**-1' = {
@ -19127,6 +19368,28 @@
parameterCategory = 20 ;
parameterNumber = 105 ;
}
#Mass mixing ratio difference
'kg kg**-1' = {
discipline = 0 ;
parameterCategory = 20 ;
parameterNumber = 2 ;
typeOfGeneratingProcess = 20 ;
}
#Mass mixing ratio from volcanoes difference
'kg kg**-1' = {
discipline = 0 ;
parameterCategory = 20 ;
parameterNumber = 2 ;
typeOfGeneratingProcess = 20 ;
sourceSinkChemicalPhysicalProcess = 7 ;
}
#Emission mass flux from wild fires
'kg m**-2 s**-1' = {
discipline = 0 ;
parameterCategory = 20 ;
parameterNumber = 77 ;
sourceSinkChemicalPhysicalProcess = 5 ;
}
#Pressure tendency
'Pa s**-1' = {
discipline = 0 ;

2
definitions/grib3/tables/0/1.0.table
View File

@ -4,4 +4,4 @@
2 2 Previous operational version number
3 3 Current operational version number implemented on 2 November 2005
# 4-254 Future operational version numbers
255 255 Master tables not used. Local table entries and local templates may use the entire range of the table, not just those sections marked Reserved for local used.
255 255 Missing

67
src/CMakeLists.txt
View File

@ -11,8 +11,8 @@
include_directories(
"${CMAKE_CURRENT_SOURCE_DIR}/accessor"
"${CMAKE_CURRENT_SOURCE_DIR}/geo_iterator"
"${CMAKE_CURRENT_SOURCE_DIR}/geo_nearest"
"${CMAKE_CURRENT_SOURCE_DIR}/geo/iterator"
"${CMAKE_CURRENT_SOURCE_DIR}/geo/nearest"
)
list( APPEND eccodes_src_files
@ -124,6 +124,7 @@ list( APPEND eccodes_src_files
accessor/grib_accessor_class_data_g22order_packing.cc
accessor/grib_accessor_class_mars_step.cc
accessor/grib_accessor_class_message_copy.cc
accessor/grib_accessor_class_message_is_valid.cc
accessor/grib_accessor_class_dictionary.cc
accessor/grib_accessor_class_latlon_increment.cc
accessor/grib_accessor_class_g2date.cc
@ -262,7 +263,7 @@ list( APPEND eccodes_src_files
accessor/grib_accessor_class_sexagesimal2decimal.cc
accessor/grib_accessor_class_vector.cc
accessor/grib_accessor_class_long_vector.cc
grib_gaussian_reduced.cc
geo/grib_gaussian_reduced.cc
accessor/grib_accessor_class_abstract_vector.cc
accessor/grib_accessor_class_abstract_long_vector.cc
grib_loader_from_handle.cc
@ -293,7 +294,7 @@ list( APPEND eccodes_src_files
grib_date.cc
grib_fieldset.cc
grib_filepool.cc
grib_geography.cc
geo/grib_geography.cc
grib_handle.cc
grib_hash_keys.cc
grib_io.cc
@ -331,32 +332,32 @@ list( APPEND eccodes_src_files
expression/grib_expression_class_string.cc
expression/grib_expression_class_sub_string.cc
geo_nearest/grib_nearest.cc
geo_nearest/grib_nearest_class_gen.cc
geo_nearest/grib_nearest_class_healpix.cc
geo_nearest/grib_nearest_class_lambert_azimuthal_equal_area.cc
geo_nearest/grib_nearest_class_lambert_conformal.cc
geo_nearest/grib_nearest_class_latlon_reduced.cc
geo_nearest/grib_nearest_class_mercator.cc
geo_nearest/grib_nearest_class_polar_stereographic.cc
geo_nearest/grib_nearest_class_reduced.cc
geo_nearest/grib_nearest_class_regular.cc
geo_nearest/grib_nearest_class_space_view.cc
geo/nearest/grib_nearest.cc
geo/nearest/grib_nearest_class_gen.cc
geo/nearest/grib_nearest_class_healpix.cc
geo/nearest/grib_nearest_class_lambert_azimuthal_equal_area.cc
geo/nearest/grib_nearest_class_lambert_conformal.cc
geo/nearest/grib_nearest_class_latlon_reduced.cc
geo/nearest/grib_nearest_class_mercator.cc
geo/nearest/grib_nearest_class_polar_stereographic.cc
geo/nearest/grib_nearest_class_reduced.cc
geo/nearest/grib_nearest_class_regular.cc
geo/nearest/grib_nearest_class_space_view.cc
geo_iterator/grib_iterator.cc
geo_iterator/grib_iterator_class_gaussian.cc
geo_iterator/grib_iterator_class_gaussian_reduced.cc
geo_iterator/grib_iterator_class_gen.cc
geo_iterator/grib_iterator_class_healpix.cc
geo_iterator/grib_iterator_class_lambert_azimuthal_equal_area.cc
geo_iterator/grib_iterator_class_lambert_conformal.cc
geo_iterator/grib_iterator_class_latlon.cc
geo_iterator/grib_iterator_class_latlon_reduced.cc
geo_iterator/grib_iterator_class_mercator.cc
geo_iterator/grib_iterator_class_polar_stereographic.cc
geo_iterator/grib_iterator_class_regular.cc
geo_iterator/grib_iterator_class_space_view.cc
geo_iterator/grib_iterator_class_unstructured.cc
geo/iterator/grib_iterator.cc
geo/iterator/grib_iterator_class_gaussian.cc
geo/iterator/grib_iterator_class_gaussian_reduced.cc
geo/iterator/grib_iterator_class_gen.cc
geo/iterator/grib_iterator_class_healpix.cc
geo/iterator/grib_iterator_class_lambert_azimuthal_equal_area.cc
geo/iterator/grib_iterator_class_lambert_conformal.cc
geo/iterator/grib_iterator_class_latlon.cc
geo/iterator/grib_iterator_class_latlon_reduced.cc
geo/iterator/grib_iterator_class_mercator.cc
geo/iterator/grib_iterator_class_polar_stereographic.cc
geo/iterator/grib_iterator_class_regular.cc
geo/iterator/grib_iterator_class_space_view.cc
geo/iterator/grib_iterator_class_unstructured.cc
codes_util.cc
grib_util.cc
@ -419,10 +420,10 @@ endif()
if( eccodes_HAVE_GEOGRAPHY AND eccodes_HAVE_ECKIT_GEO )
list( APPEND eccodes_src_files
eccodes/geo/GeoIterator.cc
eccodes/geo/GeoIterator.h
eccodes/geo/GribSpec.cc
eccodes/geo/GribSpec.h )
geo/GeoIterator.cc
geo/GeoIterator.h
geo/GribSpec.cc
geo/GribSpec.h )
list( APPEND ECCODES_EXTRA_LIBRARIES eckit_geo )
endif()

10
src/accessor/grib_accessor_class_concept.cc
View File

@ -400,12 +400,20 @@ static int grib_concept_apply(grib_accessor* a, const char* name)
}
}
else if (STR_EQUAL(values[i].name, "sourceSinkChemicalPhysicalProcess")) {
grib_context_log(h->context, GRIB_LOG_DEBUG, "%s: Switch to chemical src/sink", __func__);
grib_context_log(h->context, GRIB_LOG_DEBUG, "%s: Switch to chemical src/sink", __func__);
if (grib_set_long(h, "is_chemical_srcsink", 1) == GRIB_SUCCESS) {
resubmit = true;
grib_set_values(h, &values[i], 1);
}
}
else if (STR_EQUAL(values[i].name, "probabilityType")) {
grib_context_log(h->context, GRIB_LOG_DEBUG, "%s: Switch to probability forecasts", __func__);
// TODO(masn): Add a new key e.g. is_probability_forecast
if (grib_set_long(h, "productDefinitionTemplateNumber", 5) == GRIB_SUCCESS) {
resubmit = true;
grib_set_values(h, &values[i], 1);
}
}
}
}

2
src/accessor/grib_accessor_class_iterator.h
View File

@ -11,7 +11,7 @@
#pragma once
#include "grib_accessor_class_gen.h"
#include "geo_iterator/grib_iterator.h"
#include "geo/iterator/grib_iterator.h"
class grib_accessor_iterator_t : public grib_accessor_gen_t
{

5
src/accessor/grib_accessor_class_md5.cc
View File

@ -102,6 +102,7 @@ int grib_accessor_md5_t::unpack_string(char* v, size_t* len)
mess = (unsigned char*)grib_context_malloc(context_, length);
memcpy(mess, grib_handle_of_accessor(this)->buffer->data + offset, length);
mess_len = length;
const unsigned char* pEnd = mess + length - 1;
blocklist = context_->blocklist;
/* passed blocklist overrides context blocklist.
@ -117,8 +118,10 @@ int grib_accessor_md5_t::unpack_string(char* v, size_t* len)
}
p = mess + b->offset_ - offset;
for (i = 0; i < b->length_; i++)
for (i = 0; i < b->length_; i++) {
if (p > pEnd) break;
*(p++) = 0;
}
blocklist = blocklist->next;
}

141
src/accessor/grib_accessor_class_message_is_valid.cc Normal file
View File

@ -0,0 +1,141 @@
/*
* (C) Copyright 2005- ECMWF.
*
* This software is licensed under the terms of the Apache Licence Version 2.0
* which can be obtained at http://www.apache.org/licenses/LICENSE-2.0.
*
* In applying this licence, ECMWF does not waive the privileges and immunities granted to it by
* virtue of its status as an intergovernmental organisation nor does it submit to any jurisdiction.
*/
#include "grib_accessor_class_message_is_valid.h"
grib_accessor_message_is_valid_t _grib_accessor_message_is_valid{};
grib_accessor* grib_accessor_message_is_valid = &_grib_accessor_message_is_valid;
void grib_accessor_message_is_valid_t::init(const long l, grib_arguments* arg)
{
grib_accessor_long_t::init(l, arg);
grib_handle* h = grib_handle_of_accessor(this);
product_ = arg->get_name(h, 0);
flags_ |= GRIB_ACCESSOR_FLAG_READ_ONLY;
length_ = 0;
}
static int check_field_values(grib_handle* h)
{
//printf("DEBUG %s \n", __func__);
int ret = GRIB_SUCCESS;
double* values = NULL;
size_t size = 0;
grib_context* c = h->context;
if ((ret = grib_get_size(h, "values", &size)) != GRIB_SUCCESS)
return ret;
values = (double*)grib_context_malloc_clear(c, size * sizeof(double));
if (!values)
return GRIB_OUT_OF_MEMORY;
if ((ret = grib_get_double_array(h, "values", values, &size)) != GRIB_SUCCESS) {
return ret;
}
grib_context_free(c, values);
return GRIB_SUCCESS;
}
static int check_grid_pl_array(grib_handle* h)
{
// printf("DEBUG %s \n", __func__);
int ret = GRIB_SUCCESS;
long Ni = 0,plpresent = 0;
long* pl = NULL; // pl array
size_t plsize = 0;
grib_context* c = h->context;
// is there a PL array?
ret = grib_get_long(h, "PLPresent", &plpresent);
if (ret != GRIB_SUCCESS || plpresent == 0)
return GRIB_SUCCESS; // No PL array. So nothing to do
if ((ret = grib_get_size(h, "pl", &plsize)) != GRIB_SUCCESS)
return ret;
if (plsize == 0) { // pl array must have at least one element
return GRIB_WRONG_GRID;
}
// If we have a PL array and PLPresent=true, then Ni must be missing
ret = grib_get_long(h, "Ni", &Ni);
if (ret == GRIB_SUCCESS && Ni != GRIB_MISSING_LONG) {
grib_context_log(c, GRIB_LOG_ERROR, "Invalid Ni: If there is a PL array, Ni must be set to MISSING");
return GRIB_WRONG_GRID;
}
pl = (long*)grib_context_malloc_clear(c, sizeof(long) * plsize);
if (!pl) return GRIB_OUT_OF_MEMORY;
if ((ret = grib_get_long_array(h, "pl", pl, &plsize)) != GRIB_SUCCESS)
return ret;
for (size_t j = 0; j < plsize; j++) {
if (pl[j] == 0) {
grib_context_log(c, GRIB_LOG_ERROR, "Invalid PL array: entry at index=%d is zero", j);
return GRIB_WRONG_GRID;
}
}
grib_context_free(c, pl);
return GRIB_SUCCESS;
}
static int check_geoiterator(grib_handle* h)
{
//printf("DEBUG %s \n", __func__);
int err = 0;
grib_iterator* iter = grib_iterator_new(h, 0, &err);
if (err == GRIB_NOT_IMPLEMENTED || err == GRIB_SUCCESS) {
grib_iterator_delete(iter);
return GRIB_SUCCESS; // GRIB_NOT_IMPLEMENTED is OK e.g., for spectral fields
}
grib_context_log(h->context, GRIB_LOG_ERROR, "%s", grib_get_error_message(err));
grib_iterator_delete(iter);
return err;
}
typedef int (*proj_func)(grib_handle*);
static proj_func check_functions[] = {
check_field_values,
check_grid_pl_array,
check_geoiterator
};
int grib_accessor_message_is_valid_t::unpack_long(long* val, size_t* len)
{
int ret = 0;
grib_handle* h = grib_handle_of_accessor(this);
*len = 1;
*val = 1; // Assume message is valid
char product[32] = {0,};
size_t size = sizeof(product) / sizeof(*product);
ret = grib_get_string(h, product_, product, &size);
if (ret) return ret;
if (!STR_EQUAL(product, "GRIB")) {
grib_context_log(h->context, GRIB_LOG_ERROR, "Validity checks only implemented for GRIB messages");
*val = 0;
return GRIB_NOT_IMPLEMENTED;
}
const size_t num_check_functions = sizeof(check_functions) / sizeof(check_functions[0]);
for (size_t i = 0; i < num_check_functions; ++i) {
proj_func cfunc = check_functions[i];
if ((ret = cfunc(h)) != GRIB_SUCCESS) {
*val = 0; // check failed
}
}
return GRIB_SUCCESS;
}

26
src/accessor/grib_accessor_class_message_is_valid.h Normal file
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@ -0,0 +1,26 @@
/*
* (C) Copyright 2005- ECMWF.
*
* This software is licensed under the terms of the Apache Licence Version 2.0
* which can be obtained at http://www.apache.org/licenses/LICENSE-2.0.
*
* In applying this licence, ECMWF does not waive the privileges and immunities granted to it by
* virtue of its status as an intergovernmental organisation nor does it submit to any jurisdiction.
*/
#pragma once
#include "grib_accessor_class_long.h"
class grib_accessor_message_is_valid_t : public grib_accessor_long_t
{
public:
grib_accessor_message_is_valid_t() :
grib_accessor_long_t() { class_name_ = "message_is_valid"; }
grib_accessor* create_empty_accessor() override { return new grib_accessor_message_is_valid_t{}; }
int unpack_long(long* val, size_t* len) override;
void init(const long, grib_arguments*) override;
private:
const char* product_ = nullptr;
};

2
src/accessor/grib_accessor_class_nearest.h
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@ -11,7 +11,7 @@
#pragma once
#include "grib_accessor_class_gen.h"
#include "geo_nearest/grib_nearest.h"
#include "geo/nearest/grib_nearest.h"
class grib_accessor_nearest_t : public grib_accessor_gen_t
{

2
src/expression/grib_expression_class_length.h
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@ -31,8 +31,6 @@ public:
private:
char* name_ = nullptr;
size_t start_ = 0;
size_t length = 0;
};
} // namespace eccodes::expression

4
src/eccodes/geo/GeoIterator.cc → src/geo/GeoIterator.cc
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@ -9,11 +9,11 @@
*/
#include "eccodes/geo/GeoIterator.h"
#include "geo/GeoIterator.h"
#include "eckit/exception/Exceptions.h"
#include "eccodes/geo/GribSpec.h"
#include "geo/GribSpec.h"
namespace eccodes::geo

2
src/eccodes/geo/GeoIterator.h → src/geo/GeoIterator.h
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@ -20,7 +20,7 @@
#undef Assert
#endif
#include "geo_iterator/grib_iterator.h"
#include "geo/iterator/grib_iterator.h"
namespace eccodes::geo

2
src/eccodes/geo/GribSpec.cc → src/geo/GribSpec.cc
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@ -10,7 +10,7 @@
*/
#include "eccodes/geo/GribSpec.h"
#include "geo/GribSpec.h"
#include <algorithm>
#include <cstring>

0
src/eccodes/geo/GribSpec.h → src/geo/GribSpec.h
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0
src/grib_gaussian_N1280.h → src/geo/grib_gaussian_N1280.h
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0
src/grib_gaussian_N640.h → src/geo/grib_gaussian_N640.h
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0
src/grib_gaussian_reduced.cc → src/geo/grib_gaussian_reduced.cc
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0
src/grib_geography.cc → src/geo/grib_geography.cc
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2
src/geo_iterator/grib_iterator.cc → src/geo/iterator/grib_iterator.cc
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@ -17,7 +17,7 @@
#if defined(HAVE_ECKIT_GEO)
#include "eckit/runtime/Main.h"
#include "eccodes/geo/GeoIterator.h"
#include "geo/GeoIterator.h"
// eccodes macros conflict with eckit
#ifdef Assert

0
src/geo_iterator/grib_iterator.h → src/geo/iterator/grib_iterator.h
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0
src/geo_iterator/grib_iterator_class_gaussian.cc → src/geo/iterator/grib_iterator_class_gaussian.cc
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0
src/geo_iterator/grib_iterator_class_gaussian.h → src/geo/iterator/grib_iterator_class_gaussian.h
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0
src/geo_iterator/grib_iterator_class_gaussian_reduced.cc → src/geo/iterator/grib_iterator_class_gaussian_reduced.cc
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0
src/geo_iterator/grib_iterator_class_gaussian_reduced.h → src/geo/iterator/grib_iterator_class_gaussian_reduced.h
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0
src/geo_iterator/grib_iterator_class_gen.cc → src/geo/iterator/grib_iterator_class_gen.cc
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0
src/geo_iterator/grib_iterator_class_gen.h → src/geo/iterator/grib_iterator_class_gen.h
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0
src/geo_iterator/grib_iterator_class_healpix.cc → src/geo/iterator/grib_iterator_class_healpix.cc
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0
src/geo_iterator/grib_iterator_class_healpix.h → src/geo/iterator/grib_iterator_class_healpix.h
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0
src/geo_iterator/grib_iterator_class_lambert_azimuthal_equal_area.cc → src/geo/iterator/grib_iterator_class_lambert_azimuthal_equal_area.cc
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0
src/geo_iterator/grib_iterator_class_lambert_azimuthal_equal_area.h → src/geo/iterator/grib_iterator_class_lambert_azimuthal_equal_area.h
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0
src/geo_iterator/grib_iterator_class_lambert_conformal.cc → src/geo/iterator/grib_iterator_class_lambert_conformal.cc
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0
src/geo_iterator/grib_iterator_class_lambert_conformal.h → src/geo/iterator/grib_iterator_class_lambert_conformal.h
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0
src/geo_iterator/grib_iterator_class_latlon.cc → src/geo/iterator/grib_iterator_class_latlon.cc
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0
src/geo_iterator/grib_iterator_class_latlon.h → src/geo/iterator/grib_iterator_class_latlon.h
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0
src/geo_iterator/grib_iterator_class_latlon_reduced.cc → src/geo/iterator/grib_iterator_class_latlon_reduced.cc
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0
src/geo_iterator/grib_iterator_class_latlon_reduced.h → src/geo/iterator/grib_iterator_class_latlon_reduced.h
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0
src/geo_iterator/grib_iterator_class_mercator.cc → src/geo/iterator/grib_iterator_class_mercator.cc
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0
src/geo_iterator/grib_iterator_class_mercator.h → src/geo/iterator/grib_iterator_class_mercator.h
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0
src/geo_iterator/grib_iterator_class_polar_stereographic.cc → src/geo/iterator/grib_iterator_class_polar_stereographic.cc
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0
src/geo_iterator/grib_iterator_class_polar_stereographic.h → src/geo/iterator/grib_iterator_class_polar_stereographic.h
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0
src/geo_iterator/grib_iterator_class_regular.cc → src/geo/iterator/grib_iterator_class_regular.cc
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0
src/geo_iterator/grib_iterator_class_regular.h → src/geo/iterator/grib_iterator_class_regular.h
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0
src/geo_iterator/grib_iterator_class_space_view.cc → src/geo/iterator/grib_iterator_class_space_view.cc
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0
src/geo_iterator/grib_iterator_class_space_view.h → src/geo/iterator/grib_iterator_class_space_view.h
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0
src/geo_iterator/grib_iterator_class_unstructured.cc → src/geo/iterator/grib_iterator_class_unstructured.cc
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0
src/geo_iterator/grib_iterator_class_unstructured.h → src/geo/iterator/grib_iterator_class_unstructured.h
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0
src/geo_nearest/grib_nearest.cc → src/geo/nearest/grib_nearest.cc
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0
src/geo_nearest/grib_nearest.h → src/geo/nearest/grib_nearest.h
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0
src/geo_nearest/grib_nearest_class_gen.cc → src/geo/nearest/grib_nearest_class_gen.cc
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0
src/geo_nearest/grib_nearest_class_gen.h → src/geo/nearest/grib_nearest_class_gen.h
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