Exemplo n.º 1
0
    def __variables(self, proc_spc):
        if proc_spc == 'TFLAG':
            time = self.variables['TIME_%s' %
                                  char.decode(self.spcnames)[0][1].strip()]
            date = self.variables['DATE_%s' %
                                  char.decode(self.spcnames[0])[1].strip()]
            tmpvals = ConvertCAMxTime(date[:, 0, 0, 0],
                                      time[:, 0, 0, 0],
                                      len(self.dimensions['VAR']))
            tmpvar = pncvar(self, 'proc_spc', 'i',
                            ('TSTEP', 'VAR', 'DATE-TIME'),
                            values=tmpvals)
            self.variables['TFLAG'] = tmpvar
            return self.variables['TFLAG']

        self.variables.clear()

        spcstrs = char.decode(self.spcnames['SPECIES']).tolist()
        for k in self.proc_dict:
            proc = proc_spc[:len(k)]
            spc = proc_spc[len(k) + 1:]
            if proc == k and spc.ljust(10) in spcstrs:
                spcprocs = self.__readalltime(spc)
                for p, plong in self.proc_dict.items():
                    var_name = p + '_' + spc
                    # IPR units are consistent with 'IPR'
                    if p == 'UCNV':
                        units = 'm**3/mol'
                    elif p == 'AVOL':
                        units = 'm**3'
                    else:
                        units = get_uamiv_units('IPR', spc)
                    tmpvar = pncvar(self, var_name, 'f',
                                    ('TSTEP', 'LAY', 'ROW', 'COL'),
                                    values=spcprocs[p],
                                    units=units,
                                    var_desc=var_name.ljust(16),
                                    long_name=var_name.ljust(16))
                    self.variables[var_name] = tmpvar
                del spcprocs
                return self.variables[proc_spc]
        raise KeyError("Bad!")
Exemplo n.º 2
0
    def __readheader(self):
        """
        __readheader reads the header section of the ipr file
        it initializes each header field (see CAMx Users Manual for a list)
        as properties of the ipr class
        """

        self.runmessage = self.__rffile.read("80s")
        self.start_date, self.start_time, self.end_date, self.end_time = \
            self.__rffile.read("ifif")

        self.grids = []
        for grid in range(self.__rffile.read("i")[-1]):
            self.grids.append(
                dict(
                    zip(['orgx', 'orgy', 'ncol', 'nrow', 'xsize', 'ysize'],
                        self.__rffile.read("iiiiii"))))

        self.spcnames = []
        for spc in range(self.__rffile.read("i")[-1]):
            self.spcnames.append(
                char.decode(self.__rffile.read("10s")[-1]).strip())

        self.nspec = len(self.spcnames)
        self.padomains = []

        for padomain in range(self.__rffile.read("i")[-1]):
            self.padomains.append(
                dict(
                    zip([
                        'grid', 'istart', 'iend', 'jstart', 'jend', 'blay',
                        'tlay'
                    ], self.__rffile.read("iiiiiii"))))
        self.activedomain = self.padomains[0]
        self.prcnames = []

        for i in range(self.__rffile.read('i')[-1]):
            self.prcnames.append(self.__rffile.read('25s')[-1].strip())

        self.data_start_byte = self.__rffile.record_start
        self.record_fmt = self.id_fmt + str(len(self.prcnames)) + self.data_fmt
        self.record_size = self.__rffile.record_size
        self.SDATE, self.STIME, dummy, dummy, dummy, dummy, dummy, dummy = \
            self.__rffile.read(self.id_fmt)
        self.__rffile.previous()
        self.TSTEP = 100.
        self.padded_size = self.record_size + 8
        domain = self.padomains[0]
        domi = (domain['iend'] - domain['istart'] + 1)
        domj = (domain['jend'] - domain['jstart'] + 1)
        doml = (domain['tlay'] - domain['blay'] + 1)
        self.records_per_time = self.nspec * domi * domj * doml
        self.time_data_block = self.padded_size * self.records_per_time
        self.time_step = 100.
Exemplo n.º 3
0
 def __init__(self,
              rf,
              proc_dict=None,
              units='umol/m**3',
              oldnames=False,
              **props):
     """
     Initialization included reading the header and learning
     about the format.
     
     see __readheader and __gettimestep() for more info
     
     Keywords (i.e., props) for projection: P_ALP, P_BET, P_GAM, XCENT, YCENT, XORIG, YORIG, XCELL, YCELL
     """
     if proc_dict != None:
         self.proc_dict = proc_dict
     else:
         self.proc_dict = None
     self.__rffile = open(rf, 'rb')
     self.__rffile.seek(0, 2)
     if self.__rffile.tell() < 2147483648:
         warn("For greater speed on files <2GB use ipr_memmap")
     self.__rffile.seek(0, 0)
     self.units = units
     self.__readheader()
     self.__setDomain__()
     self.__gettimestep()
     tdim = self.createDimension('TSTEP', self.NSTEPS)
     tdim.setunlimited(True)
     self.createDimension('DATE-TIME', 2)
     self.createDimension('VAR', self.NSPCS * self.NPROCESS)
     varkeys = [
         "_".join([j[1], j[0]]) for j in [
             i for i in cartesian([
                 i.strip()
                 for i in char.decode(self.spcnames['SPECIES']).tolist()
             ], self.proc_dict.keys())
         ]
     ] + ['TFLAG']
     self.variables = PseudoNetCDFVariables(self.__variables, varkeys)
     for k, v in props.items():
         setattr(self, k, v)
     try:
         add_cf_from_ioapi(self)
     except:
         pass
Exemplo n.º 4
0
 def __start(self, ntime, spc):
     nspec = char.decode(
         self.spcnames['SPECIES']).tolist().index(spc.ljust(10))
     return (self.__data_start_byte +
             (int(ntime) * self.__block4d + self.__block3d * nspec) *
             self.__ipr_record_type.itemsize)