v1.4.3.32 DOC: time unit corrected in CemaNeige doc ("day" replaced by "time step")

e60aef64 · Delaigue Olivier · 3199e918 · e60aef64 · e60aef64 · e60aef64
Commit e60aef64 authored Jan 10, 2020 by Delaigue Olivier
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DESCRIPTION DESCRIPTION +2 -2

NEWS.md NEWS.md +1 -1

man/RunModel_CemaNeige.Rd man/RunModel_CemaNeige.Rd +14 -14

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--- a/DESCRIPTION
+++ b/DESCRIPTION
 Package: airGR
 Type: Package
 Title: Suite of GR Hydrological Models for Precipitation-Runoff Modelling
-Version: 1.4.3.31
-Date: 2020-01-07
+Version: 1.4.3.32
+Date: 2020-01-10
 Authors@R: c(
  person("Laurent", "Coron", role = c("aut", "trl"), comment = c(ORCID = "0000-0002-1503-6204")),
  person("Olivier", "Delaigue", role = c("aut", "cre"), comment = c(ORCID = "0000-0002-7668-8468"), email = "airGR@inrae.fr"),

--- a/NEWS.md
+++ b/NEWS.md
@@ -2,7 +2,7 @@



-### 1.4.3.31 Release Notes (2020-01-07)
+### 1.4.3.32 Release Notes (2020-01-10)


 #### New features

--- a/man/RunModel_CemaNeige.Rd
+++ b/man/RunModel_CemaNeige.Rd
@@ -31,20 +31,20 @@ CemaNeige X4 \tab (optional) percentage (between 0 and 1) of annual snowfall def
 \value{
 [list] list containing the function outputs organised as follows:                                         
         \tabular{ll}{
-         \emph{$DatesR}                                    \tab [POSIXlt] series of dates                                    \cr
-         \emph{$CemaNeigeLayers}                           \tab [list] list of CemaNeige outputs (1 list per layer)          \cr
-         \emph{$CemaNeigeLayers[[iLayer]]$Pliq         }   \tab [numeric] series of liquid precip. [mm/d]                    \cr
-         \emph{$CemaNeigeLayers[[iLayer]]$Psol         }   \tab [numeric] series of solid precip. [mm/d]                     \cr
-         \emph{$CemaNeigeLayers[[iLayer]]$SnowPack     }   \tab [numeric] series of snow pack [mm]                           \cr
-         \emph{$CemaNeigeLayers[[iLayer]]$ThermalState }   \tab [numeric] series of snow pack thermal state [°C]             \cr
-         \emph{$CemaNeigeLayers[[iLayer]]$Gratio       }   \tab [numeric] series of Gratio [0-1]                             \cr
-         \emph{$CemaNeigeLayers[[iLayer]]$PotMelt      }   \tab [numeric] series of potential snow melt [mm/d]               \cr
-         \emph{$CemaNeigeLayers[[iLayer]]$Melt         }   \tab [numeric] series of actual snow melt [mm/d]                  \cr
-         \emph{$CemaNeigeLayers[[iLayer]]$PliqAndMelt  }   \tab [numeric] series of liquid precip. + actual snow melt [mm/d] \cr
-         \emph{$CemaNeigeLayers[[iLayer]]$Temp         }   \tab [numeric] series of air temperature [°C]                     \cr
-         \emph{$CemaNeigeLayers[[iLayer]]$Gthreshold   }   \tab [numeric] series of melt threshold [mm]                      \cr
-         \emph{$CemaNeigeLayers[[iLayer]]$Glocalmax    }   \tab [numeric] series of local melt threshold for hysteresis [mm] \cr
-         \emph{$StateEnd}                                  \tab [numeric] states at the end of the run: CemaNeige states [mm & °C], \cr\tab see \code{\link{CreateIniStates}} for more details \cr
+         \emph{$DatesR}                                 \tab [POSIXlt] series of dates                                            \cr
+         \emph{$CemaNeigeLayers}                        \tab [list] list of CemaNeige outputs (1 list per layer)                  \cr
+         \emph{$CemaNeigeLayers[[iLayer]]$Pliq        } \tab [numeric] series of liquid precip. [mm/time step]                    \cr
+         \emph{$CemaNeigeLayers[[iLayer]]$Psol        } \tab [numeric] series of solid precip. [mm/time step]                     \cr
+         \emph{$CemaNeigeLayers[[iLayer]]$SnowPack    } \tab [numeric] series of snow pack [mm]                                   \cr
+         \emph{$CemaNeigeLayers[[iLayer]]$ThermalState} \tab [numeric] series of snow pack thermal state [°C]                     \cr
+         \emph{$CemaNeigeLayers[[iLayer]]$Gratio      } \tab [numeric] series of Gratio [0-1]                                     \cr
+         \emph{$CemaNeigeLayers[[iLayer]]$PotMelt     } \tab [numeric] series of potential snow melt [mm/time step]               \cr
+         \emph{$CemaNeigeLayers[[iLayer]]$Melt        } \tab [numeric] series of actual snow melt [mm/time step]                  \cr
+         \emph{$CemaNeigeLayers[[iLayer]]$PliqAndMelt } \tab [numeric] series of liquid precip. + actual snow melt [mm/time step] \cr
+         \emph{$CemaNeigeLayers[[iLayer]]$Temp        } \tab [numeric] series of air temperature [°C]                             \cr
+         \emph{$CemaNeigeLayers[[iLayer]]$Gthreshold  } \tab [numeric] series of melt threshold [mm]                              \cr
+         \emph{$CemaNeigeLayers[[iLayer]]$Glocalmax   } \tab [numeric] series of local melt threshold for hysteresis [mm]         \cr
+         \emph{$StateEnd}                               \tab [numeric] states at the end of the run: CemaNeige states [mm & °C],  \cr\tab see \code{\link{CreateIniStates}} for more details \cr
         }                                                                                                     
         (refer to the provided references or to the package source code for further details on these model outputs)
 }