#!/usr/bin/env python # -*- coding: utf-8 -*- """Iterates over a bunch of .jpg or .cr2 files and matches DateTimeOriginal from Exif tag to DateTime in a csv log of a GeigerMuellerCounter and writes its value to the UserComment Exif tag in µS/h""" from datetime import datetime import os import shutil import csv import argparse import pyexiv2 import gpxpy # SIFACTOR for GQ Geiger counters # 300 series: 0.0065 µSv/h / CPM # 320 series: 0.0065 µSv/h / CPM # 500 series: 0.0065 µSv/h / CPM # 500+ series: 0.0065 µSv/h / CPM for the first tube # 600 series: 0.0065 µSv/h / CPM # 600+ series: 0.002637 µSv/h / CPM # Configure argument parser for cli options parser = argparse.ArgumentParser(formatter_class=argparse.ArgumentDefaultsHelpFormatter, description='''A unix-tyle tool that extracts GPS and/or radiation data from GPX/CSV files and writes them into the Exif tags of given photos.''') parser.add_argument('-si', '--sifactor', type=float, default=0.0065, help='Factor to multiply recorded CPM with.') parser.add_argument('-d', '--dry', action='store_true', help='Dry-run, do not actually write anything.') parser.add_argument('csv', metavar='CSV', type=str, help='Geiger counter history file in CSV format.') parser.add_argument('-g', '--gpx', metavar='GPX', type=str, help='GPS track in GPX format') parser.add_argument('photos', metavar='Photo', type=str, nargs='+', help='One or multiple photo image files to process.') parser.add_argument('-o', '--outdir', type=str, default='.', help='Directory to output processed photos.') args = parser.parse_args() # Inform the user about what is going to happen if args.outdir == ".": print('Modifying photos in place (overwrite)') else: print('Modifying photos in', str(args.outdir), '(copy)') # Print table header print('{:<15} {:<20} {:<22}'.format('filename', 'date / time', 'Exif UserComment')) for srcphoto in args.photos: # Get image file name out of path photo_basename = os.path.basename(srcphoto) # Decide whether to modify photo in place or to copy it to outdir first # Then set the destination file as 'photo' to work on if args.outdir == ".": photo = srcphoto else: # be os aware and use the correct directory delimiter for destfile dstphoto = os.path.join(args.outdir, photo_basename) print('dry-run:', args.dry) if args.dry == 'True': print('Copying file!') shutil.copy(srcphoto, dstphoto) photo = dstphoto else: photo = srcphoto # Load Exif data from image metadata = pyexiv2.ImageMetadata(photo) metadata.read() tag = metadata['Exif.Photo.DateTimeOriginal'] # tag.value creates datetime object in pictime pictime = tag.value # Import GeigerCounter log with open(args.csv, "r") as f: csvreader = csv.reader(filter(lambda row: row[0] != '#', f), delimiter=',', skipinitialspace=True) for _, csvrawtime, csvrawcpm, _ in csvreader: csvtime = datetime.fromisoformat(csvrawtime) # Process image if its timestamp is found in CSV log (compares 2 datetime objects) if csvtime == pictime: rad = round(float(csvrawcpm) * args.sifactor, 2) # Set key, value for new UserComment key = 'Exif.Photo.UserComment' new_comment = 'Radiation ☢ ' + str(rad) + ' µS/h' metadata[key] = pyexiv2.ExifTag(key, new_comment) # print found radiation levels print('{:<15} {:<20} {:<22}'.format(photo_basename, str(pictime), new_comment)) # Write Exif tags to file if args.dry == 'True': metadata.write() break else: print('{:<15} {:<20} {:<22}'.format(photo_basename, str(pictime), 'NOT FOUND!')) # close CSV file f.close() # Import GPX track(s) if args.gpx is not None: gpx_file = open(args.gpx, 'r') gpxreader = gpxpy.parse(gpx_file) for waypoint in gpxreader.waypoints: for track in gpxreader.tracks: for segment in track.segments: for point in segment.points: #if pictime == point.time: print(type(point.time)) print(type(pictime)) print(pictime, 'vs.', point.time) # print('Point at ({0},{1}) -> {2}'.format(point.latitude, point.longitude, point.time)) ''' 2018-08-04 17:50:16 vs. 2018-08-04 17:50:03.535000+00:00 2018-08-04 17:50:16 vs. 2018-08-04 17:50:23.327000+00:00'''