Esempio n. 1
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def _prepare_and_down(simName, skipCnt, multiSim, multiDir, newDir):
    try:
        dirName = os.path.join(multiDir, simName)
        simParams = ParamUtils.ReadSimulationParams(
            os.path.join(dirName, 'simParams.conf'))
        volData = ReadCorners(os.path.join(dirName,
                                           simParams['inputDataFile']),
                              path=dirName)['volume_data']
        origTrackData = FilterMHTTracks(
            *ReadTracks(os.path.join(dirName, simParams['simTrackFile'])))
        noisyTrackData = FilterMHTTracks(
            *ReadTracks(os.path.join(dirName, simParams['noisyTrackFile'])))

        DownsampleTracks(skipCnt,
                         simName,
                         simName,
                         simParams,
                         origTrackData,
                         noisyTrackData,
                         volData,
                         path=newDir)

        print("Sim:", simName)
    except Exception as err:
        print(err)
        raise err
Esempio n. 2
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def _analyze_trackings(simName, multiSim, skillNames, trackRuns, multiDir,
                       tag_filters):
    try:
        dirName = os.path.join(multiDir, simName)
        paramFile = os.path.join(dirName, "simParams.conf")
        print("Sim:", simName)
        simParams = ParamUtils.ReadSimulationParams(paramFile)
        tagFile = os.path.join(dirName, simParams['simTagFile'])

        if os.path.exists(tagFile):
            simTags = ParamUtils.ReadConfigFile(tagFile)
        else:
            simTags = None

        analysis = AnalyzeTrackings(simName,
                                    simParams,
                                    skillNames,
                                    trackRuns=trackRuns,
                                    path=multiDir,
                                    tag_filters=tag_filters)
        analysis = analysis.insertaxis(axis=1, label=simName)
    except Exception as err:
        print(err)
        raise err

    # (Skills x Sims x TrackRuns)
    return analysis
Esempio n. 3
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def CommonTrackRuns(simNames, dirName='.'):
    allTrackRuns = []

    for simName in simNames:
        simParams = ParamUtils.ReadSimulationParams(
            os.path.join(dirName, simName, "simParams.conf"))
        allTrackRuns.append(set(simParams['trackers']))

    # Get the intersection of all the sets of trackRuns in each simulation
    return list(set.intersection(*allTrackRuns))
Esempio n. 4
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def main(args) :
    simNames = args.simNames if not args.isMulti else MultiSims2Sims(args.simNames, args.directory)

    trackers = CommonTrackRuns(simNames, args.directory)
    trackRuns = ExpandTrackRuns(trackers, args.trackRuns)

    if not args.listfiles :
        for aRun in trackRuns :
            print(aRun)
    else :
        for simName in simNames :
            simParams = ParamUtils.ReadSimulationParams(os.path.join(args.directory, simName, 'simParams.conf'))
            for aRun in trackRuns :
                print os.path.join(args.directory, simName, simParams['result_file'] + '_' + aRun)
Esempio n. 5
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def _prepare_and_track(simName, trackConfs, multiDir):
    try:
        print "Sim:", simName
        paramFile = os.path.join(multiDir, simName, "simParams.conf")
        simParams = ParamUtils.ReadSimulationParams(paramFile)

        SingleTracking(paramFile,
                       simName,
                       simParams,
                       trackConfs,
                       path=multiDir)
    except Exception as err:
        print err
        raise err
Esempio n. 6
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def main(args) :
    dirName = os.path.join(args.directory, args.simName)
    simParams = ParamUtils.ReadSimulationParams(os.path.join(dirName, 'simParams.conf'))
    volData = ReadCorners(os.path.join(dirName, simParams['inputDataFile']),
                          path=dirName)['volume_data']

    if args.doTracks :
        origTrackData = FilterMHTTracks(*ReadTracks(os.path.join(dirName, simParams['simTrackFile'])))
        noisyTrackData = FilterMHTTracks(*ReadTracks(os.path.join(dirName, simParams['noisyTrackFile'])))

        DownsampleTracks(args.skipCnt, args.simName, args.newName, simParams, volData,
                         origTrackData, noisyTrackData, path=args.directory)
    else :
        DownsampleCorners(args.skipCnt, args.simName, args.newName, simParams,
                          volData, path=args.directory)
Esempio n. 7
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def main(args):
    from ZigZag.ListRuns import ExpandTrackRuns

    dirName = os.path.join(args.directory, args.simName)
    simFile = os.path.join(dirName, "simParams.conf")
    simParams = ParamUtils.ReadSimulationParams(simFile)

    trackConfs = ParamUtils.LoadTrackerParams(args.trackconfs)
    trackRuns = ExpandTrackRuns(trackConfs.keys(), args.trackRuns)
    trackrunConfs = dict([(runName, trackConfs[runName])
                          for runName in trackRuns])

    SingleTracking(simFile,
                   args.simName,
                   simParams,
                   trackrunConfs,
                   path=args.directory)
Esempio n. 8
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def main(args):
    dirName = os.path.join(args.directory, args.simName)
    paramFile = os.path.join(dirName, "simParams.conf")
    simParams = ParamUtils.ReadSimulationParams(paramFile)

    # We only want to process the trackers as specified by the user
    trackRuns = ExpandTrackRuns(simParams['trackers'], args.trackRuns)

    analysis = AnalyzeTrackings(args.simName,
                                simParams,
                                args.skillNames,
                                trackRuns=trackRuns,
                                path=args.directory,
                                tag_filters=args.filters)

    analysis = analysis.insertaxis(axis=1, label=args.simName)
    for skill in args.skillNames:
        DisplaySkillScores(analysis.lix[[skill]], skill)
        print '\n\n'
Esempio n. 9
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def RenameRuns(simName, old, new, trackRuns, dirName='.'):
    """
    For *trackRuns* in *simName*, replace the *old* portion with *new*.

    This over-writes existing trackruns and does a bit of house-keeping
    in situations where the old run is incomplete while the existing new
    run has extra files. Also takes care of the simulation param file and
    the stored tracker configuration file, if it exists.
    """
    simDir = os.path.join(dirName, simName)
    simFile = os.path.join(simDir, "simParams.conf")
    storedConfFile = os.path.join(simDir, simParams['trackerparams'])

    simParams = ParamUtils.ReadSimulationParams(simFile)

    if not os.path.exists(storedConfFile):
        # Initialize an empty config file
        ParamUtils.SaveConfigFile(storedConfFile, {})

    # Now load that one file
    trackerConfs = ParamUtils.LoadTrackerParams([storedConfFile])

    for oldRun in trackRuns:
        newRun = oldRun.replace(old, new)

        RenameRun(simName,
                  simParams,
                  trackerConfs,
                  oldRun,
                  newRun,
                  dirName=dirName)

        # TODO: We could use some sort of 'with' clause here to restore
        #       the original file if something goes wrong here.
        ParamUtils.SaveSimulationParams(simFile, simParams)
        ParamUtils.SaveConfigFile(storedConfFile, trackerConfs)
Esempio n. 10
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def main(args):
    import os.path  # for os.path.join()
    import glob  # for globbing

    if args.bw_mode:
        BW_mode()  # from TrackPlot module

    # FIXME: Currently, the code allows for trackFiles to be listed as well
    #        as providing a simulation (which trackfiles are automatically
    #        grabbed). Both situations can not be handled right now, though.
    trackFiles = []
    trackTitles = []
    polyfiles = args.polys

    if args.statName is not None and args.statLonLat is None:
        statData = ByName(args.statName)[0]
        args.statLonLat = (statData['LON'], statData['LAT'])

    if args.simName is not None:
        dirName = os.path.join(args.directory, args.simName)
        simParams = ParamUtils.ReadSimulationParams(
            os.path.join(dirName, "simParams.conf"))

        if args.trackRuns is not None:
            simParams['trackers'] = ExpandTrackRuns(simParams['trackers'],
                                                    args.trackRuns)

        trackFiles = [
            os.path.join(dirName, simParams['result_file'] + '_' + aTracker)
            for aTracker in simParams['trackers']
        ]
        trackTitles = simParams['trackers']

        if args.truthTrackFile is None:
            args.truthTrackFile = os.path.join(dirName,
                                               simParams['noisyTrackFile'])

        if args.simTagFile is None:
            args.simTagFile = os.path.join(dirName, simParams['simTagFile'])

    trackFiles += args.trackFiles
    trackTitles += args.trackFiles

    if args.trackTitles is not None:
        trackTitles = args.trackTitles

    if len(trackFiles) == 0: print "WARNING: No trackFiles given or found!"

    if args.layout is None:
        args.layout = (1, len(trackFiles))

    if args.figsize is None:
        args.figsize = plt.figaspect(float(args.layout[0]) / args.layout[1])

    if len(trackFiles) < len(polyfiles):
        raise ValueError("Can not have more polygon files than trackfiles!")

    trackerData = [
        FilterMHTTracks(*ReadTracks(trackFile)) for trackFile in trackFiles
    ]
    polyData = [
        _load_verts(f, tracks + falarms)
        for f, (tracks, falarms) in zip(polyfiles, trackerData)
    ]

    keeperIDs = None

    if args.simTagFile is not None:
        simTags = ParamUtils.ReadSimTagFile(args.simTagFile)
        keeperIDs = ParamUtils.process_tag_filters(simTags, args.filters)

    if args.statLonLat is not None:
        for aTracker in trackerData:
            CoordinateTransform(aTracker[0] + aTracker[1], args.statLonLat[0],
                                args.statLonLat[1])
        for polys in polyData:
            CoordinateTrans_lists(polys, args.statLonLat[0],
                                  args.statLonLat[1])

    theFig = plt.figure(figsize=args.figsize)
    grid = AxesGrid(
        theFig,
        111,
        nrows_ncols=args.layout,  # aspect=False,
        share_all=True,
        axes_pad=0.45)

    if args.truthTrackFile is not None:
        (true_tracks,
         true_falarms) = FilterMHTTracks(*ReadTracks(args.truthTrackFile))

        if args.statLonLat is not None:
            CoordinateTransform(true_tracks + true_falarms, args.statLonLat[0],
                                args.statLonLat[1])

        true_AssocSegs = CreateSegments(true_tracks)
        true_FAlarmSegs = CreateSegments(true_falarms)

        if keeperIDs is not None:
            true_AssocSegs = FilterSegments(keeperIDs, true_AssocSegs)
            true_FAlarmSegs = FilterSegments(keeperIDs, true_FAlarmSegs)

        (xLims, yLims,
         frameLims) = DomainFromTracks(true_tracks + true_falarms)
    else:
        true_AssocSegs = None
        true_FAlarmSegs = None

        stackedTracks = []
        for aTracker in trackerData:
            stackedTracks += aTracker[0] + aTracker[1]
        (xLims, yLims, frameLims) = DomainFromTracks(stackedTracks)

    startFrame = args.startFrame
    endFrame = args.endFrame
    tail = args.tail

    if startFrame is None:
        startFrame = 0

    if endFrame is None:
        endFrame = frameLims[1]

    if tail is None:
        tail = endFrame - startFrame

    # A common timer for all animations for syncing purposes.
    theTimer = None

    if args.radarFile is not None and args.statLonLat is not None:
        if endFrame >= len(args.radarFile):
            # Not enough radar files, so truncate the tracks.
            endFrame = len(args.radarFile) - 1
        files = args.radarFile[startFrame:(endFrame + 1)]
        radAnim = RadarAnim(theFig, files)
        theTimer = radAnim.event_source
        for ax in grid:
            radAnim.add_axes(ax, alpha=0.6, zorder=0)
    else:
        radAnim = None

    showMap = (args.statLonLat is not None and args.displayMap)

    if showMap:
        bmap = Basemap(projection='cyl',
                       resolution='i',
                       suppress_ticks=False,
                       llcrnrlat=yLims[0],
                       llcrnrlon=xLims[0],
                       urcrnrlat=yLims[1],
                       urcrnrlon=xLims[1])

    animator = SegAnimator(theFig,
                           startFrame,
                           endFrame,
                           tail,
                           event_source=theTimer,
                           fade=args.fade)

    for index, (tracks, falarms) in enumerate(trackerData):
        curAxis = grid[index]

        if showMap:
            PlotMapLayers(bmap, mapLayers, curAxis, zorder=0.1)

        if true_AssocSegs is not None and true_FAlarmSegs is not None:
            trackAssocSegs = CreateSegments(tracks)
            trackFAlarmSegs = CreateSegments(falarms)

            if keeperIDs is not None:
                trackAssocSegs = FilterSegments(keeperIDs, trackAssocSegs)
                trackFAlarmSegs = FilterSegments(keeperIDs, trackFAlarmSegs)

            truthtable = CompareSegments(true_AssocSegs, true_FAlarmSegs,
                                         trackAssocSegs, trackFAlarmSegs)
            l, d = Animate_Segments(truthtable, (startFrame, endFrame),
                                    axis=curAxis)
        else:
            if keeperIDs is not None:
                filtFunc = lambda trk: FilterTrack(trk, cornerIDs=keeperIDs)
                tracks = map(filtFunc, tracks)
                falarms = map(filtFunc, falarms)
                CleanupTracks(tracks, falarms)

            l, d = Animate_PlainTracks(tracks,
                                       falarms, (startFrame, endFrame),
                                       axis=curAxis)

        animator._lines.extend(l)
        animator._lineData.extend(d)

        #curAxis.set_aspect("equal", 'datalim')
        #curAxis.set_aspect("equal")
        curAxis.set_title(trackTitles[index])
        if not showMap:
            curAxis.set_xlabel("X")
            curAxis.set_ylabel("Y")
        else:
            curAxis.set_xlabel("Longitude (degrees)")
            curAxis.set_ylabel("Latitude (degrees)")

    polyAnims = []
    for ax, verts in zip(grid, polyData):
        from matplotlib.animation import ArtistAnimation
        polyAnim = ArtistAnimation(theFig,
                                   _to_polygons(polys[startFrame:endFrame + 1],
                                                ax),
                                   event_source=theTimer)
        polyAnims.append(polyAnim)

    if args.xlims is not None and np.prod(grid.get_geometry()) > 0:
        grid[0].set_xlim(args.xlims)

    if args.ylims is not None and np.prod(grid.get_geometry()) > 0:
        grid[0].set_ylim(args.ylims)

    if args.saveImgFile is not None:
        if radAnim is not None:
            radAnim = [radAnim]
        else:
            radAnim = []
        animator.save(args.saveImgFile, extra_anim=radAnim + polyAnims)

    if args.doShow:
        plt.show()
Esempio n. 11
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def main(args):
    dirName = os.path.join(args.path, args.scenario)

    paramFile = os.path.join(dirName, "simParams.conf")

    if os.path.exists(paramFile):
        sceneParams = ParamUtils.ReadSimulationParams(paramFile)
    else:
        sceneParams = dict()
        sceneParams.update(ParamUtils.simDefaults)
        sceneParams.update(ParamUtils.trackerDefaults)

        sceneParams.pop('seed')
        sceneParams.pop('totalTracks')
        sceneParams.pop('endTrackProb')
        sceneParams.pop('simConfFile')

        sceneParams['simName'] = args.scenario

    origTrackFile = os.path.join(dirName, sceneParams['simTrackFile'])
    filtTrackFile = os.path.join(dirName, sceneParams['noisyTrackFile'])
    volumeFile = os.path.join(dirName, sceneParams['inputDataFile'])
    volumeLoc = os.path.dirname(volumeFile)

    tracks, falarms = [], []

    if os.path.exists(origTrackFile):
        tracks, falarms = TrackFileUtils.ReadTracks(origTrackFile)

    volume = dict(frameCnt=0,
                  corner_filestem=sceneParams['corner_file'],
                  volume_data=[])
    if os.path.exists(volumeFile):
        # dictionary with "volume_data", "frameCnt", "corner_filestem"
        #    and "volume_data" contains a list of dictionaries with
        #    "volTime", "frameNum", "stormCells" where "stormCells" is
        #    a numpy array of dtype corner_dtype
        volume = TrackFileUtils.ReadCorners(volumeFile, volumeLoc)
        sceneParams['corner_file'] = volume['corner_filestem']

    # TODO: Temporary!
    # I would rather not do pickling, but I am pressed for time.
    # Plus, if I intend to make it a part of the ZigZag system,
    # then the name should be stored in the parameters file.
    polygonfile = os.path.join(dirName, "polygons.foo")
    polygons = {}

    if os.path.exists(polygonfile):
        polygons = load(open(polygonfile, 'rb'))

    do_save, state = AnalyzeRadar(volume, tracks, falarms, polygons,
                                  args.input_files)

    if do_save:
        # Create the directory if it doesn't exist already
        if not os.path.exists(dirName):
            makedirs(dirName)

        tracks, falarms, volume, polygons = state.save_features()
        volume['corner_filestem'] = sceneParams['corner_file']

        # Final save
        SaveState(paramFile, sceneParams, volumeFile, volume, origTrackFile,
                  filtTrackFile, tracks, falarms, polygonfile, polygons)
Esempio n. 12
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def main(args):
    import os.path
    import matplotlib.pyplot as plt
    from mpl_toolkits.axes_grid1 import AxesGrid

    if args.bw_mode:
        BW_mode()  # from TrackPlot module

    # FIXME: Currently, the code allows for trackFiles to be listed as well
    #        as providing a simulation (which trackfiles are automatically
    #        grabbed). Both situations can not be handled right now, though.
    trackFiles = []
    trackTitles = []

    if args.simName is not None:
        dirName = os.path.join(args.directory, args.simName)
        simParams = ParamUtils.ReadSimulationParams(
            os.path.join(dirName, "simParams.conf"))

        if args.trackRuns is not None:
            simParams['trackers'] = ExpandTrackRuns(simParams['trackers'],
                                                    args.trackRuns)

        trackFiles = [
            os.path.join(dirName, simParams['result_file'] + '_' + aTracker)
            for aTracker in simParams['trackers']
        ]
        if args.trackTitles is None:
            trackTitles = simParams['trackers']
        else:
            trackTitles = args.trackTitles

        if args.truthTrackFile is None:
            args.truthTrackFile = os.path.join(dirName,
                                               simParams['noisyTrackFile'])

        if args.simTagFile is None:
            args.simTagFile = os.path.join(dirName, simParams['simTagFile'])

    trackFiles += args.trackFiles

    if args.trackTitles is None:
        trackTitles += args.trackFiles
    else:
        trackTitles += args.trackTitles

    if len(trackFiles) == 0: print "WARNING: No trackFiles given or found!"

    if len(trackTitles) != len(trackFiles):
        raise ValueError("The number of TITLEs do not match the"
                         " number of TRACKFILEs.")

    if args.statName is not None and args.statLonLat is None:
        statData = ByName(args.statName)[0]
        args.statLonLat = (statData['LON'], statData['LAT'])

    if args.layout is None:
        args.layout = (1, len(trackFiles))

    if args.figsize is None:
        args.figsize = plt.figaspect(float(args.layout[0]) / args.layout[1])

    polyfiles = args.polys

    trackerData = [
        FilterMHTTracks(*ReadTracks(trackFile)) for trackFile in trackFiles
    ]
    polyData = [
        _load_verts(f, tracks + falarms)
        for f, (tracks, falarms) in zip(polyfiles, trackerData)
    ]

    keeperIDs = None

    if args.simTagFile is not None:
        simTags = ParamUtils.ReadSimTagFile(args.simTagFile)
        keeperIDs = ParamUtils.process_tag_filters(simTags, args.filters)

    if args.statLonLat is not None:
        for aTracker in trackerData:
            CoordinateTransform(aTracker[0] + aTracker[1], args.statLonLat[0],
                                args.statLonLat[1])

        for polys in polyData:
            CoordinateTrans_lists(polys, args.statLonLat[0],
                                  args.statLonLat[1])

    theFig = plt.figure(figsize=args.figsize)
    grid = AxesGrid(theFig,
                    111,
                    nrows_ncols=args.layout,
                    aspect=False,
                    share_all=True,
                    axes_pad=0.35)

    if args.truthTrackFile is not None:
        (true_tracks,
         true_falarms) = FilterMHTTracks(*ReadTracks(args.truthTrackFile))

        if args.statLonLat is not None:
            CoordinateTransform(true_tracks + true_falarms, args.statLonLat[0],
                                args.statLonLat[1])

        true_AssocSegs = CreateSegments(true_tracks)
        true_FAlarmSegs = CreateSegments(true_falarms)

        if keeperIDs is not None:
            true_AssocSegs = FilterSegments(keeperIDs, true_AssocSegs)
            true_FAlarmSegs = FilterSegments(keeperIDs, true_FAlarmSegs)

        (xLims, yLims,
         frameLims) = DomainFromTracks(true_tracks + true_falarms)
    else:
        true_AssocSegs = None
        true_FAlarmSegs = None

        stackedTracks = []
        for aTracker in trackerData:
            stackedTracks += aTracker[0] + aTracker[1]
        (xLims, yLims, frameLims) = DomainFromTracks(stackedTracks)

    endFrame = args.endFrame
    tail = args.tail

    if endFrame is None:
        endFrame = frameLims[1]

    if tail is None:
        tail = endFrame - frameLims[0]

    startFrame = endFrame - tail

    showMap = (args.statLonLat is not None and args.displayMap)

    if args.radarFile is not None and args.statLonLat is not None:
        if len(args.radarFile) > 1 and args.endFrame is not None:
            args.radarFile = args.radarFile[args.endFrame]
        else:
            args.radarFile = args.radarFile[-1]

        raddata = LoadRastRadar(args.radarFile)
    else:
        raddata = None

    if showMap:
        bmap = Basemap(projection='cyl',
                       resolution='i',
                       suppress_ticks=False,
                       llcrnrlat=yLims[0],
                       llcrnrlon=xLims[0],
                       urcrnrlat=yLims[1],
                       urcrnrlon=xLims[1])

    for index, (tracks, falarms) in enumerate(trackerData):
        curAxis = grid[index]

        if raddata is not None:
            MakeReflectPPI(raddata['vals'][0],
                           raddata['lats'],
                           raddata['lons'],
                           meth='pcmesh',
                           ax=curAxis,
                           colorbar=False,
                           axis_labels=False,
                           zorder=0,
                           alpha=0.6)

        if showMap:
            PlotMapLayers(bmap, mapLayers, curAxis)

        if true_AssocSegs is not None and true_FAlarmSegs is not None:
            trackAssocSegs = CreateSegments(tracks)
            trackFAlarmSegs = CreateSegments(falarms)

            if keeperIDs is not None:
                trackAssocSegs = FilterSegments(keeperIDs, trackAssocSegs)
                trackFAlarmSegs = FilterSegments(keeperIDs, trackFAlarmSegs)

            truthtable = CompareSegments(true_AssocSegs, true_FAlarmSegs,
                                         trackAssocSegs, trackFAlarmSegs)
            PlotSegments(truthtable, (startFrame, endFrame),
                         axis=curAxis,
                         fade=args.fade)
        else:
            if keeperIDs is not None:
                filtFunc = lambda trk: FilterTrack(trk, cornerIDs=keeperIDs)
                tracks = map(filtFunc, tracks)
                falarms = map(filtFunc, falarms)
                CleanupTracks(tracks, falarms)

            PlotPlainTracks(tracks,
                            falarms,
                            startFrame,
                            endFrame,
                            axis=curAxis,
                            fade=args.fade)

        #curAxis.set_xlim(xLims)
        #curAxis.set_ylim(yLims)
        #curAxis.set_aspect("equal", 'datalim')
        #curAxis.set_aspect("equal")
        curAxis.set_title(trackTitles[index])
        if not showMap:
            curAxis.set_xlabel("X")
            curAxis.set_ylabel("Y")
        else:
            curAxis.set_xlabel("Longitude")
            curAxis.set_ylabel("Latitude")

    for ax, verts in zip(grid, polyData):
        _to_polygons(verts[endFrame:endFrame + 1], ax)

    if args.xlims is not None and np.prod(grid.get_geometry()) > 0:
        grid[0].set_xlim(args.xlims)

    if args.ylims is not None and np.prod(grid.get_geometry()) > 0:
        grid[0].set_ylim(args.ylims)

    if args.saveImgFile is not None:
        theFig.savefig(args.saveImgFile, bbox_inches='tight')

    if args.doShow:
        plt.show()