lg.info("* Found %d datafiles." % (len(frames))) ## A list of frames. mds = [] # Loop over the frames and upload them to the DFC. for f in frames: ## The basename for the data frame, based on frame information. bn = "%s_%s" % (f.getChipId(), make_time_dir(f.getStartTimeSec())) #bn = "%s_%d-%06d" % (f.getChipId(), f.getStartTimeSec(), f.getStartTimeSubSec()) # Create the frame image. makeFrameImage(bn, f.getPixelMap(), frame_output_path, f.getPixelMask()) # Create the metadata dictionary for the frame. metadata = { "id" : bn, # "chipid" : f.getChipId(), "hv" : f.getBiasVoltage(), "ikrum" : f.getIKrum(), # "lat" : f.getLatitude(), "lon" : f.getLongitude(), "alt" : f.getAltitude(), # "start_time" : f.getStartTimeSec(), "end_time" : f.getEndTimeSec(),
mds = [] ## A list of clusters. klusters = [] # Loop over the frames. for i, f in enumerate(frames): if i % 50 == 0: print("*--> '%s': processing frame % 10d..." % (dp.get_name(), i)) ## The basename for the data frame, based on frame information. bn = "%s_%d-%06d" % (f.getChipId(), f.getStartTimeSec(), f.getStartTimeSubSec()) # Create the frame image. makeFrameImage(bn, f.getPixelMap(), frpath) # Create the metadata dictionary for the frame. metadata = { "id" : bn, # "chipid" : f.getChipId(), "hv" : f.getBiasVoltage(), "ikrum" : f.getIKrum(), # "lat" : f.getLatitude(), "lon" : f.getLongitude(), "alt" : f.getAltitude(), # "start_time" : f.getStartTimeSec(), "end_time" : f.getEndTimeSec(),
klusters = [] ## Frame count. count = 0 # Loop over the frames. for i, f in enumerate(sorted(frames)): if i % 10 == 0: print("* Processing frame % 5d of % 5d..." % (i, max_frames)) ## The basename for the data frame, based on frame information. bn = "%s_%d-%06d" % (f.getChipId(), f.getStartTimeSec(), f.getStartTimeSubSec()) # Create the frame image. makeFrameImage(bn, f.getPixelMap(), frpath) # Create the metadata dictionary for the frame. metadata = { "id" : bn, # "chipid" : f.getChipId(), "hv" : f.getBiasVoltage(), "ikrum" : f.getIKrum(), # "lat" : f.getLatitude(), "lon" : f.getLongitude(), "alt" : f.getAltitude(), # "start_time" : f.getStartTimeSec(), "end_time" : f.getEndTimeSec(),