def massRename(self, startFrame, stopFrame, logger):
        '''We changed how the timestamp for images and cameras is computed.
        Make all existing converted images, cameras, nav cameras, and aligned cameras conform.'''

        logger.info("Renaming files with timestamp. This is slow.")

        # Need to do a mass rename for incorrect timestamp for:
        # converted images, nav cameras, cameras, and bundle aligned cameras
        outputFolder = self.getFolder()
        cameraFolder = icebridge_common.getCameraFolder(outputFolder)
        imageFolder = icebridge_common.getImageFolder(outputFolder)
        jpegFolder = icebridge_common.getJpegFolder(outputFolder)
        orthoFolder = icebridge_common.getOrthoFolder(outputFolder)
        processedFolder = icebridge_common.getProcessedFolder(outputFolder)
        navFolder = icebridge_common.getNavFolder(outputFolder)
        navCameraFolder = icebridge_common.getNavCameraFolder(outputFolder)

        # Need the orthos to get the timestamp
        orthoFolder = icebridge_common.getOrthoFolder(
            os.path.dirname(jpegFolder))
        orthoIndexPath = icebridge_common.csvIndexFile(orthoFolder)
        if not os.path.exists(orthoIndexPath):
            raise Exception("Error: Missing ortho index file: " +
                            orthoIndexPath + ".")
        (orthoFrameDict,
         orthoUrlDict) = icebridge_common.readIndexFile(orthoIndexPath,
                                                        prependFolder=True)

        logger.info('Renaming camera files...')
        self.massRenameByGlob(startFrame, stopFrame, orthoFrameDict,
                              os.path.join(cameraFolder, '*DMS*tsai'), logger)

        logger.info('Renaming nav camera files...')
        self.massRenameByGlob(startFrame, stopFrame, orthoFrameDict,
                              os.path.join(navCameraFolder, '*DMS*tsai'),
                              logger)

        logger.info('Renaming converted images...')
        self.massRenameByGlob(startFrame, stopFrame, orthoFrameDict,
                              os.path.join(imageFolder, '*DMS*tif'), logger)

        logger.info('Renaming aligned cameras...')
        self.massRenameByGlob(
            startFrame, stopFrame, orthoFrameDict,
            os.path.join(processedFolder, 'batch*',
                         icebridge_common.alignedBundleStr() + '*DMS*tsai'),
            logger)
Beispiel #2
0
    def massRename(self, startFrame, stopFrame, logger):
        '''We changed how the timestamp for images and cameras is computed.
        Make all existing converted images, cameras, nav cameras, and aligned cameras conform.'''

        logger.info("Renaming files with timestamp. This is slow.")
        
        # Need to do a mass rename for incorrect timestamp for:
        # converted images, nav cameras, cameras, and bundle aligned cameras
        outputFolder    = self.getFolder()
        cameraFolder    = icebridge_common.getCameraFolder(outputFolder)
        imageFolder     = icebridge_common.getImageFolder(outputFolder)
        jpegFolder      = icebridge_common.getJpegFolder(outputFolder)
        orthoFolder     = icebridge_common.getOrthoFolder(outputFolder)
        processedFolder = icebridge_common.getProcessedFolder(outputFolder)
        navFolder       = icebridge_common.getNavFolder(outputFolder)
        navCameraFolder = icebridge_common.getNavCameraFolder(outputFolder)
        
        # Need the orthos to get the timestamp
        orthoFolder = icebridge_common.getOrthoFolder(os.path.dirname(jpegFolder))
        orthoIndexPath = icebridge_common.csvIndexFile(orthoFolder)
        if not os.path.exists(orthoIndexPath):
            raise Exception("Error: Missing ortho index file: " + orthoIndexPath + ".")
        (orthoFrameDict, orthoUrlDict) = icebridge_common.readIndexFile(orthoIndexPath,
                                                                        prependFolder = True)

        logger.info('Renaming camera files...')
        self.massRenameByGlob(startFrame, stopFrame, orthoFrameDict, 
                              os.path.join(cameraFolder, '*DMS*tsai'), logger)

        logger.info('Renaming nav camera files...')
        self.massRenameByGlob(startFrame, stopFrame, orthoFrameDict, 
                              os.path.join(navCameraFolder, '*DMS*tsai'), logger)

        logger.info('Renaming converted images...')
        self.massRenameByGlob(startFrame, stopFrame, orthoFrameDict, 
                              os.path.join(imageFolder, '*DMS*tif'), logger)

        logger.info('Renaming aligned cameras...')
        self.massRenameByGlob(startFrame, stopFrame, orthoFrameDict, 
                              os.path.join(processedFolder, 'batch*',
                                           icebridge_common.alignedBundleStr() + '*DMS*tsai'),
                              logger)
def main(argsIn):

    try:
        # Sample usage:
        # python full_processing_script.py \
        #  --yyyymmdd 20091016 --site AN --num-processes 1 --num-threads 12 --bundle-length 12 \
        #  --start-frame 350 --stop-frame 353 --skip-validate \
        # --camera-calibration-folder camera_calib  \
        # --reference-dem-folder ref_dem_folder
        # An output folder will be crated automatically (with a name like
        # AN_20091016), or its name can be specified via the --output-folder
        # option.
        usage = '''full_processing_script.py <options>'''
                      
        parser = argparse.ArgumentParser(usage=usage)

        # Run selection
        parser.add_argument("--yyyymmdd",  dest="yyyymmdd", required=True,
                          help="Specify the year, month, and day in one YYYYMMDD string.")
        parser.add_argument("--site",  dest="site", required=True,
                          help="Name of the location of the images (AN, GR, or AL)")

        parser.add_argument("--output-folder",  dest="outputFolder", default=None,
                          help="Name of the output folder. If not specified, " + \
                          "use something like AN_YYYYMMDD.")

        parser.add_argument("--camera-lookup-file",  dest="cameraLookupFile", default=None,
                          help="The file to use to find which camera was used for which "  + \
                          "flight. By default it is in the same directory as this script " + \
                          "and named camera_lookup.txt.")
        
        # Processing options
        parser.add_argument('--bundle-length', dest='bundleLength', default=2,
                          type=int, help="The number of images to bundle adjust and process " + \
                          "in a single batch.")
        # TODO: Compute this automatically??
        parser.add_argument('--overlap-limit', dest='overlapLimit', default=2,
                          type=int, help="The number of images to treat as overlapping for " + \
                          "bundle adjustment.")
        
        parser.add_argument('--stereo-arguments', dest='stereoArgs',
                            # set --min-xcorr-level 0 to do the left-to-right 
                            # and right-to-left consistency check at the lowest level.
                            default='--stereo-algorithm 2 --min-xcorr-level 0',
                            help='Extra arguments to pass to stereo.')

        parser.add_argument('--start-frame', dest='startFrame', type=int,
                          default=icebridge_common.getSmallestFrame(),
                          help="Frame to start with.  Leave this and stop-frame blank to " + \
                          "process all frames.")
        parser.add_argument('--stop-frame', dest='stopFrame', type=int,
                          default=icebridge_common.getLargestFrame(),
                          help='Frame to stop on.')
        parser.add_argument('--frames-file', dest='framesFile', default="",
                            help='Specific frames to run ortho2pinhole on within this frame range.')

        parser.add_argument('--max-num-lidar-to-fetch', dest='maxNumLidarToFetch', default=None,
                          type=int, help="The maximum number of lidar files to fetch. " + \
                          "This is used in debugging.")
        
        parser.add_argument("--camera-calibration-folder",  dest="inputCalFolder", default=None,
                          help="The folder containing camera calibration.")

        parser.add_argument("--input-calibration-camera",  dest="inputCalCamera", default="",
                            help="Instead of looking up the calibrated camera in the calibration folder, use this one.")
        
        parser.add_argument("--output-calibration-camera",  dest="outputCalCamera", default="",
                            help="If specified, float the intrinsics and write the optimized model here.")

        parser.add_argument("--output-model-type",  dest="outputModelType", default="RPC",
                            help="Generate a distortion model of type RPC, RPC5, or RPC6.")
        parser.add_argument("--reference-dem-folder",  dest="refDemFolder", default=None,
                          help="The folder containing DEMs that created orthoimages.")

        parser.add_argument("--processing-subfolder",  dest="processingSubfolder", default=None,
                          help="Specify a subfolder name where the processing outputs will go. " + \
                          "fault is no additional folder")
                          
        parser.add_argument("--simple-cameras", action="store_true", dest="simpleCameras", default=False,
                          help="Don't use orthoimages to refine the camera models.")

        # This option is only needed when generating camera models from the nav files.
        parser.add_argument('--camera-mounting', default=0, dest='cameraMounting', type=int,
              help='0=right-forwards, 1=left-forwards, 2=top-forwards, 3=bottom-forwards.')

        # Performance options  
        parser.add_argument('--num-processes', dest='numProcesses', default=1,
                          type=int, help='The number of simultaneous processes to run.')
        parser.add_argument('--num-ortho-processes', dest='numOrthoProcesses', default=-1,
                          type=int, help='The number of simultaneous ortho processes to run.')
        parser.add_argument('--num-threads', dest='numThreads', default=8,
                          type=int, help='The number of threads per process.')

        # Action control
        parser.add_argument("--skip-fetch", action="store_true", dest="noFetch", default=False,
                          help="Skip data fetching.")
        parser.add_argument("--skip-convert", action="store_true", dest="noConvert", default=False,
                          help="Skip data conversion.")
        parser.add_argument("--stop-after-fetch", action="store_true", dest="stopAfterFetch",
                          default=False,
                          help="Stop program after data fetching.")
        parser.add_argument("--stop-after-convert", action="store_true", dest="stopAfterConvert",
                          default=False,
                          help="Stop program after data conversion.")
        parser.add_argument("--skip-validate", action="store_true", dest="skipValidate",
                            default=False,
                            help="Skip input data validation.")
        parser.add_argument("--ignore-missing-lidar", action="store_true", dest="ignoreMissingLidar",
                            default=False,
                            help="Keep going if the lidar is missing.")
        parser.add_argument("--log-batches", action="store_true", dest="logBatches", default=False,
                          help="Log the required batch commands without running them.")
        parser.add_argument('--cleanup', action='store_true', default=False, dest='cleanup',  
                          help='If the final result is produced delete intermediate files.')
        parser.add_argument('--many-ip', action='store_true', default=False, dest='manyip',  
                          help='If to use a lot of IP in bundle adjustment from the beginning.')
        parser.add_argument("--dry-run", action="store_true", dest="dryRun", default=False,
                          help="Set up the input directories but do not fetch/process any imagery.")

        parser.add_argument("--refetch", action="store_true", dest="reFetch", default=False,
                          help="Try fetching again if some files turned out invalid " + \
                          "during conversions.")
        parser.add_argument("--refetch-index", action="store_true", dest="refetchIndex",
                          default=False,
                          help="Force refetch of the index file.")
        parser.add_argument("--refetch-nav", action="store_true", dest="refetchNav",
                          default=False,
                          help="Force refetch of the nav file.")
        parser.add_argument("--stop-after-index-fetch", action="store_true",
                          dest="stopAfterIndexFetch", default=False,
                          help="Stop after fetching the indices.")

        parser.add_argument("--no-nav", action="store_true", dest="noNavFetch",
                            default=False, help="Don't fetch or convert the nav data.")
                       
        parser.add_argument("--no-lidar-convert", action="store_true", dest="noLidarConvert",
                          default=False,
                          help="Skip lidar files in the conversion step.")
        parser.add_argument("--no-ortho-convert", action="store_true", dest="noOrthoConvert",
                          default=False,
                          help="Skip generating camera models in the conversion step.")
        parser.add_argument("--skip-fast-conversions", action="store_true", dest="skipFastConvert",
                          default=False,
                          help="Skips all non-ortho conversions.")
                          
        options = parser.parse_args(argsIn)

    except argparse.ArgumentError as msg:
        parser.error(msg)

    icebridge_common.switchWorkDir()
    
    if options.numOrthoProcesses < 0:
        options.numOrthoProcesses = options.numProcesses
        
    isSouth = icebridge_common.checkSite(options.site)

    # Turned off elevation limits here since they are being set from LIDAR data.
    ## Add the site based elevation limits to the stereoArgs option
    #altLimits = icebridge_common.getElevationLimits(options.site)
    #options.stereoArgs = (' %s --elevation-limit %f %f ' 
    #                      % (options.stereoArgs, altLimits[0], altLimits[1]))
    options.stereoArgs = (' %s ' % (options.stereoArgs))

    if options.cameraLookupFile is None:
        options.cameraLookupFile = P.join(basepath, 'camera_lookup.txt')
    if not os.path.isfile(options.cameraLookupFile):
        raise Exception("Can't find camera file: " + options.cameraLookupFile)
        
    if len(options.yyyymmdd) != 8 and len(options.yyyymmdd) != 9:
        # Make an exception for 20100422a
        raise Exception("The --yyyymmdd field must have length 8 or 9.")

    if options.outputFolder is None:
        options.outputFolder = icebridge_common.outputFolder(options.site, options.yyyymmdd)

    if options.stopAfterIndexFetch:
        options.stopAfterFetch = True
        
    os.system('mkdir -p ' + options.outputFolder)
    logLevel = logging.INFO # Record everything
    logger   = icebridge_common.setUpLogger(options.outputFolder, logLevel,
                                            'icebridge_processing_log_frames_' + \
                                            str(options.startFrame) + "_" + str(options.stopFrame))

    # Make sure we later know what we were doing
    logger.info("full_processing_script.py " + " ".join(argsIn)) 
                
    (out, err, status) = asp_system_utils.executeCommand(['uname', '-a'],
                                                         suppressOutput = True)
    logger.info("Running on machine: " + out)
    logger.info("Work dir is " + os.getcwd())

    os.system("ulimit -c 0") # disable core dumps
    os.system("umask 022")   # enforce files be readable by others
    
    # Perform some input checks and initializations
    # These are not needed unless cameras are initialized 
    if options.inputCalFolder is None or not os.path.exists(options.inputCalFolder):
        raise Exception("Missing camera calibration folder.")
    if options.refDemFolder is None or not os.path.exists(options.refDemFolder):
        raise Exception("Missing reference DEM folder.")
    
    refDemName = icebridge_common.getReferenceDemName(options.site)
    refDemPath = os.path.join(options.refDemFolder, refDemName)
    if not os.path.exists(refDemPath):
        raise Exception("Missing reference DEM: " + refDemPath)
    
    # TODO: CLEAN UP!!!
    # Set up the output folders
    cameraFolder       = icebridge_common.getCameraFolder(options.outputFolder)
    imageFolder        = icebridge_common.getImageFolder(options.outputFolder)
    jpegFolder         = icebridge_common.getJpegFolder(options.outputFolder)
    orthoFolder        = icebridge_common.getOrthoFolder(options.outputFolder)
    fireballFolder     = icebridge_common.getFireballFolder(options.outputFolder)
    corrFireballFolder = icebridge_common.getCorrFireballFolder(options.outputFolder)
    lidarFolder        = icebridge_common.getLidarFolder(options.outputFolder)
    navFolder          = icebridge_common.getNavFolder(options.outputFolder)
    navCameraFolder    = icebridge_common.getNavCameraFolder(options.outputFolder)
    processedFolder    = icebridge_common.getProcessedFolder(options.outputFolder)

    if options.outputCalCamera != "":
        # Prepare to solve for intrinsics. Note that this modifies some things along the way.
        (options, cameraFolder, navCameraFolder, processedFolder) = \
                  solveIntrinsics_Part1(options, jpegFolder, cameraFolder, navCameraFolder,
                                        processedFolder, logger)
        
    # Handle subfolder option.  This is useful for comparing results with different parameters!
    if options.processingSubfolder:
        processedFolder = os.path.join(processedFolder, options.processingSubfolder)
        logger.info('Will write to processing subfolder: ' + options.processingSubfolder)
       
    # If something failed in the first attempt either in fetch or in
    # convert, we will wipe bad files, and try to refetch/re-convert.
    numAttempts = 1
    if options.reFetch and (not options.noFetch):
        numAttempts = 2
    
    for attempt in range(numAttempts):
        if numAttempts > 1:
            logger.info("Fetch/convert attempt: " + str(attempt+1))
        ans = runFetchConvert(options, isSouth, cameraFolder, imageFolder, jpegFolder, orthoFolder,
                              fireballFolder, corrFireballFolder, lidarFolder, processedFolder,
                              navFolder, navCameraFolder, refDemPath, logger)
        if ans == 0:
            break
        
    if options.stopAfterFetch or options.dryRun or options.stopAfterConvert:
        logger.info('Fetch/convert finished!')
        return 0

       
    # Call the processing routine
    processTheRun(options, imageFolder, cameraFolder, lidarFolder, orthoFolder,
                  corrFireballFolder, processedFolder,
                  isSouth, refDemPath)
   
    if options.outputCalCamera != "":
        # Finish solving for intrinscs. 
        solveIntrinsics_Part2(options, imageFolder, cameraFolder, lidarFolder, orthoFolder,
                              processedFolder, isSouth, logger)
    if not os.path.exists(refDemPath):
        raise Exception("Missing reference DEM: " + refDemPath)

    # TODO: CLEAN UP!!!
    # Set up the output folders
    cameraFolder = icebridge_common.getCameraFolder(options.outputFolder)
    imageFolder = icebridge_common.getImageFolder(options.outputFolder)
    jpegFolder = icebridge_common.getJpegFolder(options.outputFolder)
    orthoFolder = icebridge_common.getOrthoFolder(options.outputFolder)
    fireballFolder = icebridge_common.getFireballFolder(options.outputFolder)
    corrFireballFolder = icebridge_common.getCorrFireballFolder(
        options.outputFolder)
    lidarFolder = icebridge_common.getLidarFolder(options.outputFolder)
    navFolder = icebridge_common.getNavFolder(options.outputFolder)
    navCameraFolder = icebridge_common.getNavCameraFolder(options.outputFolder)
    processedFolder = icebridge_common.getProcessedFolder(options.outputFolder)

    if options.outputCalCamera != "":
        # Prepare to solve for intrinsics. Note that this modifies some things along the way.
        (options, cameraFolder, navCameraFolder, processedFolder) = \
                  solveIntrinsics_Part1(options, jpegFolder, cameraFolder, navCameraFolder,
                                        processedFolder, logger)

    # Handle subfolder option.  This is useful for comparing results with different parameters!
    if options.processingSubfolder:
        processedFolder = os.path.join(processedFolder,
                                       options.processingSubfolder)
        logger.info('Will write to processing subfolder: ' +
                    options.processingSubfolder)

    # If something failed in the first attempt either in fetch or in
Beispiel #5
0
def main(argsIn):

    try:
        # Sample usage:
        # python full_processing_script.py \
        #  --yyyymmdd 20091016 --site AN --num-processes 1 --num-threads 12 --bundle-length 12 \
        #  --start-frame 350 --stop-frame 353 --skip-validate \
        # --camera-calibration-folder camera_calib  \
        # --reference-dem-folder ref_dem_folder
        # An output folder will be crated automatically (with a name like
        # AN_20091016), or its name can be specified via the --output-folder
        # option.
        usage = '''full_processing_script.py <options>'''

        parser = argparse.ArgumentParser(usage=usage)

        # Run selection
        parser.add_argument(
            "--yyyymmdd",
            dest="yyyymmdd",
            required=True,
            help="Specify the year, month, and day in one YYYYMMDD string.")
        parser.add_argument(
            "--site",
            dest="site",
            required=True,
            help="Name of the location of the images (AN, GR, or AL)")

        parser.add_argument("--output-folder",  dest="outputFolder", default=None,
                          help="Name of the output folder. If not specified, " + \
                          "use something like AN_YYYYMMDD.")

        parser.add_argument("--camera-lookup-file",  dest="cameraLookupFile", default=None,
                          help="The file to use to find which camera was used for which "  + \
                          "flight. By default it is in the same directory as this script " + \
                          "and named camera_lookup.txt.")

        # Processing options
        parser.add_argument('--bundle-length', dest='bundleLength', default=2,
                          type=int, help="The number of images to bundle adjust and process " + \
                          "in a single batch.")
        # TODO: Compute this automatically??
        parser.add_argument('--overlap-limit', dest='overlapLimit', default=2,
                          type=int, help="The number of images to treat as overlapping for " + \
                          "bundle adjustment.")

        parser.add_argument(
            '--max-overlap-ratio',
            dest='maxOverlapRatio',
            default=0.85,
            type=float,
            help=
            'The maximum ratio of overlap between images to be accepted as part of a stereo pair. When floating intrinsics, this will be set to 1, to not upset some bookkeeping.'
        )

        parser.add_argument(
            '--stereo-arguments',
            dest='stereoArgs',
            # set --min-xcorr-level 0 to do the left-to-right
            # and right-to-left consistency check at the lowest level.
            default='--stereo-algorithm 2 --min-xcorr-level 0',
            help='Extra arguments to pass to stereo.')

        parser.add_argument('--start-frame', dest='startFrame', type=int,
                          default=icebridge_common.getSmallestFrame(),
                          help="Frame to start with.  Leave this and stop-frame blank to " + \
                          "process all frames.")
        parser.add_argument('--stop-frame',
                            dest='stopFrame',
                            type=int,
                            default=icebridge_common.getLargestFrame(),
                            help='Frame to stop on.')
        parser.add_argument(
            '--frames-file',
            dest='framesFile',
            default="",
            help=
            'Specific frames to run ortho2pinhole on within this frame range.')

        parser.add_argument('--max-num-lidar-to-fetch', dest='maxNumLidarToFetch', default=None,
                          type=int, help="The maximum number of lidar files to fetch. " + \
                          "This is used in debugging.")

        parser.add_argument("--camera-calibration-folder",
                            dest="inputCalFolder",
                            default=None,
                            help="The folder containing camera calibration.")

        parser.add_argument(
            "--input-calibration-camera",
            dest="inputCalCamera",
            default="",
            help=
            "Instead of looking up the calibrated camera in the calibration folder, use this one."
        )

        parser.add_argument(
            "--output-calibration-camera",
            dest="outputCalCamera",
            default="",
            help=
            "If specified, float the intrinsics and write the optimized model here."
        )

        parser.add_argument(
            "--output-model-type",
            dest="outputModelType",
            default="RPC",
            help="Generate a distortion model of type RPC, RPC5, or RPC6.")
        parser.add_argument(
            "--reference-dem-folder",
            dest="refDemFolder",
            default=None,
            help="The folder containing DEMs that created orthoimages.")

        parser.add_argument("--processing-subfolder",  dest="processingSubfolder", default=None,
                          help="Specify a subfolder name where the processing outputs will go. " + \
                          "fault is no additional folder")

        parser.add_argument(
            "--simple-cameras",
            action="store_true",
            dest="simpleCameras",
            default=False,
            help="Don't use orthoimages to refine the camera models.")

        # This option is only needed when generating camera models from the nav files.
        parser.add_argument(
            '--camera-mounting',
            default=0,
            dest='cameraMounting',
            type=int,
            help=
            '0=right-forwards, 1=left-forwards, 2=top-forwards, 3=bottom-forwards.'
        )

        # Performance options
        parser.add_argument(
            '--num-processes',
            dest='numProcesses',
            default=1,
            type=int,
            help='The number of simultaneous processes to run.')
        parser.add_argument(
            '--num-ortho-processes',
            dest='numOrthoProcesses',
            default=-1,
            type=int,
            help='The number of simultaneous ortho processes to run.')
        parser.add_argument('--num-threads',
                            dest='numThreads',
                            default=8,
                            type=int,
                            help='The number of threads per process.')

        # Action control
        parser.add_argument("--skip-fetch",
                            action="store_true",
                            dest="noFetch",
                            default=False,
                            help="Skip data fetching.")
        parser.add_argument("--skip-convert",
                            action="store_true",
                            dest="noConvert",
                            default=False,
                            help="Skip data conversion.")
        parser.add_argument("--stop-after-fetch",
                            action="store_true",
                            dest="stopAfterFetch",
                            default=False,
                            help="Stop program after data fetching.")
        parser.add_argument("--stop-after-convert",
                            action="store_true",
                            dest="stopAfterConvert",
                            default=False,
                            help="Stop program after data conversion.")
        parser.add_argument("--skip-validate",
                            action="store_true",
                            dest="skipValidate",
                            default=False,
                            help="Skip input data validation.")
        parser.add_argument("--ignore-missing-lidar",
                            action="store_true",
                            dest="ignoreMissingLidar",
                            default=False,
                            help="Keep going if the lidar is missing.")
        parser.add_argument(
            "--log-batches",
            action="store_true",
            dest="logBatches",
            default=False,
            help="Log the required batch commands without running them.")
        parser.add_argument(
            '--cleanup',
            action='store_true',
            default=False,
            dest='cleanup',
            help='If the final result is produced delete intermediate files.')
        parser.add_argument(
            '--many-ip',
            action='store_true',
            default=False,
            dest='manyip',
            help=
            'If to use a lot of IP in bundle adjustment from the beginning.')
        parser.add_argument(
            "--dry-run",
            action="store_true",
            dest="dryRun",
            default=False,
            help=
            "Set up the input directories but do not fetch/process any imagery."
        )

        parser.add_argument("--refetch", action="store_true", dest="reFetch", default=False,
                          help="Try fetching again if some files turned out invalid " + \
                          "during conversions.")
        parser.add_argument("--refetch-index",
                            action="store_true",
                            dest="refetchIndex",
                            default=False,
                            help="Force refetch of the index file.")
        parser.add_argument("--refetch-nav",
                            action="store_true",
                            dest="refetchNav",
                            default=False,
                            help="Force refetch of the nav file.")
        parser.add_argument("--stop-after-index-fetch",
                            action="store_true",
                            dest="stopAfterIndexFetch",
                            default=False,
                            help="Stop after fetching the indices.")

        parser.add_argument("--no-nav",
                            action="store_true",
                            dest="noNavFetch",
                            default=False,
                            help="Don't fetch or convert the nav data.")

        parser.add_argument("--no-lidar-convert",
                            action="store_true",
                            dest="noLidarConvert",
                            default=False,
                            help="Skip lidar files in the conversion step.")
        parser.add_argument(
            "--no-ortho-convert",
            action="store_true",
            dest="noOrthoConvert",
            default=False,
            help="Skip generating camera models in the conversion step.")
        parser.add_argument("--skip-fast-conversions",
                            action="store_true",
                            dest="skipFastConvert",
                            default=False,
                            help="Skips all non-ortho conversions.")

        options = parser.parse_args(argsIn)

    except argparse.ArgumentError as msg:
        parser.error(msg)

    icebridge_common.switchWorkDir()

    if options.numOrthoProcesses < 0:
        options.numOrthoProcesses = options.numProcesses

    isSouth = icebridge_common.checkSite(options.site)

    # Turned off elevation limits here since they are being set from LIDAR data.
    ## Add the site based elevation limits to the stereoArgs option
    #altLimits = icebridge_common.getElevationLimits(options.site)
    #options.stereoArgs = (' %s --elevation-limit %f %f '
    #                      % (options.stereoArgs, altLimits[0], altLimits[1]))
    options.stereoArgs = (' %s ' % (options.stereoArgs))

    if options.cameraLookupFile is None:
        options.cameraLookupFile = P.join(basepath, 'camera_lookup.txt')
    if not os.path.isfile(options.cameraLookupFile):
        raise Exception("Can't find camera file: " + options.cameraLookupFile)

    if len(options.yyyymmdd) != 8 and len(options.yyyymmdd) != 9:
        # Make an exception for 20100422a
        raise Exception("The --yyyymmdd field must have length 8 or 9.")

    if options.outputFolder is None:
        options.outputFolder = icebridge_common.outputFolder(
            options.site, options.yyyymmdd)

    if options.stopAfterIndexFetch:
        options.stopAfterFetch = True

    os.system('mkdir -p ' + options.outputFolder)
    logLevel = logging.INFO  # Record everything
    logger   = icebridge_common.setUpLogger(options.outputFolder, logLevel,
                                            'icebridge_processing_log_frames_' + \
                                            str(options.startFrame) + "_" + str(options.stopFrame))

    # Make sure we later know what we were doing
    logger.info("full_processing_script.py " + " ".join(argsIn))

    (out, err, status) = asp_system_utils.executeCommand(['uname', '-a'],
                                                         suppressOutput=True)
    logger.info("Running on machine: " + out)
    logger.info("Work dir is " + os.getcwd())

    os.system("ulimit -c 0")  # disable core dumps
    os.system("umask 022")  # enforce files be readable by others

    # Perform some input checks and initializations
    # These are not needed unless cameras are initialized
    if options.inputCalFolder is None or not os.path.exists(
            options.inputCalFolder):
        raise Exception("Missing camera calibration folder.")
    if options.refDemFolder is None or not os.path.exists(
            options.refDemFolder):
        raise Exception("Missing reference DEM folder.")

    refDemName = icebridge_common.getReferenceDemName(options.site)
    refDemPath = os.path.join(options.refDemFolder, refDemName)
    if not os.path.exists(refDemPath):
        raise Exception("Missing reference DEM: " + refDemPath)

    # TODO: CLEAN UP!!!
    # Set up the output folders
    cameraFolder = icebridge_common.getCameraFolder(options.outputFolder)
    imageFolder = icebridge_common.getImageFolder(options.outputFolder)
    jpegFolder = icebridge_common.getJpegFolder(options.outputFolder)
    orthoFolder = icebridge_common.getOrthoFolder(options.outputFolder)
    fireballFolder = icebridge_common.getFireballFolder(options.outputFolder)
    corrFireballFolder = icebridge_common.getCorrFireballFolder(
        options.outputFolder)
    lidarFolder = icebridge_common.getLidarFolder(options.outputFolder)
    navFolder = icebridge_common.getNavFolder(options.outputFolder)
    navCameraFolder = icebridge_common.getNavCameraFolder(options.outputFolder)
    processedFolder = icebridge_common.getProcessedFolder(options.outputFolder)

    if options.outputCalCamera != "":
        if options.maxOverlapRatio < 1:
            raise Exception ("For optimizing intrinsics, must set --max-overlap-ratio to 1, " + \
                             "to always use consecutive frames.")

        # Prepare to solve for intrinsics. Note that this modifies some things along the way.
        (options, cameraFolder, navCameraFolder, processedFolder) = \
                  solveIntrinsics_Part1(options, jpegFolder, cameraFolder, navCameraFolder,
                                        processedFolder, logger)

    # Handle subfolder option.  This is useful for comparing results with different parameters!
    if options.processingSubfolder:
        processedFolder = os.path.join(processedFolder,
                                       options.processingSubfolder)
        logger.info('Will write to processing subfolder: ' +
                    options.processingSubfolder)

    # If something failed in the first attempt either in fetch or in
    # convert, we will wipe bad files, and try to refetch/re-convert.
    numAttempts = 1
    if options.reFetch and (not options.noFetch):
        numAttempts = 2

    for attempt in range(numAttempts):
        if numAttempts > 1:
            logger.info("Fetch/convert attempt: " + str(attempt + 1))
        ans = runFetchConvert(options, isSouth, cameraFolder, imageFolder,
                              jpegFolder, orthoFolder, fireballFolder,
                              corrFireballFolder, lidarFolder, processedFolder,
                              navFolder, navCameraFolder, refDemPath, logger)
        if ans == 0:
            break

    if options.stopAfterFetch or options.dryRun or options.stopAfterConvert:
        logger.info('Fetch/convert finished!')
        return 0

    # Call the processing routine
    processTheRun(options, imageFolder, cameraFolder, lidarFolder, orthoFolder,
                  corrFireballFolder, processedFolder, isSouth, refDemPath)

    if options.outputCalCamera != "":
        # Finish solving for intrinscs.
        solveIntrinsics_Part2(options, imageFolder, cameraFolder, lidarFolder,
                              orthoFolder, processedFolder, isSouth, logger)