def write(self): """Save exif data to photo file on disk.""" if self.altitude is not None: self.exif[GPS + 'Altitude'] = float_to_rational(self.altitude) self.exif[GPS + 'AltitudeRef'] = '0' if self.altitude >= 0 else '1' self.exif[GPS + 'Latitude'] = decimal_to_dms(self.latitude) self.exif[GPS + 'LatitudeRef'] = 'N' if self.latitude >= 0 else 'S' self.exif[GPS + 'Longitude'] = decimal_to_dms(self.longitude) self.exif[GPS + 'LongitudeRef'] = 'E' if self.longitude >= 0 else 'W' self.exif[GPS + 'MapDatum'] = 'WGS-84' self.exif.write()
def write(self): """Save exif data to photo file on disk.""" if self.altitude is not None: self.exif[GPS + 'Altitude'] = float_to_rational(self.altitude) self.exif[GPS + 'AltitudeRef'] = '0' if self.altitude >= 0 else '1' self.exif[GPS + 'Latitude'] = decimal_to_dms(self.latitude) self.exif[GPS + 'LatitudeRef'] = 'N' if self.latitude >= 0 else 'S' self.exif[GPS + 'Longitude'] = decimal_to_dms(self.longitude) self.exif[GPS + 'LongitudeRef'] = 'E' if self.longitude >= 0 else 'W' self.exif[GPS + 'MapDatum'] = 'WGS-84' self.exif.write() modified.discard(self) self.liststore.set_value(self.iter, 1, self.long_summary())
def write(self): """Save exif data to photo file on disk.""" self.exif[GPS + 'AltitudeRef'] = '0' if self.altitude >= 0 else '1' self.exif[GPS + 'Altitude'] = Fraction(self.altitude) self.exif[GPS + 'Latitude'] = decimal_to_dms(self.latitude) self.exif[GPS + 'LatitudeRef'] = 'N' if self.latitude >= 0 else 'S' self.exif[GPS + 'Longitude'] = decimal_to_dms(self.longitude) self.exif[GPS + 'LongitudeRef'] = 'E' if self.longitude >= 0 else 'W' self.exif[GPS + 'MapDatum'] = 'WGS-84' self.exif[IPTC + 'City'] = [self.names[0] or ''] self.exif[IPTC + 'ProvinceState'] = [self.names[1] or ''] self.exif[IPTC + 'CountryName'] = [self.names[2] or ''] self.exif.write() modified.discard(self) Widgets.loaded_photos.set_value(self.iter, 1, str(self))
def test_gps_math(self): """Test coordinate conversion functions.""" rats_to_fracs = lambda rats: [Fraction(rat.to_float()) for rat in rats] # Really important that this method is bulletproof self.assertFalse(valid_coords(None, None)) self.assertFalse(valid_coords('', '')) self.assertFalse(valid_coords(True, True)) self.assertFalse(valid_coords(False, False)) self.assertFalse(valid_coords(45, 270)) self.assertFalse(valid_coords(100, 50)) self.assertFalse(valid_coords([], 50)) self.assertFalse(valid_coords(45, {'grunt':42})) self.assertFalse(valid_coords(self, 50)) self.assertFalse(valid_coords(45, valid_coords)) self.assertFalse(valid_coords("ya", "dun goofed")) # St. John's broke the math. I'm not sure why. # Seriously. Revert commit 362dd6eb and watch this explode. stjohns = Coordinates() stjohns.latitude = 47.56494 stjohns.longitude = -52.70931 stjohns.lookup_geoname() self.assertEqual(stjohns.city, "St. John's") # Pick 100 random coordinates on the globe, convert them from decimal # to sexagesimal and then back, and ensure that they are always equal. for _ in range(100): # Oh, and test altitudes too altitude = round(random_coord(1000), 6) fraction = float_to_rational(altitude) self.assertAlmostEqual( abs(altitude), fraction.numerator / fraction.denominator, 3 ) decimal_lat = round(random_coord(80), 6) decimal_lon = round(random_coord(180), 6) self.assertTrue(valid_coords(decimal_lat, decimal_lon)) dms_lat = decimal_to_dms(decimal_lat) dms_lon = decimal_to_dms(decimal_lon) self.assertEqual(len(dms_lat), 3) self.assertEqual( dms_lat[0].numerator, floor(abs(decimal_lat)) ) self.assertEqual(len(dms_lon), 3) self.assertEqual( dms_lon[0].numerator, floor(abs(decimal_lon)) ) self.assertAlmostEqual( decimal_lat, dms_to_decimal(*rats_to_fracs(dms_lat) + ['N' if decimal_lat >= 0 else 'S']), 10 # equal to 10 places ) self.assertAlmostEqual( decimal_lon, dms_to_decimal(*rats_to_fracs(dms_lon) + ['E' if decimal_lon >= 0 else 'W']), 10 # equal to 10 places )
def test_gps_math(self): """Test coordinate conversion functions.""" rats_to_fracs = lambda rats: [Fraction(rat.to_float()) for rat in rats] # Really important that this method is bulletproof self.assertFalse(valid_coords(None, None)) self.assertFalse(valid_coords('', '')) self.assertFalse(valid_coords(True, True)) self.assertFalse(valid_coords(False, False)) self.assertFalse(valid_coords(45, 270)) self.assertFalse(valid_coords(100, 50)) self.assertFalse(valid_coords([], 50)) self.assertFalse(valid_coords(45, {'grunt':42})) self.assertFalse(valid_coords(self, 50)) self.assertFalse(valid_coords(45, valid_coords)) self.assertFalse(valid_coords("ya", "dun goofed")) # St. John's broke the math. I'm not sure why. # Seriously. Revert commit 362dd6eb and watch this explode. stjohns = Coordinates() stjohns.latitude = 47.56494 stjohns.longitude = -52.70931 stjohns.lookup_geoname() self.assertEqual(stjohns.city, "St. John's") # Pick 100 random coordinates on the globe, convert them from decimal # to sexagesimal and then back, and ensure that they are always equal. for i in range(100): # Oh, and test altitudes too altitude = round(random_coord(1000), 6) fraction = float_to_rational(altitude) self.assertAlmostEqual( abs(altitude), fraction.numerator / fraction.denominator, 3 ) decimal_lat = round(random_coord(80), 6) decimal_lon = round(random_coord(180), 6) self.assertTrue(valid_coords(decimal_lat, decimal_lon)) dms_lat = decimal_to_dms(decimal_lat) dms_lon = decimal_to_dms(decimal_lon) self.assertEqual(len(dms_lat), 3) self.assertEqual( dms_lat[0].numerator, floor(abs(decimal_lat)) ) self.assertEqual(len(dms_lon), 3) self.assertEqual( dms_lon[0].numerator, floor(abs(decimal_lon)) ) self.assertAlmostEqual( decimal_lat, dms_to_decimal(*rats_to_fracs(dms_lat) + ['N' if decimal_lat >= 0 else 'S']), 10 # equal to 10 places ) self.assertAlmostEqual( decimal_lon, dms_to_decimal(*rats_to_fracs(dms_lon) + ['E' if decimal_lon >= 0 else 'W']), 10 # equal to 10 places )