コード例 #1
0
   def copyCommonData(self):

      SLFn = SELAFIN('')
      #   Meta data
      SLFn.TITLE = self.slf.TITLE
      SLFn.file = self.slf.file
      SLFn.IPARAM = self.slf.IPARAM
      #   Time
      SLFn.DATETIME = self.slf.DATETIME
      SLFn.tags = self.slf.tags
      #   Variables
      SLFn.NBV1 = self.slf.NBV1
      SLFn.VARNAMES = self.slf.VARNAMES
      SLFn.VARUNITS = self.slf.VARUNITS
      SLFn.NBV2 = self.slf.NBV2
      SLFn.CLDNAMES = self.slf.CLDNAMES
      SLFn.CLDUNITS = self.slf.CLDUNITS
      SLFn.NVAR = self.slf.NVAR
      SLFn.VARINDEX = range(self.slf.NVAR)
      #   Unchanged numbers
      SLFn.NPLAN = self.slf.NPLAN
      SLFn.NDP2 = self.slf.NDP2
      SLFn.NDP3 = self.slf.NDP3

      return SLFn
コード例 #2
0
ファイル: partitioning.py プロジェクト: nicogodet/PostTelemac
    def copyCommonData(self):

        SLFn = SELAFIN("")
        #   Meta data
        SLFn.TITLE = self.slf.TITLE
        SLFn.file = self.slf.file
        SLFn.IPARAM = self.slf.IPARAM
        #   Time
        SLFn.DATETIME = self.slf.DATETIME
        SLFn.tags = self.slf.tags
        #   Variables
        SLFn.NBV1 = self.slf.NBV1
        SLFn.VARNAMES = self.slf.VARNAMES
        SLFn.VARUNITS = self.slf.VARUNITS
        SLFn.NBV2 = self.slf.NBV2
        SLFn.CLDNAMES = self.slf.CLDNAMES
        SLFn.CLDUNITS = self.slf.CLDUNITS
        SLFn.NVAR = self.slf.NVAR
        SLFn.VARINDEX = range(self.slf.NVAR)
        #   Unchanged numbers
        SLFn.NPLAN = self.slf.NPLAN
        SLFn.NDP2 = self.slf.NDP2
        SLFn.NDP3 = self.slf.NDP3

        return SLFn
コード例 #3
0
    bnd.fole = {}
    bnd.fole.update({'hook': open(bndFile, 'wb')})
    bnd.fole.update({'name': bndFile})
    bnd.fole.update({'endian': ">"})  # big endian
    bnd.fole.update({'float': ('f', 4)})  # single precision

    # Meta data and variable names
    bnd.TITLE = ''
    bnd.NBV1 = 5
    # /!\ ELEVATION has to be the first variable
    # (for possible vertical re-interpolation within TELEMAC)
    bnd.VARNAMES = ['ELEVATION Z     ', \
                    'VELOCITY U      ','VELOCITY V      ', \
                    'SALINITY        ','TEMPERATURE     ' ]
    bnd.VARUNITS = ['M               ', \
                    'M/S             ','M/S             ', \
                    '                ','                ' ]
    bnd.NVAR = bnd.NBV1
    bnd.VARINDEX = range(bnd.NVAR)

    # Sizes and mesh connectivity
    bnd.NPLAN = slf.NPLAN
    bnd.NDP2 = 2
    bnd.NDP3 = 4
    bnd.NPOIN2 = len(BOR)
    bnd.NPOIN3 = bnd.NPOIN2 * slf.NPLAN
    bnd.IPARAM = [0, 0, 0, 0, 0, 0, bnd.NPLAN, 0, 0, 0]
    bnd.IPOB2 = BOR  # /!\ Note that IPOBO keeps the original numbering
    print '   +> masking and setting connectivity'
    # Set the array that only includes elements of geo.IKLE2 with at least two nodes in BOR
    MASK = geo.IKLE2[np.where(
コード例 #4
0
ファイル: convertToATM.py プロジェクト: ogoe/OpenTelemac
    atmFile = options.args[2]
    atm = SELAFIN('')
    atm.fole = {}
    atm.fole.update({'hook': open(atmFile, 'wb')})
    atm.fole.update({'name': atmFile})
    atm.fole.update({'endian': ">"})  # big endian
    atm.fole.update({'float': ('f', 4)})  # single precision

    # Meta data and variable names
    atm.TITLE = ''
    atm.NBV1 = 4
    atm.VARNAMES = ['SURFACE PRESSURE', \
       'WIND VELOCITY U ','WIND VELOCITY V ', \
       'AIR TEMPERATURE ']
    atm.VARUNITS = ['UI              ', \
       'M/S             ','M/S             ', \
       'DEGREES         ']
    atm.NVAR = atm.NBV1
    atm.VARINDEX = range(atm.NVAR)

    # Sizes and mesh connectivity
    atm.NPLAN = slf.NPLAN  # it should be 2D but why the heack not ...
    atm.NDP2 = slf.NDP2
    atm.NDP3 = slf.NDP3
    atm.NPOIN2 = geo.NPOIN2
    atm.NPOIN3 = geo.NPOIN2 * atm.NPLAN
    atm.NELEM2 = geo.NELEM2

    print '   +> setting connectivity'
    if atm.NPLAN > 1:
        atm.NELEM3 = geo.NELEM2 * (atm.NPLAN - 1)