Exemplo n.º 1
0
    def parse_sinex(self):

        for sinex in os.listdir(self.pwd_glbf):
            if sinex.endswith('.snx'):
                snx = snxParse.snxFileParser(os.path.join(self.pwd_glbf, sinex))
                snx.parse()
                self.polyhedron     = snx.stationDict
                self.VarianceFactor = snx.varianceFactor

        if self.polyhedron:
            # remame any aliases and change keys to net.stn
            for stn in self.StationInstances:
                # replace the key
                try:
                    self.polyhedron[stationID(stn)] = self.polyhedron.pop(stn.StationAlias.upper())
                except KeyError:
                    # maybe the station didn't have a solution
                    pass
        return self.polyhedron, self.VarianceFactor
Exemplo n.º 2
0
    def __init__(self, expt, org, dataType, dataSrcLable, filePath):

        # call super class constructor for  data object
        DataObj.__init__(self, expt, org, dataType, dataSrcLable, filePath)

        # init sinex parser for current sinex file
        snxParser = snxParse.snxFileParser(filePath).parse()

        # organize the coordinates for the data object
        for stn in snxParser:

            # initialize the station if we haven't seen it before
            if not self.data.has_key(stn):
                self.data[stn] = dict()

            # get the snx data from the parser
            stnData = snxParser.get(stn)

            # pack the data away
            self.data[stn]['xyz'] = [stnData.X, stnData.Y, stnData.Z]
Exemplo n.º 3
0
def main():

    (file, outdir) = get_input_args()

    # get the date from the sinex file
    gpsWeek = int(os.path.basename(file)[3:7])
    gpsWeekDay = int(os.path.basename(file)[7])

    # compute a data from the information
    date = pyDate.Date(gpsweek=gpsWeek, gpsweekday=gpsWeekDay)

    # check outdir
    # if out dir is none then put soln file
    # in same directory as snx files
    if outdir == None: outdir = '.'

    # make full path for solution file
    solnFilePath = os.path.join(outdir, getOutFileName(file))

    # init sinex parser for current sinex file
    snxParser = snxParse.snxFileParser(file).parse()

    # construct npvs and npvs sigma from the sinex data
    npvs, npvs_sigma = npv(snxParser.stationDict)

    # create station list from dictionary keys
    stn_list = snxParser.stationDict.keys()

    # compute epoch in fractional year
    epochs = date.fyear

    #extract the variance factor
    var_factor = snxParser.varianceFactor

    # save as a mat file
    scipy.io.savemat(solnFilePath, mdict={'stnm'      :stn_list   ,  \
                                          'epochs'    :epochs     ,  \
                                          'npvs'      :npvs       ,  \
                                          'npv_sigma' :npvs_sigma ,  \
                                          'var_factor':var_factor},  \
                     oned_as = 'column')
def process_sinex(cnn, project, dates, sinex):

    # parse the SINEX to get the station list
    snx = snxParse.snxFileParser(sinex)
    snx.parse()

    stnlist = ('\'' + '\',\''.join(snx.stationDict.keys()) + '\'').lower()

    # insert the statistical data

    zg = cnn.query_float(
        'SELECT count("Year")*2 as ss FROM gamit_soln '
        'WHERE "Project" = \'%s\' AND "FYear" BETWEEN %.4f AND %.4f AND "StationCode" IN (%s) '
        'GROUP BY "Year", "DOY"' % (project, dates[0].first_epoch('fyear'),
                                    dates[1].last_epoch('fyear'), stnlist))

    zg = sum([s[0] for s in zg])

    zd = cnn.query_float('SELECT count("ZTD") + %i as implicit FROM gamit_ztd '
                         'WHERE "Date" BETWEEN \'%s\' AND \'%s\' ' %
                         (zg, dates[0].first_epoch(), dates[1].last_epoch()))

    zd = zd[0][0]

    print ' >> Adding NUMBER OF UNKNOWNS: %i (previous value: %i)' % (
        zd, snx.unknowns)

    replace_in_sinex(sinex, snx.observations, snx.unknowns,
                     snx.unknowns + zg + zd)

    rs = cnn.query('SELECT "NetworkCode", "StationCode", dome FROM stations '
                   'WHERE "StationCode" IN (%s) '
                   'ORDER BY "NetworkCode", "StationCode"' % stnlist)

    stations = rs.dictresult()

    print ' >> Adding DOMES'
    # add domes
    add_domes(sinex, stations)
Exemplo n.º 5
0
    def parse_sinex(self):

        for sinex in os.listdir(self.pwd_comb):
            if sinex.endswith('.snx'):
                snx = snxParse.snxFileParser(os.path.join(
                    self.pwd_comb, sinex))
                snx.parse()
                self.polyhedron = snx.stationDict
                self.VarianceFactor = snx.varianceFactor

        if self.polyhedron:
            # rename the dict keys to net.stn format (and replace any aliases)
            for GamitSession in self.Sessions:
                for StationInstance in GamitSession.StationInstances:
                    # replace the key
                    try:
                        self.polyhedron[StationInstance.NetworkCode + '.' +
                                        StationInstance.StationCode] = \
                            self.polyhedron.pop(StationInstance.StationAlias.upper())
                    except KeyError:
                        # maybe the station didn't have a solution
                        pass

        return self.polyhedron, self.VarianceFactor
Exemplo n.º 6
0
    def mk_mat(self, snxfile):

        # minimize depencencies if not interested in mat files
        import pyDate
        import snxParse
        import snx2mat
        import scipy.io
        import gzip

        # get the date from the sinex file
        gpsWeek = int(os.path.basename(snxfile)[3:7])
        gpsWeekDay = int(os.path.basename(snxfile)[7])

        # compute a data from the information
        date = pyDate.Date(gpsweek=gpsWeek, gpsweekday=gpsWeekDay)

        # parse the file path in to dir and name
        file_path, file_name = os.path.split(snxfile)

        # create the output file name
        file_name = file_name.split('.')[0]

        # make full path for solution file
        solnFilePath = os.path.join(file_path, file_name)

        # init sinex parser for current sinex file
        snxParser = snxParse.snxFileParser(snxfile).parse()

        # construct npvs and npvs sigma from the sinex data
        npvs, npvs_sigma = snx2mat.npv(snxParser.stationDict)

        # create station list from dictionary keys
        stn_list = snxParser.stationDict.keys()

        # compute epoch in fractional year
        epochs = date.fyear

        #extract the variance factor
        var_factor = snxParser.varianceFactor

        # save as a mat file
        scipy.io.savemat(solnFilePath,
                         mdict={
                             'stnm': stn_list,
                             'epochs': epochs,
                             'npvs': npvs,
                             'npv_sigma': npvs_sigma,
                             'var_factor': var_factor
                         },
                         oned_as='column')

        # if we have a mat file then gzip it
        if os.path.isfile(solnFilePath + '.mat'):

            # gzip the file up with open file handles
            with open(solnFilePath + '.mat', 'rb') as orig_file:
                with gzip.open(solnFilePath + '.mat.gz', 'wb') as zipped_file:
                    zipped_file.writelines(orig_file)

            # clean up
            os.remove(solnFilePath + '.mat')