#======================================================================= __version__ = '''0.0.01''' __sub_version__ = '''20120315151711''' __copyright__ = '''(c) Alex A. Naanou 2011''' #----------------------------------------------------------------------- import os import json import zipfile import uuid from pprint import pprint from itertools import izip, izip_longest from pli.logictypes import ANY, OR import store #----------------------------------------------------------------------- CONFIG_NAME = 'test_config.json' ##CONFIG_NAME = 'tmp_config.json' config = json.load(open(CONFIG_NAME)) RAW = OR( 'NEF', 'nef', 'CRW', 'crw', 'CR2', 'cr2', 'X3F', 'x3f' ) JPEG = OR( 'JPG', 'jpg', 'JPEG', 'jpeg' ) PSD = OR( 'PSD', 'psd' ) TIFF = OR( 'TIFF', 'tiff', 'TIF', 'tif' ) XMP = OR( 'XMP', 'xmp' ) ITEM = OR(RAW, JPEG, PSD, TIFF, XMP) TYPES = { 'raw': RAW, 'jpeg': JPEG, 'psd': PSD, 'tiff': TIFF, 'xmp': XMP, } SUBTREE_CLASSES = { 'preview': 'preview', 'preview (RAW)': 'RAW preview', } #----------------------------------------------------------------------- ##!!! we will need to normalize the paths to one single scheme (either relative or absolute)... def list_files(root, sub_trees=SUBTREE_CLASSES, type=ITEM): ''' ''' for path, dirs, files in os.walk(root): path = path.split(os.path.sep) # process files... for f in files: name, ext = os.path.splitext(f) # we need the extension wothout the dot... ext = ext[1:] # filter by ext... if ext == type: yield path, name, ext # XXX need to split duplicate named raw files and corresponding # previews... def index_by_name(file_list, types=TYPES.items()): ''' format: { : { : [ (, ), ... ], ... }, ... } ''' res = {} for path, name, ext in file_list: # normalize extension... orig_ext, ext = ext, types[types.index((ANY, ext))][0] if name not in res: # create a name... res[name] = {} if ext not in res[name]: # create an extension... res[name][ext] = [] # general case... res[name][ext] += [(path, orig_ext)] return res # for this to work correctly it must: # - return unique paths # - non of the returnd paths can be a strict subset of any other... ##!!! def split_common(paths): ''' build a common path tree... ''' # pass 1: build list of common paths (None for all differences) # NOTE: we may have stray common path elements but we do # not care abut anything after a None... index = izip_longest(*paths) common = [] for s in index: next = [] for i in s: if s.count(i) > 1: next += [i] else: next += [None] common += [next] # pass 2: cap each common section with a unique element... common = [ list(e) for e in izip(*common)] for c, p in izip(common, paths): if None in c: i = c.index(None) if len(p) <= i: # NOTE: this is the case when we have a None # because a path just ended... i.e. there # was no different element to split at... # XXX do we need to break here? # XXX one way to go here is to simply ignore # such paths... del c[i] continue # in-place update and truncate the common path... c[i] = p[i] del c[i+1:] return common # in essance this need to replace image name with a GID and split up # images that are identically named into seporate GIDs... def split_images(index): ''' This will split groups that contain multiple raw files. Groups are split to contain one raw each. Each image will be grouped to the raw that contains the largest matching sub-path, starting from root. Resulting groups will have a gid as it's key This will fail for any files that live in a common sub-path of any two or more raw files. NOTE: in the case there are two raw files in one path, then we will favor the deeper / longer mathch. ''' for name, data in index.items(): # this will not let us lose the name of the image... data['name'] = name raw = data.get('raw', []) if len(raw) > 1: common = split_common([r for r, e in raw]) # prepare the return structure... res = [] for path in raw: res += [{ 'gid': str(uuid.uuid4()), 'name': name, 'raw': [path], }] # start splitting the data... for t, paths in data.items(): # skip non-type fields... if t not in TYPES: continue if t == 'raw': continue # start the work... for path, ext in paths: matches = [] for i, c in enumerate(common): # use matching path head to match targets... if path[:len(c)] == c: matches += [(len(c), i)] # multiple matches... if len(matches) > 1: # longest match wins... matches.sort(key=lambda e: e[0]) if matches[0][0] == matches[1][0]: # XXX we could try and use a different # strategy... ##!!! do a better error... raise Exception, 'got two targets with same score, can\'t decide where to put the file.' del matches[1:] if len(matches) == 1: i = matches[0][1] # we found a location... if t not in res[i]: res[i][t] = [] res[i][t] += [(path, ext)] else: ##!!! we sometimes fall into here for odd reasons (use tmp_config.json) # output orphan/ungrouped images... # NOTE: these images can be located in a # different place or are orgonized in a # different way... print '%%%%%%', path, name, ext gid = str(uuid.uuid4()) yield gid, { 'gid': gid, 'name': name, t: [(path, ext)], } # yield the results... for e in res: yield e['gid'], e else: gid = data['gid'] = str(uuid.uuid4()) yield gid, data #----------------------------------------------------------------------- ##!!! test implementation: rewrite... import pyexiv2 as metadata import shutil import Image def build_image_cache(ic, min_rating, dest, tmp_path, preview_size=900): # build preview cache for 5* images... for k, e in ic.items(): name = e.get('name', None) xmps = e.get('xmp', None) jpegs = e.get('jpeg', None) raws = e.get('raw', None) ##!!! get tmp dir... ##!!! res = { 'missing preview': [], 'missing raw': [], 'unrated': [], } if xmps is not None: ##!!! avoid manual path forming.... xmp_path = xmps[0][0][0] + '\\' + os.path.join(*(xmps[0][0][1:] + [name])) + '.' + xmps[0][1] # get rating... im = metadata.ImageMetadata(xmp_path) im.read() rating = im['Xmp.xmp.Rating'].value ##!!! cache the rating... e['Rating'] = rating ic[k] = e if rating >= min_rating: # get the jpeg... if jpegs is None: if raws is None: ## print '### can\'t find raws for %s' % name res['missing raw'] += [k] continue raw_path = raws[0][0][0] + '\\' + os.path.join(*(raws[0][0][1:] + [name])) + '.' + raws[0][1] ## print '>> missing preview %s.jpg' % name res['missing preview'] += [raw_path] ##!!! generate jpegs... raw = metadata.ImageMetadata(raw_path) raw.read() for i, p in enumerate(raw.previews): if max(p.dimensions) >= preview_size: # extract preview... tmp_preview_path = os.path.join(tmp_path, '%s-%s%s' % (name, i, p.extension)) open(tmp_preview_path, 'wb').write(p.data) # resize preview... orig = Image.open(tmp_preview_path) scale = preview_size/float(max(*orig.size)) print 'generating preview...' preview = orig.resize((int(orig.size[0]*scale), int(orig.size[1]*scale)), Image.ANTIALIAS) # save preview... print 'saving preview: %s' % name preview_path = os.path.join(dest, k + '-' + name + '.jpg') preview.save(preview_path) # copy metadata... ##!!! need to write metadata to all previews... preview_metadata = metadata.ImageMetadata(preview_path) preview_metadata.read() raw.copy(preview_metadata) preview_metadata.write() # remove temporary files... ##!!! triple-check... try: os.remove(tmp_preview_path) except: pass else: jpg_path = jpegs[0][0][0] + '\\' + os.path.join(*(jpegs[0][0][1:] + [name])) + '.' + jpegs[0][1] # copy the jpeg to the cache... print '>>> copy: %s.jpg' % name ##!!! HACK: manual name generation... ##!!! use a good id, like a timestamp... shutil.copy2(jpg_path, os.path.join(dest, k + '-' + name + '.jpg')) else: ##!!! need to detect unrated shoots... ## print '>> no XMP' res['unrated'] += [k] continue ic.cache_flush() store.pack(ic._path, keep_files=False) return res #----------------------------------------------------------------------- if __name__ == '__main__': lst = list(list_files(config['ARCHIVE_ROOT'])) print len(lst) index = index_by_name(list_files(config['ARCHIVE_ROOT'])) print len(index) index = list(split_images(index_by_name(list_files(config['ARCHIVE_ROOT'])))) l = len(index) index = dict(index) print l, len(index) json.dump(index, file(os.path.join('test', 'filelist.json'), 'w')) root_index = store.dump(index, os.path.join('test', 'index'), index_depth=1) ## ##!!! this is not used in anything yet... ## json.dump(root_index, file(os.path.join('test', 'index', 'file_index.json'), 'w')) store.pack(os.path.join('test', 'index'), keep_files=False) d = store.load(os.path.join('test', 'index')) print len(d) k = d.keys()[0] i = store.Index(os.path.join('test', 'index')) print len(i) ## print i[k] ic = store.IndexWithCache(os.path.join('test', 'index')) print ic[k] ic['000000000000000000000000000000000'] = {} ic.cache_flush() store.pack(ic._path, keep_files=False) ic.__sync__ = True ic['111111111111111111111111111111111'] = {} store.pack(ic._path, keep_files=False) ##!!! revise... res = build_image_cache(ic, 5, os.path.join('test', 'index', 'cache'), os.path.join('test', 'tmp')) os.remove(os.path.join('test', 'index', 'index.pack')) TEST_20K_ITEMS = False if TEST_20K_ITEMS: print 'doing a 20k test...' print 'loading...' full = dict(json.load(file(os.path.join('test', 'filelist of 20k files.json')))) print 'writing files...' root_index = store.dump(full, os.path.join('test', 'index'), index_depth=1) print 'packing files...' # NOTE: the initial archiving seems REALLY SLOW, but working with # small numbers of files from the archive seems adequate... store.pack(os.path.join('test', 'index'), keep_files=True) #======================================================================= # vim:set ts=4 sw=4 nowrap :