def correlationStack(inps, acquisitionDates, stackReferenceDate, secondaryDates, safe_dict, pairs, updateStack): i = slcStack(inps, acquisitionDates, stackReferenceDate, secondaryDates, safe_dict, updateStack) # default value of virtual_merge virtual_merge = 'True' if not inps.virtualMerge else inps.virtualMerge i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_merge_reference_secondary_slc'.format(i)) runObj.mergeReference(stackReferenceDate, virtual=virtual_merge) runObj.mergeSecondarySLC(secondaryDates, virtual=virtual_merge) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_merge_burst_igram'.format(i)) runObj.burstIgram_mergeBurst(acquisitionDates, safe_dict, pairs) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_filter_coherence'.format(i)) runObj.filter_coherence(pairs) runObj.finalize() return i
def interferogramIonoStack(inps, acquisitionDates, stackMasterDate, slaveDates, pairs): # raise exception for ALOS-1 if --fbd2fbs was used run_unpack_file = os.path.join(inps.workDir, 'run_unPackALOS') if os.path.isfile(run_unpack_file): with open(run_unpack_file, 'r') as f: lines = f.readlines() if any('fbd2fbs' in line for line in lines): msg = 'ALOS-1 FBD mode data exists with fbd2fbs enabled, which is not applicable for ionosphere workflow' msg += '\nsolution: restart from prepRawALOS.py WITHOUT --dual2single/--fbd2fbs option.' raise ValueError(msg) # an interferogram stack with ionosphere correction. # coregistration is with geometry + const offset + rubbersheeting i = slcStack(inps, acquisitionDates, stackMasterDate, slaveDates, pairs, splitFlag=True, rubberSheet=True) i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_igram") config_prefix = 'config_igram_' low_or_high = "/" runObj.igrams_network(pairs, acquisitionDates, stackMasterDate, low_or_high, config_prefix) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_igramLowBand") config_prefix = 'config_igramLowBand_' low_or_high = "/LowBand/" runObj.igrams_network(pairs, acquisitionDates, stackMasterDate, low_or_high, config_prefix) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_igramHighBand") config_prefix = 'config_igramHighBand_' low_or_high = "/HighBand/" runObj.igrams_network(pairs, acquisitionDates, stackMasterDate, low_or_high, config_prefix) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_iono") config_prefix = 'config_iono_' lowBand = '/LowBand/' highBand = '/HighBand/' runObj.dispersive_nonDispersive(pairs, acquisitionDates, stackMasterDate, lowBand, highBand, config_prefix) runObj.finalize()
def correlationStack(inps, acquisitionDates, stackReferenceDate, secondaryDates, safe_dict, pairs, updateStack): ############################# i = slcStack(inps, acquisitionDates, stackReferenceDate, secondaryDates, safe_dict, updateStack) i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_merge_reference_secondary_slc'.format(i)) runObj.mergeReference(stackReferenceDate, virtual='True') runObj.mergeSecondarySLC(secondaryDates, virtual='True') runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_merge_burst_igram'.format(i)) runObj.burstIgram_mergeBurst(acquisitionDates, safe_dict, pairs) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_filter_coherence'.format(i)) runObj.filter_coherence(pairs) runObj.finalize()
def interferogramStack(inps, acquisitionDates, stackMasterDate, slaveDates, safe_dict, pairs, updateStack): i = slcStack(inps, acquisitionDates, stackMasterDate, slaveDates, safe_dict, updateStack) i+=1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_merge_master_slave_slc") runObj.mergeMaster(stackMasterDate, virtual = 'True') runObj.mergeSlaveSLC(slaveDates, virtual = 'True') runObj.finalize() i+=1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_merge_burst_igram") runObj.burstIgram_mergeBurst(acquisitionDates, safe_dict, pairs) runObj.finalize() i+=1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_filter_coherence") runObj.filter_coherence(pairs) runObj.finalize() i+=1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_unwrap") runObj.unwrap(pairs) runObj.finalize()
def interferogramStack(inps, acquisitionDates, stackMasterDate, slaveDates, safe_dict, pairs, updateStack): i = slcStack(inps, acquisitionDates, stackMasterDate, slaveDates, safe_dict, updateStack) i+=1 runObj = run() runObj.configure(inps, 'run_{:02d}_merge_master_slave_slc'.format(i)) runObj.mergeMaster(stackMasterDate, virtual = 'True') runObj.mergeSlaveSLC(slaveDates, virtual = 'True') runObj.finalize() i+=1 runObj = run() runObj.configure(inps, 'run_{:02d}_generate_burst_igram'.format(i)) runObj.generate_burstIgram(acquisitionDates, safe_dict, pairs) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_merge_burst_igram'.format(i)) runObj.igram_mergeBurst(acquisitionDates, safe_dict, pairs) runObj.finalize() i+=1 runObj = run() runObj.configure(inps, 'run_{:02d}_filter_coherence'.format(i)) runObj.filter_coherence(pairs) runObj.finalize() i+=1 runObj = run() runObj.configure(inps, 'run_{:02d}_unwrap'.format(i)) runObj.unwrap(pairs) runObj.finalize()
def ionosphereStack(inps, dateListIon, stackReferenceDate, pairs_same_starting_ranges_update, pairs_diff_starting_ranges_update, safe_dict, i): i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_subband_and_resamp'.format(i)) runObj.subband_and_resamp(dateListIon, stackReferenceDate) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_generateIgram_ion'.format(i)) runObj.generateIgram_ion( pairs_same_starting_ranges_update + pairs_diff_starting_ranges_update, stackReferenceDate) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_mergeBurstsIon'.format(i)) runObj.mergeBurstsIon(pairs_same_starting_ranges_update, pairs_diff_starting_ranges_update) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_unwrap_ion'.format(i)) runObj.unwrap_ion(pairs_same_starting_ranges_update, pairs_diff_starting_ranges_update) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_look_ion'.format(i)) runObj.look_ion(pairs_same_starting_ranges_update, pairs_diff_starting_ranges_update) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_computeIon'.format(i)) runObj.computeIon(pairs_same_starting_ranges_update, pairs_diff_starting_ranges_update, safe_dict) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_filtIon'.format(i)) runObj.filtIon(pairs_same_starting_ranges_update + pairs_diff_starting_ranges_update) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_invertIon'.format(i)) runObj.invertIon() runObj.finalize() return i
def interferogramIonoStack(inps, acquisitionDates, stackMasterDate, slaveDates, pairs): # an interferogram stack with ionosphere correction. # coregistration is with geometry + const offset + rubbersheeting i = slcStack(inps, acquisitionDates, stackMasterDate, slaveDates, pairs, splitFlag=True, rubberSheet=True) i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_igram") config_prefix = 'config_igram_' low_or_high = "/" runObj.igrams_network(pairs, acquisitionDates, stackMasterDate, low_or_high, config_prefix) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_igramLowBand") config_prefix = 'config_igramLowBand_' low_or_high = "/LowBand/" runObj.igrams_network(pairs, acquisitionDates, stackMasterDate, low_or_high, config_prefix) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_igramHighBand") config_prefix = 'config_igramHighBand_' low_or_high = "/HighBand/" runObj.igrams_network(pairs, acquisitionDates, stackMasterDate, low_or_high, config_prefix) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_iono") config_prefix = 'config_iono_' lowBand = '/LowBand/' highBand = '/HighBand/' runObj.dispersive_nonDispersive(pairs, acquisitionDates, stackMasterDate, lowBand, highBand, config_prefix) runObj.finalize()
def offsetStack(inps, acquisitionDates, stackMasterDate, slaveDates, safe_dict, pairs, updateStack): i = slcStack(inps, acquisitionDates, stackMasterDate, slaveDates, safe_dict, updateStack) i+=1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_merge_master_slave_slc") runObj.mergeMaster(stackMasterDate, virtual = 'False') runObj.mergeSlaveSLC(slaveDates, virtual = 'False') runObj.finalize() i+=1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_dense_offsets") runObj.denseOffsets(pairs) runObj.finalize()
def slcSimple(inps, acquisitionDates, safe_dict, mergeSLC=False): ############################# i = 0 i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i)) runObj.unpackSLC(acquisitionDates, safe_dict) runObj.finalize() if mergeSLC: i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i)) runObj.mergeSLC(acquisitionDates, virtual='False') runObj.finalize() return i
def offsetStack(inps, acquisitionDates, stackReferenceDate, secondaryDates, safe_dict, pairs, updateStack): i = slcStack(inps, acquisitionDates, stackReferenceDate, secondaryDates, safe_dict, updateStack) i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_merge_reference_secondary_slc'.format(i)) runObj.mergeReference(stackReferenceDate, virtual='False') runObj.mergeSecondarySLC(secondaryDates, virtual='False') runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_dense_offsets'.format(i)) runObj.denseOffsets(pairs) runObj.finalize()
def interferogramStack(inps, acquisitionDates, stackReferenceDate, secondaryDates, pairs): # an interferogram stack without ionosphere correction. # coregistration is with geometry + const offset i = slcStack(inps, acquisitionDates, stackReferenceDate, secondaryDates, pairs, splitFlag=False, rubberSheet=False) i+=1 runObj = run() runObj.configure(inps, 'run_{:02d}_igram'.format(i)) config_prefix = 'config_igram_' low_or_high = "/" runObj.igrams_network(pairs, acquisitionDates, stackReferenceDate, low_or_high, config_prefix) runObj.finalize() return
def offsetStack(inps, acquisitionDates, stackReferenceDate, secondaryDates, safe_dict, pairs, updateStack): i = slcStack(inps, acquisitionDates, stackReferenceDate, secondaryDates, safe_dict, updateStack) # default value of virtual_merge virtual_merge = 'False' if not inps.virtualMerge else inps.virtualMerge i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_merge_reference_secondary_slc'.format(i)) runObj.mergeReference(stackReferenceDate, virtual=virtual_merge) runObj.mergeSecondarySLC(secondaryDates, virtual=virtual_merge) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_dense_offsets'.format(i)) runObj.denseOffsets(pairs) runObj.finalize() return i
def correlationStack(inps, acquisitionDates, stackMasterDate, slaveDates, safe_dict, pairs, updateStack): ############################# i = slcStack(inps, acquisitionDates, stackMasterDate, slaveDates, safe_dict, updateStack) i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_merge_master") runObj.mergeMaster(stackMasterDate, virtual='False') runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_merge_burst_igram") runObj.burstIgram_mergeBurst(acquisitionDates, safe_dict, pairs) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_filter_coherence") runObj.filter_coherence(pairs) runObj.finalize()
def interferogramStack(inps, acquisitionDates, stackMasterDate, slaveDates, pairs): # an interferogram stack without ionosphere correction. # coregistration is with geometry + const offset i = slcStack(inps, acquisitionDates, stackMasterDate, slaveDates, pairs, splitFlag=False, rubberSheet=False) i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_igram") config_prefix = 'config_igram_' low_or_high = "/" runObj.igrams_network(pairs, acquisitionDates, stackMasterDate, low_or_high, config_prefix) runObj.finalize()
def slcStack(inps, acquisitionDates, stackMasterDate, slaveDates, pairs, splitFlag=False, rubberSheet=False): # A coregistered stack of SLCs i = 0 if inps.bbox: i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_crop") config_prefix = "config_crop_" runObj.crop(acquisitionDates, config_prefix, native=not inps.zerodop, israw=not inps.nofocus) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_master") config_prefix = "config_master_" runObj.master_focus_split_geometry(stackMasterDate, config_prefix, split=splitFlag, focus=not inps.nofocus, native=not inps.zerodop) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_focus_split") config_prefix = "config_focus_split" runObj.slaves_focus_split(slaveDates, config_prefix, split=splitFlag, focus=not inps.nofocus, native=not inps.zerodop) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_geo2rdr_coarseResamp") config_prefix = "config_geo2rdr_coarseResamp_" runObj.slaves_geo2rdr_resampleSlc(stackMasterDate, slaveDates, config_prefix, native=(not inps.nofocus) or (not inps.zerodop)) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_refineSlaveTiming") config_prefix = 'config_refineSlaveTiming_' runObj.refineSlaveTiming_Network(pairs, stackMasterDate, slaveDates, config_prefix) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_invertMisreg") runObj.invertMisregPoly() runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_fineResamp") config_prefix = 'config_fineResamp_' runObj.slaves_fine_resampleSlc(stackMasterDate, slaveDates, config_prefix, split=splitFlag) runObj.finalize() if rubberSheet: i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_denseOffset") config_prefix = 'config_denseOffset_' runObj.denseOffsets_Network(pairs, stackMasterDate, slaveDates, config_prefix) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_invertDenseOffsets") runObj.invertDenseOffsets() runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_resampleOffset") config_prefix = 'config_resampOffsets_' runObj.resampleOffset(slaveDates, config_prefix) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_replaceOffsets") runObj.replaceOffsets(slaveDates) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_fineResamp") config_prefix = 'config_fineResamp_' runObj.slaves_fine_resampleSlc(stackMasterDate, slaveDates, config_prefix, split=splitFlag) runObj.finalize() # adding the baseline grid generation i += 1 config_prefix = 'config_baselinegrid_' runObj = run() runObj.configure(inps, 'run_' + str(i) + "_grid_baseline") runObj.gridBaseline(stackMasterDate, slaveDates, config_prefix) runObj.finalize() return i
def slcStack(inps, acquisitionDates, stackMasterDate, slaveDates, safe_dict, updateStack, mergeSLC=False): ############################# i=0 if not updateStack: i += 1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_unpack_topo_master") runObj.unpackStackMasterSLC(safe_dict) runObj.finalize() i+=1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_unpack_slave_slc") runObj.unpackSlavesSLC(stackMasterDate, slaveDates, safe_dict) runObj.finalize() i+=1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_average_baseline") runObj.averageBaseline(stackMasterDate, slaveDates) runObj.finalize() if inps.coregistration in ['NESD', 'nesd']: if not updateStack: i+=1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_extract_burst_overlaps") runObj.extractOverlaps() runObj.finalize() i+=1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_overlap_geo2rdr_resample") runObj.overlap_geo2rdr_resample(slaveDates) runObj.finalize() i+=1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_pairs_misreg") if updateStack: runObj.pairs_misregistration(slaveDates, safe_dict) else: runObj.pairs_misregistration(acquisitionDates, safe_dict) runObj.finalize() i+=1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_timeseries_misreg") runObj.timeseries_misregistration() runObj.finalize() i+=1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_geo2rdr_resample") runObj.geo2rdr_resample(slaveDates) runObj.finalize() i+=1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_extract_stack_valid_region") runObj.extractStackValidRegion() runObj.finalize() if mergeSLC: i+=1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_merge") runObj.mergeMaster(stackMasterDate, virtual = 'False') runObj.mergeSlaveSLC(slaveDates, virtual = 'False') runObj.finalize() i+=1 runObj = run() runObj.configure(inps, 'run_' + str(i) + "_grid_baseline") runObj.gridBaseline(stackMasterDate, slaveDates) runObj.finalize() return i
def slcStack(inps, acquisitionDates, stackReferenceDate, secondaryDates, safe_dict, updateStack, mergeSLC=False): ############################# i = 0 if not updateStack: i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_unpack_topo_reference'.format(i)) runObj.unpackStackReferenceSLC(safe_dict) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_unpack_secondary_slc'.format(i)) runObj.unpackSecondarysSLC(stackReferenceDate, secondaryDates, safe_dict) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_average_baseline'.format(i)) runObj.averageBaseline(stackReferenceDate, secondaryDates) runObj.finalize() if inps.coregistration in ['NESD', 'nesd']: if not updateStack: i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_extract_burst_overlaps'.format(i)) runObj.extractOverlaps() runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_overlap_geo2rdr'.format(i)) runObj.geo2rdr_offset(secondaryDates) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_overlap_resample'.format(i)) runObj.resample_with_carrier(secondaryDates) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_pairs_misreg'.format(i)) if updateStack: runObj.pairs_misregistration(secondaryDates, safe_dict) else: runObj.pairs_misregistration(acquisitionDates, safe_dict) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_timeseries_misreg'.format(i)) runObj.timeseries_misregistration() runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_fullBurst_geo2rdr'.format(i)) runObj.geo2rdr_offset(secondaryDates, fullBurst='True') runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_fullBurst_resample'.format(i)) runObj.resample_with_carrier(secondaryDates, fullBurst='True') runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_extract_stack_valid_region'.format(i)) runObj.extractStackValidRegion() runObj.finalize() if mergeSLC: i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_merge_reference_secondary_slc'.format(i)) runObj.mergeReference(stackReferenceDate, virtual='False') runObj.mergeSecondarySLC(secondaryDates, virtual='False') runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_grid_baseline'.format(i)) runObj.gridBaseline(stackReferenceDate, secondaryDates) runObj.finalize() return i
def slcStack(inps, acquisitionDates, stackReferenceDate, secondaryDates, pairs, splitFlag=False, rubberSheet=False): # A coregistered stack of SLCs i = 0 if inps.bbox: i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_crop'.format(i)) config_prefix = "config_crop_" runObj.crop(acquisitionDates, config_prefix, native=not inps.zerodop, israw=not inps.nofocus) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_reference'.format(i)) config_prefix = "config_reference_" runObj.reference_focus_split_geometry(stackReferenceDate, config_prefix, split=splitFlag, focus=not inps.nofocus, native=not inps.zerodop) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_focus_split'.format(i)) config_prefix = "config_focus_split" runObj.secondarys_focus_split(secondaryDates, config_prefix, split=splitFlag, focus=not inps.nofocus, native=not inps.zerodop) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_geo2rdr_coarseResamp'.format(i)) config_prefix = "config_geo2rdr_coarseResamp_" runObj.secondarys_geo2rdr_resampleSlc(stackReferenceDate, secondaryDates, config_prefix, native=(not inps.nofocus) or (not inps.zerodop)) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_refineSecondaryTiming'.format(i)) config_prefix = 'config_refineSecondaryTiming_' runObj.refineSecondaryTiming_Network(pairs, stackReferenceDate, secondaryDates, config_prefix) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_invertMisreg'.format(i)) runObj.invertMisregPoly() runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_fineResamp'.format(i)) config_prefix = 'config_fineResamp_' runObj.secondarys_fine_resampleSlc(stackReferenceDate, secondaryDates, config_prefix, split=splitFlag) runObj.finalize() if rubberSheet: i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_denseOffset'.format(i)) config_prefix = 'config_denseOffset_' runObj.denseOffsets_Network(pairs, stackReferenceDate, secondaryDates, config_prefix) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_invertDenseOffsets'.format(i)) runObj.invertDenseOffsets() runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_resampleOffset'.format(i)) config_prefix = 'config_resampOffsets_' runObj.resampleOffset(secondaryDates, config_prefix) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_replaceOffsets'.format(i)) runObj.replaceOffsets(secondaryDates) runObj.finalize() i += 1 runObj = run() runObj.configure(inps, 'run_{:02d}_fineResamp'.format(i)) config_prefix = 'config_fineResamp_' runObj.secondarys_fine_resampleSlc(stackReferenceDate, secondaryDates, config_prefix, split=splitFlag) runObj.finalize() # adding the baseline grid generation i += 1 config_prefix = 'config_baselinegrid_' runObj = run() runObj.configure(inps, 'run_{:02d}_grid_baseline'.format(i)) runObj.gridBaseline(stackReferenceDate, secondaryDates, config_prefix) runObj.finalize() return i