Ejemplo n.º 1
0
def plot_all(inputs):
    """
    Plot all of the datapoints for all of the output files using pyNAMEplot
    :param inputs: running args
    :return:
    """

    rundir = inputs['outputdir']

    # Parse input params into plot options
    plotoptions = {'station': (inputs['longitude'], inputs['latitude'])}

    plotoptions['outdir'] = os.path.join(rundir, "plots")

    files = glob.glob(os.path.join(rundir, 'outputs', '*_group*.txt'))
    if len(files) == 0:
        raise Exception(
            "Unable to find any output files to plot. File names must be named '*_group*.txt'"
        )

    print("Plot options: %s" % plotoptions)

    for filename in os.listdir(os.path.join(rundir, 'outputs')):
        if '_group' in filename and filename.endswith('.txt'):
            n = Name(os.path.join(rundir, 'outputs', filename))
            for column in n.timestamps:
                plotoptions['outfile'] = "name_%s_%s_%s_%sdayback_%sm.png" % (
                    inputs['title'],
                    filename.split('_')[0], column.split(' ')[1].replace(
                        ':', ''), inputs['time'], inputs['elevation_out'])
                try:
                    drawMap(n, column, **plotoptions)
                except:
                    print("Failed to plot %s" % column)

    return
Ejemplo n.º 2
0
def run_name(params, response):
    """
    This is the function to actually run NAME
    :param params: input parameters
    :param response: the WPS response object
    :return: names of the output dir and zipped file
    """

    # Remove any unsafe characters
    params['title'] = clean_title(params['title'])

    runtype = 'FWD'
    if params['runBackwards']:
        runtype = 'BCK'

    jasconfigs = getjasminconfigs()

    runtime = datetime.strftime(datetime.now(), '%s')
    params['runid'] = '{}{}_{}_{}_{}'.format(runtype, params['time'],
                                             params['timestamp'],
                                             params['title'], runtime)

    params['outputdir'] = os.path.join(jasconfigs.get('jasmin', 'outputdir'),
                                       params['runid'])

    if not os.path.exists(params['outputdir']):
        os.makedirs(params['outputdir'])
        os.makedirs(os.path.join(params['outputdir'], 'inputs'))
        os.makedirs(os.path.join(params['outputdir'], 'outputs'))
        os.makedirs(os.path.join(params['outputdir'], 'lotus'))

    # Will write a file that lists all the input parameters
    with open(os.path.join(params['outputdir'], 'user_input_parameters.txt'),
              'w') as ins:
        for p in sorted(params):
            if p == 'outputdir':
                continue
            ins.write('%s: %s\n' % (p, params[p]))

    # Will loop through all the dates in range, including the final day
    for i, cur_date in enumerate(
            daterange(params['startdate'],
                      params['enddate'] + timedelta(days=1))):
        os.makedirs(
            os.path.join(params['outputdir'], 'met_data',
                         'input{}'.format(i + 1)))
        with open(
                os.path.join(params['outputdir'], 'inputs',
                             'input{}.txt'.format(i + 1)), 'w') as fout:
            fout.write(generate_inputfile(params, cur_date, i + 1))

    with open(os.path.join(params['outputdir'], 'script.bsub'), 'w') as fout:
        fout.write(write_file(params, i + 1))

    response.update_status('Input files created', 10)

    cat = subprocess.Popen(
        ['cat', os.path.join(params['outputdir'], 'script.bsub')],
        stdout=subprocess.PIPE)
    runbsub = subprocess.Popen('bsub',
                               stdout=subprocess.PIPE,
                               stderr=subprocess.PIPE,
                               stdin=cat.stdout)
    sout, serr = runbsub.communicate()
    jobid = sout.split(b' ')[1].replace(b'>', b'').replace(b'<', b'')
    jobrunning = True
    while jobrunning:
        time.sleep(30)
        checkjob = subprocess.check_output('bjobs')
        if jobid in checkjob:
            print('Job %s is still running' % jobid)
            processesrunning = 0
            for l in checkjob.split(b'\n'):
                if jobid in l:
                    processesrunning += 1
            percentcomplete = ((
                (i + 1) - processesrunning) / float(i + 1)) * 85
            response.update_status('Running NAME', 10 + percentcomplete)
        else:
            jobrunning = False

    response.update_status('NAME simulation finished', 95)

    outputs = os.path.join(params['outputdir'], 'outputs')
    # Sum all of the output files and plot them on one plot
    s = Sum(outputs)
    s.sumAll()
    plot_filename = '{}_{}_summed_all.png'.format(s.runname,
                                                  s.altitude.strip('()'))
    plot_path = os.path.join(outputs, plot_filename)
    drawMap(s, 'total', outfile=plot_path)

    # Zip all the output files into one directory to be served back to the user
    zipped_path = os.path.join(params['outputdir'], params['runid'])
    shutil.make_archive(zipped_path, 'zip',
                        os.path.join(params['outputdir'], 'outputs'))

    return params['runid'], zipped_path, plot_path
Ejemplo n.º 3
0
def run_name(params, response):
    """
    This is the function to actually run NAME
    :param params: input parameters
    :param response: the WPS response object
    :return: names of the output dir and zipped file
    """

    # replace any white space in title with underscores
    params['title'] = params['title'].replace(' ', '_')
    params['title'] = params['title'].replace(',', '')
    params['title'] = params['title'].replace('(', '')
    params['title'] = params['title'].replace(')', '')

    runtype = "FWD"
    if params['runBackwards']:
        runtype = "BCK"

    jasconfigs = getjasminconfigs()

    runtime = datetime.strftime(datetime.now(), "%s")
    params['runid'] = "{}{}_{}_{}_{}".format(runtype, params['time'],
                                             params['timestamp'],
                                             params['title'], runtime)

    params['outputdir'] = os.path.join(jasconfigs.get('jasmin', 'outputdir'),
                                       params['runid'])

    if not os.path.exists(params['outputdir']):
        os.makedirs(params['outputdir'])
        os.makedirs(os.path.join(params['outputdir'], 'inputs'))
        os.makedirs(os.path.join(params['outputdir'], 'outputs'))

    # Will write a file that lists all the input parameters
    with open(os.path.join(params['outputdir'], 'user_input_parameters.txt'),
              'w') as ins:
        for p in sorted(params):
            if p == 'outputdir':
                continue
            ins.write("%s: %s\n" % (p, params[p]))

    # Will loop through all the dates in range, including the final day
    for i, cur_date in enumerate(
            daterange(params['startdate'],
                      params['enddate'] + timedelta(days=1))):
        os.makedirs(
            os.path.join(params['outputdir'], 'met_data',
                         "input{}".format(i + 1)))
        with open(
                os.path.join(params['outputdir'], "inputs",
                             "input{}.txt".format(i + 1)), 'w') as fout:
            fout.write(generate_inputfile(params, cur_date, i + 1))

    with open(os.path.join(params['outputdir'], 'script.bsub'), 'w') as fout:
        fout.write(write_file(params, i + 1))

    response.update_status("Input files created", 10)

    # TODO: We'll insert the commands to run NAME here.
    # cat = subprocess.Popen(['cat', os.path.join(params['outputdir'], 'script.bsub')], stdout=subprocess.PIPE)
    # runbsub = subprocess.Popen('bsub', stdout=subprocess.PIPE, stderr=subprocess.PIPE, stdin=cat.stdout)
    # sout, serr = runbsub.communicate()
    # jobid = sout.split(' ')[1].replace('>', '').replace('<', '')
    # jobrunning = True
    # while jobrunning:
    #     time.sleep(30)
    #     checkjob = subprocess.check_output('bjobs')
    #     if jobid in checkjob:
    #         print("Job %s is still running" % jobid)
    #           processesrunning = 0
    #           for l in checkjob.split('\n'):
    #               if jobid in l:
    #                   processesrunning += 1
    #           percentcomplete = (((i+1)-processesrunning)/float(i+1))*85
    #           response.update_status("Running NAME", 10+percentcomplete)
    #     else:
    #         jobrunning = False

    response.update_status("NAME simulation finished", 95)

    # TODO: Need to replace this with an actual result file
    fakefile = os.path.join(jasconfigs.get('jasmin', 'outputdir'),
                            '20171101_output.txt')

    n = Name(fakefile)
    mapfile = "ExamplePlot.png"
    drawMap(n, n.timestamps[0], outfile=mapfile)

    # Zip all the output files into one directory to be served back to the user.
    zippedfile = params['runid']
    shutil.make_archive(zippedfile, 'zip', params['outputdir'])

    return params['runid'], zippedfile, mapfile
Ejemplo n.º 4
0
    def _handler(self, request, response):

        jasconfigs = getjasminconfigs()
        rundir = os.path.join(jasconfigs.get('jasmin', 'outputdir'),
                              request.inputs['filelocation'][0].data)
        LOGGER.debug('Working Directory for plots: %s' % rundir)

        # Parse NAME run input params
        inputs = {}
        with open(os.path.join(rundir, 'user_input_parameters.txt'),
                  'r') as ins:
            for l in ins:
                data = l.rstrip().split(': ')
                inputs[data[0]] = data[1]

        # Throw manually with temporary bbox solution
        if request.inputs['min_lon'][0].data < -180:
            raise InvalidParameterValue(
                'Bounding box minimum longitude input cannot be below -180')
        if request.inputs['max_lon'][0].data > 180:
            raise InvalidParameterValue(
                'Bounding box maximum longitude input cannot be above 180')
        if request.inputs['min_lat'][0].data < -90:
            raise InvalidParameterValue(
                'Bounding box minimum latitude input cannot be below -90')
        if request.inputs['max_lat'][0].data > 90:
            raise InvalidParameterValue(
                'Bounding box minimum latitude input cannot be above 90')

        # Parse input params into plot options
        plotoptions = {}
        # When using bbox:
        # plotoptions['lon_bounds'] = (int(float(request.inputs['domain'][0].data[1])), int(float(request.inputs['domain'][0].data[3])))
        # plotoptions['lat_bounds'] = (int(float(request.inputs['domain'][0].data[0])), int(float(request.inputs['domain'][0].data[2])))
        # When using temporary bbox solution
        plotoptions['lon_bounds'] = (int(request.inputs['min_lon'][0].data),
                                     int(request.inputs['max_lon'][0].data))
        plotoptions['lat_bounds'] = (int(request.inputs['min_lat'][0].data),
                                     int(request.inputs['max_lat'][0].data))

        plotoptions['outdir'] = os.path.join(
            rundir, 'plots_{}'.format(datetime.strftime(datetime.now(), '%s')))
        for p in request.inputs:
            # When using bbox
            # if p == 'timestamp' or p == 'filelocation' or p == 'summarise' or p == 'domain':
            # When using temporary bbox solution
            if p == 'timestamp' or p == 'filelocation' or p == 'summarise' or p == 'min_lon' or p == 'max_lon' or p == 'min_lat' or p == 'max_lat':
                continue
            elif p == 'scale':
                statcoords = request.inputs[p][0].data.split(',')
                plotoptions[p] = (float(statcoords[0].strip()),
                                  float(statcoords[1].strip()))
            elif p == 'station' and request.inputs[p][0].data == True:
                plotoptions[p] = (float(inputs['longitude']),
                                  float(inputs['latitude']))
            else:
                plotoptions[p] = request.inputs[p][0].data

        files = glob.glob(os.path.join(rundir, 'outputs', '*_group*.txt'))
        if len(files) == 0:
            raise InvalidParameterValue(
                'Unable to find any output files. File names must be named "*_group*.txt"'
            )

        if 'timestamp' in request.inputs:
            request.inputs['summarise'][0].data = 'NA'

        LOGGER.debug('Plot options: %s' % plotoptions)

        response.update_status('Processed plot parameters', 5)

        tot_plots = get_num_dates(start=datetime.date(
            parse(inputs['startdate'])),
                                  end=datetime.date(parse(inputs['enddate'])),
                                  sum=request.inputs['summarise'][0].data,
                                  type=inputs['timestamp'])

        # We need to find all the groups and loop through them one at a time!
        groups = {}
        for filename in os.listdir(os.path.join(rundir, 'outputs')):
            if not filename.endswith('txt'):
                continue
            groupnum = filename[14]
            try:
                groupnum = int(groupnum)
            except:
                raise Exception('Cannot identify groupnumber %s' % groupnum)

            if groupnum in groups:
                shutil.copy(os.path.join(rundir, 'outputs', filename),
                            groups[groupnum])
            else:
                groups[groupnum] = tempfile.mkdtemp()
                shutil.copy(os.path.join(rundir, 'outputs', filename),
                            groups[groupnum])

        ngroups = len(groups)
        tot_plots = tot_plots * ngroups
        plots_made = 0

        response.update_status('Plotting', 10)

        oldper = 10

        for groupnum, tmpdir in sorted(groups.items()):
            if request.inputs['summarise'][0].data != 'NA':
                s = Sum(tmpdir)

            if request.inputs['summarise'][0].data == 'week':
                for week in range(1, 53):
                    s.sumWeek(week)
                    if len(s.files) == 0:
                        LOGGER.debug('No files found for week %s' % week)
                        continue
                    plotoptions[
                        'caption'] = '{} {} {} {}: {} week {} sum (UTC)'.format(
                            s.runname, s.averaging, s.altitude, s.direction,
                            s.year, week)
                    plotoptions['outfile'] = '{}_{}_{}_{}_weekly.png'.format(
                        s.runname, s.altitude.strip('()'), s.year, week)
                    try:
                        drawMap(s, 'total', **plotoptions)
                        LOGGER.debug('Plotted %s' % plotoptions['outfile'])
                    except:
                        LOGGER.error('Failed to plot %s' %
                                     plotoptions['outfile'])
                    plots_made += 1
                    newper = 10 + int((plots_made / float(tot_plots)) * 85)
                    if oldper != newper:
                        response.update_status('Plotting', newper)
                        oldper = newper

            elif request.inputs['summarise'][0].data == 'month':
                for month in range(1, 13):
                    s.sumMonth(str(month))
                    if len(s.files) == 0:
                        LOGGER.debug('No files found for month %s' % month)
                        continue
                    plotoptions[
                        'caption'] = '{} {} {} {}: {} {} sum (UTC)'.format(
                            s.runname, s.averaging, s.altitude, s.direction,
                            s.year, calendar.month_name[month])
                    plotoptions['outfile'] = '{}_{}_{}_{}_monthly.png'.format(
                        s.runname, s.altitude.strip('()'), s.year, month)
                    try:
                        drawMap(s, 'total', **plotoptions)
                        LOGGER.debug('Plotted %s' % plotoptions['outfile'])
                    except:
                        LOGGER.error('Failed to plot %s' %
                                     plotoptions['outfile'])
                    plots_made += 1
                    newper = 10 + int((plots_made / float(tot_plots)) * 85)
                    if oldper != newper:
                        response.update_status('Plotting', newper)
                        oldper = newper

            elif request.inputs['summarise'][0].data == 'all':
                s.sumAll()
                plotoptions['caption'] = '{} {} {} {}: Summed (UTC)'.format(
                    s.runname, s.averaging, s.altitude, s.direction)
                plotoptions['outfile'] = '{}_{}_summed_all.png'.format(
                    s.runname, s.altitude.strip('()'))  #TODO: Copy to plot all
                #TODO: Fix: Currently all levels plotted with same name and overwritten, bug?
                # Happening because of: https://github.com/TeriForey/pyNAMEplot/blob/master/pynameplot/namereader/name.py#L151
                # Is is this correct or an assumption?
                # If correct then maybe text input should be a string list
                try:
                    drawMap(s, 'total', **plotoptions)
                    LOGGER.debug('Plotted %s' % plotoptions['outfile'])
                except:
                    LOGGER.error('Failed to plot %s' % plotoptions['outfile'])
                plots_made += 1
                newper = 10 + int((plots_made / float(tot_plots)) * 85)
                if oldper != newper:
                    response.update_status('Plotting', newper)
                    oldper = newper
            else:
                for filename in os.listdir(tmpdir):
                    if '_group' in filename and filename.endswith('.txt'):
                        if request.inputs['summarise'][0].data == 'day':
                            #s = Sum(tmpdir)
                            date = util.shortname(filename)
                            s.sumDay(date)
                            plotoptions[
                                'caption'] = '{} {} {} {}: {}{}{} day sum (UTC)'.format(
                                    s.runname, s.averaging, s.altitude,
                                    s.direction, s.year, s.month, s.day)
                            plotoptions[
                                'outfile'] = '{}_{}_{}{}{}_daily.png'.format(
                                    s.runname, s.altitude.strip('()'), s.year,
                                    s.month, s.day)
                            try:
                                drawMap(s, 'total', **plotoptions)
                                LOGGER.debug('Plotted %s' %
                                             plotoptions['outfile'])
                            except:
                                LOGGER.error('Failed to plot %s' %
                                             plotoptions['outfile'])
                            plots_made += 1
                            newper = 10 + int(
                                (plots_made / float(tot_plots)) * 85)
                            if oldper != newper:
                                response.update_status('Plotting', newper)
                                oldper = newper
                        elif request.inputs['summarise'][0].data == 'NA':
                            n = Name(os.path.join(tmpdir, filename))
                            if 'timestamp' in request.inputs:
                                timestamp = datetime.strftime(
                                    request.inputs['timestamp'][0].data,
                                    '%d/%m/%Y %H:%M UTC')
                                LOGGER.debug('Reformatted time: %s' %
                                             timestamp)
                                if timestamp in n.timestamps:
                                    try:
                                        drawMap(n, timestamp, **plotoptions)
                                        LOGGER.debug('Plotted %s' % timestamp)
                                    except:
                                        LOGGER.error('Failed to plot %s' %
                                                     timestamp)
                                    plots_made += 1
                                    newper = 10 + int(
                                        (plots_made / float(tot_plots)) * 85)
                                    if oldper != newper:
                                        response.update_status(
                                            'Plotting', newper)
                                        oldper = newper
                                    break
                            else:
                                for column in n.timestamps:
                                    try:
                                        drawMap(n, column, **plotoptions)
                                        LOGGER.debug('Plotted %s' % column)
                                    except:
                                        LOGGER.error('Failed to plot %s' %
                                                     column)
                                    plots_made += 1
                                    newper = 10 + int(
                                        (plots_made / float(tot_plots)) * 85)
                                    if oldper != newper:
                                        response.update_status(
                                            'Plotting', newper)
                                        oldper = newper

            # Finished plotting so will now delete temp directory
            shutil.rmtree(tmpdir)

        # Outputting different response based on the number of plots generated
        response.update_status('Formatting output', 95)
        if not os.path.exists(plotoptions['outdir']):
            LOGGER.debug('Did not create any plots')
            response.outputs['FileContents'].data_format = FORMATS.TEXT
            response.outputs[
                'FileContents'].data = 'No plots created, check input options'
        else:
            if len(os.listdir(plotoptions['outdir'])) == 1:
                LOGGER.debug('Only one output plot')
                response.outputs['FileContents'].data_format = Format(
                    'image/png')
                response.outputs['FileContents'].file = os.path.join(
                    plotoptions['outdir'],
                    os.listdir(plotoptions['outdir'])[0])
            else:
                zippedfile = '{}_plots'.format(
                    request.inputs['filelocation'][0].data)
                shutil.make_archive(zippedfile, 'zip', plotoptions['outdir'])
                LOGGER.debug('Zipped file: %s (%s bytes)' %
                             (zippedfile + '.zip',
                              os.path.getsize(zippedfile + '.zip')))
                response.outputs['FileContents'].data_format = FORMATS.SHP
                response.outputs['FileContents'].file = zippedfile + '.zip'

        response.update_status('done', 100)
        return response
Ejemplo n.º 5
0
    def _handler(self, request, response):

        jasconfigs = getjasminconfigs()
        rundir = os.path.join(jasconfigs.get('jasmin', 'outputdir'),
                              request.inputs['filelocation'][0].data)
        LOGGER.debug("Working Directory for plots: %s" % rundir)

        # Parse NAME run input params
        inputs = {}
        with open(os.path.join(rundir, 'user_input_parameters.txt'),
                  'r') as ins:
            for l in ins:
                data = l.rstrip().split(': ')
                inputs[data[0]] = data[1]

        # Parse input params into plot options
        plotoptions = {}
        plotoptions['outdir'] = os.path.join(
            rundir, "plots_{}".format(datetime.strftime(datetime.now(), "%s")))
        for p in request.inputs:
            if p == "timestamp" or p == "filelocation" or p == "summarise":
                continue
            elif p == 'lon_bounds' or p == 'lat_bounds':
                statcoords = request.inputs[p][0].data.split(',')
                plotoptions[p] = (int(statcoords[0].strip()),
                                  int(statcoords[1].strip()))
            elif p == 'scale':
                statcoords = request.inputs[p][0].data.split(',')
                plotoptions[p] = (float(statcoords[0].strip()),
                                  float(statcoords[1].strip()))
            elif p == "station" and request.inputs[p][0].data == True:
                plotoptions[p] = (float(inputs['longitude']),
                                  float(inputs['latitude']))
            else:
                plotoptions[p] = request.inputs[p][0].data

        files = glob.glob(os.path.join(rundir, 'outputs', '*_group*.txt'))
        if len(files) == 0:
            raise InvalidParameterValue(
                "Unable to find any output files. File names must be named '*_group*.txt'"
            )

        if 'timestamp' in request.inputs:
            request.inputs['summarise'][0].data = 'NA'

        LOGGER.debug("Plot options: %s" % plotoptions)

        response.update_status("Processed plot parameters", 5)

        tot_plots = get_num_dates(
            start=datetime.strptime(inputs['startdate'], "%Y-%m-%d"),
            end=datetime.strptime(inputs['enddate'], "%Y-%m-%d"),
            sum=request.inputs['summarise'][0].data,
            type=inputs['timestamp'])

        # We need to find all the groups and loop through them one at a time!
        groups = {}
        for filename in os.listdir(os.path.join(rundir, 'outputs')):
            groupnum = filename[14]
            try:
                groupnum = int(groupnum)
            except:
                raise Exception("Cannot identify groupnumber %s" % groupnum)

            if groupnum in groups:
                shutil.copy(os.path.join(rundir, 'outputs', filename),
                            groups[groupnum])
            else:
                groups[groupnum] = tempfile.mkdtemp()
                shutil.copy(os.path.join(rundir, 'outputs', filename),
                            groups[groupnum])

        ngroups = len(groups)
        tot_plots = tot_plots * ngroups
        plots_made = 0

        response.update_status("Plotting", 10)

        oldper = 10

        for groupnum, tmpdir in sorted(groups.items()):
            if request.inputs['summarise'][0].data != 'NA':
                s = Sum(tmpdir)

            if request.inputs['summarise'][0].data == 'week':
                for week in range(1, 53):
                    s.sumWeek(week)
                    if len(s.files) == 0:
                        LOGGER.debug("No files found for week %s" % week)
                        continue
                    plotoptions[
                        'caption'] = "{} {} {} {}: {} week {} sum (UTC)".format(
                            s.runname, s.averaging, s.altitude, s.direction,
                            s.year, week)
                    plotoptions['outfile'] = "{}_{}_{}_{}_weekly.png".format(
                        s.runname, s.altitude.strip('()'), s.year, week)
                    try:
                        drawMap(s, 'total', **plotoptions)
                        LOGGER.debug("Plotted %s" % plotoptions['outfile'])
                    except:
                        LOGGER.error("Failed to plot %s" %
                                     plotoptions['outfile'])
                    plots_made += 1
                    newper = 10 + int((plots_made / float(tot_plots)) * 85)
                    if oldper != newper:
                        response.update_status("Plotting", newper)
                        oldper = newper

            elif request.inputs['summarise'][0].data == 'month':
                for month in range(1, 13):
                    s.sumMonth(str(month))
                    if len(s.files) == 0:
                        LOGGER.debug("No files found for month %s" % month)
                        continue
                    plotoptions[
                        'caption'] = "{} {} {} {}: {} {} sum (UTC)".format(
                            s.runname, s.averaging, s.altitude, s.direction,
                            s.year, calendar.month_name[month])
                    plotoptions['outfile'] = "{}_{}_{}_{}_monthly.png".format(
                        s.runname, s.altitude.strip('()'), s.year, month)
                    try:
                        drawMap(s, 'total', **plotoptions)
                        LOGGER.debug("Plotted %s" % plotoptions['outfile'])
                    except:
                        LOGGER.error("Failed to plot %s" %
                                     plotoptions['outfile'])
                    plots_made += 1
                    newper = 10 + int((plots_made / float(tot_plots)) * 85)
                    if oldper != newper:
                        response.update_status("Plotting", newper)
                        oldper = newper

            elif request.inputs['summarise'][0].data == 'all':
                s.sumAll()
                plotoptions['caption'] = "{} {} {} {}: Summed (UTC)".format(
                    s.runname, s.averaging, s.altitude, s.direction)
                plotoptions['outfile'] = "{}_{}_summed_all.png".format(
                    s.runname, s.altitude.strip('()'))
                try:
                    drawMap(s, 'total', **plotoptions)
                    LOGGER.debug("Plotted %s" % plotoptions['outfile'])
                except:
                    LOGGER.error("Failed to plot %s" % plotoptions['outfile'])
                plots_made += 1
                newper = 10 + int((plots_made / float(tot_plots)) * 85)
                if oldper != newper:
                    response.update_status("Plotting", newper)
                    oldper = newper
            else:
                for filename in os.listdir(tmpdir):
                    if '_group' in filename and filename.endswith('.txt'):
                        if request.inputs['summarise'][0].data == 'day':
                            #s = Sum(tmpdir)
                            date = util.shortname(filename)
                            s.sumDay(date)
                            plotoptions[
                                'caption'] = "{} {} {} {}: {}{}{} day sum (UTC)".format(
                                    s.runname, s.averaging, s.altitude,
                                    s.direction, s.year, s.month, s.day)
                            plotoptions[
                                'outfile'] = "{}_{}_{}{}{}_daily.png".format(
                                    s.runname, s.altitude.strip('()'), s.year,
                                    s.month, s.day)
                            try:
                                drawMap(s, 'total', **plotoptions)
                                LOGGER.debug("Plotted %s" %
                                             plotoptions['outfile'])
                            except:
                                LOGGER.error("Failed to plot %s" %
                                             plotoptions['outfile'])
                            plots_made += 1
                            newper = 10 + int(
                                (plots_made / float(tot_plots)) * 85)
                            if oldper != newper:
                                response.update_status("Plotting", newper)
                                oldper = newper
                        elif request.inputs['summarise'][0].data == 'NA':
                            n = Name(os.path.join(tmpdir, filename))
                            if 'timestamp' in request.inputs:
                                timestamp = datetime.strftime(
                                    request.inputs['timestamp'][0].data,
                                    "%d/%m/%Y %H:%M UTC")
                                LOGGER.debug("Reformatted time: %s" %
                                             timestamp)
                                if timestamp in n.timestamps:
                                    try:
                                        drawMap(n, timestamp, **plotoptions)
                                        LOGGER.debug("Plotted %s" % timestamp)
                                    except:
                                        LOGGER.error("Failed to plot %s" %
                                                     timestamp)
                                    plots_made += 1
                                    newper = 10 + int(
                                        (plots_made / float(tot_plots)) * 85)
                                    if oldper != newper:
                                        response.update_status(
                                            "Plotting", newper)
                                        oldper = newper
                                    break
                            else:
                                for column in n.timestamps:
                                    try:
                                        drawMap(n, column, **plotoptions)
                                        LOGGER.debug("Plotted %s" % column)
                                    except:
                                        LOGGER.error("Failed to plot %s" %
                                                     column)
                                    plots_made += 1
                                    newper = 10 + int(
                                        (plots_made / float(tot_plots)) * 85)
                                    if oldper != newper:
                                        response.update_status(
                                            "Plotting", newper)
                                        oldper = newper

            # Finished plotting so will now delete temp directory
            shutil.rmtree(tmpdir)

        # Outputting different response based on the number of plots generated
        response.update_status("Formatting output", 95)
        if not os.path.exists(plotoptions['outdir']):
            LOGGER.debug("Did not create any plots")
            response.outputs['FileContents'].data_format = FORMATS.TEXT
            response.outputs[
                'FileContents'].data = "No plots created, check input options"
        else:
            if len(os.listdir(plotoptions['outdir'])) == 1:
                LOGGER.debug("Only one output plot")
                response.outputs['FileContents'].data_format = Format(
                    'image/png')
                response.outputs['FileContents'].file = os.path.join(
                    plotoptions['outdir'],
                    os.listdir(plotoptions['outdir'])[0])
            else:
                zippedfile = "{}_plots".format(
                    request.inputs['filelocation'][0].data)
                shutil.make_archive(zippedfile, 'zip', plotoptions['outdir'])
                LOGGER.debug("Zipped file: %s (%s bytes)" %
                             (zippedfile + '.zip',
                              os.path.getsize(zippedfile + '.zip')))
                response.outputs['FileContents'].data_format = FORMATS.SHP
                response.outputs['FileContents'].file = zippedfile + '.zip'

        response.update_status("done", 100)
        return response