From f49f82b74596eda33ee5e2fc14e51fd67351b9ec Mon Sep 17 00:00:00 2001 From: Julien Valroff Date: Tue, 1 Jun 2010 20:31:41 +0200 Subject: Imported Upstream version 0.2.0 --- rapid/metadata.py | 173 +++++++++++++++++++++++++++++++++++++++++++++++++----- 1 file changed, 159 insertions(+), 14 deletions(-) (limited to 'rapid/metadata.py') diff --git a/rapid/metadata.py b/rapid/metadata.py index 1d4b2df..f8886d7 100755 --- a/rapid/metadata.py +++ b/rapid/metadata.py @@ -1,7 +1,7 @@ #!/usr/bin/python # -*- coding: latin1 -*- -### Copyright (C) 2007 Damon Lynch +### Copyright (C) 2007-10 Damon Lynch ### This program is free software; you can redistribute it and/or modify ### it under the terms of the GNU General Public License as published by @@ -20,7 +20,9 @@ import re import datetime import sys +import subprocess import config +import types try: import pyexiv2 @@ -28,18 +30,98 @@ except ImportError: sys.stderr.write("You need to install pyexiv2, the python binding for exiv2, to run this program.\n" ) sys.exit(1) -#only pyexiv2 0.1.2 and 0.1.3 use the "Rational" class -#is there a superior way to find which version of pyexiv2 is being used? +#only pyexiv2 <= 0.1.1 does not use the "Rational" class if 'Rational' in dir(pyexiv2): usesRational = True else: usesRational = False +#get versions of pyexiv2 and exiv2 libraries +if 'version_info' in dir(pyexiv2): + pyexiv2_version = pyexiv2.version_info + exiv2_version = pyexiv2.exiv2_version_info + baseclass = eval('pyexiv2.metadata.ImageMetadata') +else: + pyexiv2_version = (0,1,'x') + # try to determine the version of exiv2 from it's standard output + try: + proc = subprocess.Popen(['exiv2', '-V'], stdout=subprocess.PIPE) + output = proc.communicate()[0] + except: + output = None + exiv2_version = None + if output: + # assume output contains the line 'exiv2 0.x' or possibly + # 'exiv2 0.x.x' + start = output.find('exiv2 ') + if start < 0: + exiv2_version = None + else: + end = output.find('\n', start) + if end: + exiv2_v = output[6:end] + else: + exiv2_v = output[6:] + + exiv2_version = [] + dot = exiv2_v.find('.') + while dot > 0: + exiv2_version += [int(exiv2_v[:dot])] + exiv2_v = exiv2_v[dot+1:] + dot = exiv2_v.find('.') + exiv2_version += [int(exiv2_v)] + exiv2_version = tuple(exiv2_version) + + + baseclass = eval('pyexiv2.Image') + +def __version_info(version): + if not version: + return '' + else: + v = '' + for i in version: + v += '.%s' % i + return v[1:] + +def version_info(): + return __version_info(pyexiv2_version) + +def exiv2_version_info(): + return __version_info(exiv2_version) + +RAW_FILE_EXTENSIONS = ['arw', 'dcr', 'cr2', 'crw', 'dng', 'mos', 'mrw', + 'nef', 'orf', 'pef', 'raf', 'raw', 'sr2'] -class MetaData(pyexiv2.Image): +#exiv2 0.18.1 introduces support for Panasonic .RW2 files +#pyexiv2 in combination with exiv2 0.18 segfaults when trying to read an +#RW2 files, so we should not read those! exiv2 0.17 & pyexiv2 segfaults +#with MEF files. + +if exiv2_version[0] > 0: + RAW_FILE_EXTENSIONS += ['rw2', 'mef'] +else: + if exiv2_version[1] > 17: + RAW_FILE_EXTENSIONS += ['mef'] + if exiv2_version[1] > 18: + RAW_FILE_EXTENSIONS += ['rw2'] + else: + if len(exiv2_version) > 2: + if exiv2_version[2] >= 1: + RAW_FILE_EXTENSIONS += ['rw2'] + +RAW_FILE_EXTENSIONS.sort() + +NON_RAW_IMAGE_FILE_EXTENSIONS = ['jpg', 'jpe', 'jpeg', 'tif', 'tiff'] + + +class MetaData(baseclass): """ Class providing human readable access to image metadata + """ + + __version01__ = pyexiv2_version[0] == 0 and pyexiv2_version[1] == 1 def aperture(self, missing=''): """ @@ -97,10 +179,16 @@ class MetaData(pyexiv2.Image): try: if usesRational: + e = str(self["Exif.Photo.ExposureTime"]) + e0, e1 = e.split('/') e0 = int(e0) e1 = int(e1) + # some values, e.g. Nikon, are in the format "10/1600" + if (e0 > 1) and (e0 < e1): + e1 = e1 / e0 + e0 = 1 else: e0, e1 = self["Exif.Photo.ExposureTime"] @@ -111,7 +199,7 @@ class MetaData(pyexiv2.Image): else: return str(e0) else: - return e + return "%s/%s" % (e0,e1) elif e0 > e1: e = float(e0) / e1 if alternativeFormat: @@ -171,7 +259,7 @@ class MetaData(pyexiv2.Image): def cameraSerial(self, missing=''): try: - keys = self.exifKeys() + keys = self.rpd_keys() if 'Exif.Canon.SerialNumber' in keys: v = self['Exif.Canon.SerialNumber'] elif 'Exif.Nikon3.SerialNumber' in keys: @@ -196,9 +284,11 @@ class MetaData(pyexiv2.Image): def shutterCount(self, missing=''): try: - keys = self.exifKeys() + keys = self.rpd_keys() if 'Exif.Nikon3.ShutterCount' in keys: v = self['Exif.Nikon3.ShutterCount'] + elif 'Exif.Canon.FileNumber' in keys: + v = self['Exif.Canon.FileNumber'] elif 'Exif.Canon.ImageNumber' in keys: v = self['Exif.Canon.ImageNumber'] else: @@ -290,12 +380,13 @@ class MetaData(pyexiv2.Image): Returns missing either metadata value is not present. """ - keys = self.exifKeys() + keys = self.rpd_keys() try: if "Exif.Photo.DateTimeOriginal" in keys: - return self["Exif.Photo.DateTimeOriginal"] + v = self["Exif.Photo.DateTimeOriginal"] else: - return self["Exif.Image.DateTime"] + v = self["Exif.Image.DateTime"] + return v except: return missing @@ -309,11 +400,66 @@ class MetaData(pyexiv2.Image): def orientation(self, missing=''): """ Returns the orientation of the image, as recorded by the camera + Return type int """ try: - return self['Exif.Image.Orientation'] + v = self['Exif.Image.Orientation'] + if isinstance(v, types.StringType): + # pyexiv2 >= 0.2 returns a string, not an int + v = int(v) + return v except: return missing + + # following class methods are designed to cope with using both + # pyexiv2 0.1.x and pyexiv2 0.2.x + + def getThumbnailData(self, max_size_needed=0): + """ + Returns a thumbnail of the image. + + If the image supports multiple thumbnails, and max_size_needed + is not 0, then it will search for the smallest thumbnail that + matches the size required + + The image will be in whatever format the thumbnail itself is, + typically a jpeg or tiff. + """ + if self.__version01__: + return pyexiv2.Image.getThumbnailData(self)[1] + + else: + if not self.previews: + return None, None + else: + if max_size_needed: + for thumbnail in self.previews: + if thumbnail.dimensions[0] >= max_size_needed or thumbnail.dimensions[1] >= max_size_needed: + break + else: + thumbnail = self.previews[-1] + + return thumbnail.data + + def read(self): + if self.__version01__: + self.readMetadata() + else: + pyexiv2.metadata.ImageMetadata.read(self) + + def rpd_keys(self): + if self.__version01__: + return pyexiv2.Image.exifKeys(self) + else: + return self.exif_keys + + def __getitem__(self, key): + if self.__version01__: + return pyexiv2.Image.__getitem__(self, key) + else: + return pyexiv2.metadata.ImageMetadata.__getitem__(self, key).raw_value + + class DummyMetaData(MetaData): """ @@ -376,16 +522,15 @@ class DummyMetaData(MetaData): if __name__ == '__main__': import sys + if (len(sys.argv) != 2): print 'Usage: ' + sys.argv[0] + ' path/to/photo/containing/metadata' m = DummyMetaData() else: m = MetaData(sys.argv[1]) - m.readMetadata() + m.read() -# for i in m.exifKeys(): -# print i print "f"+ m.aperture('missing ') print "ISO " + m.iso('missing ') print m.exposureTime(missing='missing ') + " sec" -- cgit v1.2.3