log.duration(), log.XPos(), log.YPos(), log.ZPos(), log.XVel(), log.YVel(), log.ZVel(), log.comment() ) #print site_id format, if asked for if gipsy_sta_id: #some of these may not exist and hence return None station_name = [log.site_name(), log.loc_city(), log.loc_state(), log.loc_country()] station_name = [s for s in station_name if s is not None] print " %.4s %6d %.60s" % \ ( log.site().upper(), log.sta_number(), ", ".join(station_name) ) #print site vector and antenna type for all entries if gipsy_svec: #get all antenna records antennas = log.antennas() svec_string = [] prev_antenna_installed = None #start putting them together starting from the newest for antenna in reversed(antennas): dt = prev_antenna_installed - antenna['installed'] if prev_antenna_installed is not None else DT.timedelta(seconds=946080000.00)
#print site_id format, if asked for if gipsy_sta_id: #some of these may not exist and hence return None station_name = [ log.site_name(), log.loc_city(), log.loc_state(), log.loc_country() ] station_name = [s for s in station_name if s is not None] print " %.4s %6d %.60s" % \ ( log.site().upper(), log.sta_number(), ", ".join(station_name) ) #print site vector and antenna type for all entries if gipsy_svec: #get all antenna records antennas = log.antennas() svec_string = [] prev_antenna_installed = None #start putting them together starting from the newest for antenna in reversed(antennas): dt = prev_antenna_installed - antenna[ 'installed'] if prev_antenna_installed is not None else DT.timedelta(