Better output on scanner.

This commit is contained in:
Jason A. Donenfeld 2011-05-23 05:25:45 -04:00
parent 7566bce879
commit 4609fb54e8
4 changed files with 75 additions and 23 deletions

View File

@ -1,6 +1,17 @@
import os.path import os.path
from datetime import datetime from datetime import datetime
def message(category, text):
if message.level <= 0:
sep = " "
else:
sep = "--"
print "%s %s%s[%s]%s%s" % (datetime.now().isoformat(), max(0, message.level) * " |", sep, category, max(1, (14 - len(category))) * " ", text)
message.level = -1
def next_level():
message.level += 1
def back_level():
message.level -= 1
def set_cache_path_base(base): def set_cache_path_base(base):
trim_base.base = base trim_base.base = base
def untrim_base(path): def untrim_base(path):

View File

@ -110,6 +110,8 @@ class Photo(object):
self.is_valid = True self.is_valid = True
try: try:
mtime = file_mtime(path) mtime = file_mtime(path)
except KeyboardInterrupt:
raise
except: except:
self.is_valid = False self.is_valid = False
return return
@ -121,16 +123,20 @@ class Photo(object):
try: try:
image = Image.open(path) image = Image.open(path)
except KeyboardInterrupt:
raise
except: except:
self.is_valid = False self.is_valid = False
return return
self._metadata(image) self._metadata(image)
self._thumbnails(image, thumb_path) self._thumbnails(image, thumb_path, path)
def _metadata(self, image): def _metadata(self, image):
self._attributes["size"] = image.size self._attributes["size"] = image.size
self._orientation = 1 self._orientation = 1
try: try:
info = image._getexif() info = image._getexif()
except KeyboardInterrupt:
raise
except: except:
return return
if not info: if not info:
@ -144,6 +150,8 @@ class Photo(object):
if isinstance(decoded, str) and decoded.startswith("DateTime"): if isinstance(decoded, str) and decoded.startswith("DateTime"):
try: try:
value = datetime.strptime(value, '%Y:%m:%d %H:%M:%S') value = datetime.strptime(value, '%Y:%m:%d %H:%M:%S')
except KeyboardInterrupt:
raise
except: except:
continue continue
exif[decoded] = value exif[decoded] = value
@ -175,6 +183,8 @@ class Photo(object):
if "Flash" in exif and exif["Flash"] in self._metadata.flash_dictionary: if "Flash" in exif and exif["Flash"] in self._metadata.flash_dictionary:
try: try:
self._attributes["flash"] = self._metadata.flash_dictionary[exif["Flash"]] self._attributes["flash"] = self._metadata.flash_dictionary[exif["Flash"]]
except KeyboardInterrupt:
raise
except: except:
pass pass
if "ExposureProgram" in exif and exif["ExposureProgram"] < len(self._metadata.exposure_list): if "ExposureProgram" in exif and exif["ExposureProgram"] < len(self._metadata.exposure_list):
@ -197,19 +207,26 @@ class Photo(object):
_metadata.exposure_list = ["Not Defined", "Manual", "Program AE", "Aperture-priority AE", "Shutter speed priority AE", "Creative (Slow speed)", "Action (High speed)", "Portrait", "Landscape", "Bulb"] _metadata.exposure_list = ["Not Defined", "Manual", "Program AE", "Aperture-priority AE", "Shutter speed priority AE", "Creative (Slow speed)", "Action (High speed)", "Portrait", "Landscape", "Bulb"]
_metadata.orientation_list = ["Horizontal (normal)", "Mirror horizontal", "Rotate 180", "Mirror vertical", "Mirror horizontal and rotate 270 CW", "Rotate 90 CW", "Mirror horizontal and rotate 90 CW", "Rotate 270 CW"] _metadata.orientation_list = ["Horizontal (normal)", "Mirror horizontal", "Rotate 180", "Mirror vertical", "Mirror horizontal and rotate 270 CW", "Rotate 90 CW", "Mirror horizontal and rotate 90 CW", "Rotate 270 CW"]
def _thumbnail(self, image, thumb_path, size, square=False): def _thumbnail(self, image, thumb_path, original_path, size, square=False):
thumb_path = os.path.join(thumb_path, image_cache(self._path, size, square)) thumb_path = os.path.join(thumb_path, image_cache(self._path, size, square))
print "Thumbing %s" % thumb_path info_string = "%s -> %spx" % (os.path.basename(original_path), str(size))
if square:
info_string += ", square"
message("thumbing", info_string)
if os.path.exists(thumb_path) and file_mtime(thumb_path) >= self._attributes["dateTimeFile"]: if os.path.exists(thumb_path) and file_mtime(thumb_path) >= self._attributes["dateTimeFile"]:
return return
gc.collect() gc.collect()
try: try:
image = image.copy() image = image.copy()
except KeyboardInterrupt:
raise
except: except:
try: try:
image = image.copy() # we try again to work around PIL bug image = image.copy() # we try again to work around PIL bug
except KeyboardInterrupt:
raise
except: except:
print "Image is corrupted. %s will not be created." % thumb_path message("corrupt image", os.path.basename(original_path))
return return
if square: if square:
if image.size[0] > image.size[1]: if image.size[0] > image.size[1]:
@ -227,11 +244,14 @@ class Photo(object):
image.thumbnail((size, size), Image.ANTIALIAS) image.thumbnail((size, size), Image.ANTIALIAS)
try: try:
image.save(thumb_path, "JPEG") image.save(thumb_path, "JPEG")
except KeyboardInterrupt:
os.unlink(thumb_path)
raise
except: except:
print "Could not thumbnail %s" % thumb_path message("save failure", os.path.basename(thumb_path))
os.unlink(thumb_path) os.unlink(thumb_path)
def _thumbnails(self, image, thumb_path): def _thumbnails(self, image, thumb_path, original_path):
mirror = image mirror = image
if self._orientation == 2: if self._orientation == 2:
# Vertical Mirror # Vertical Mirror
@ -255,7 +275,7 @@ class Photo(object):
# Rotation 90 # Rotation 90
mirror = image.transpose(Image.ROTATE_90) mirror = image.transpose(Image.ROTATE_90)
for size in Photo.thumb_sizes: for size in Photo.thumb_sizes:
self._thumbnail(mirror, thumb_path, size[0], size[1]) self._thumbnail(mirror, thumb_path, original_path, size[0], size[1])
@property @property
def name(self): def name(self):
return os.path.basename(self._path) return os.path.basename(self._path)
@ -294,6 +314,8 @@ class Photo(object):
if key.startswith("dateTime"): if key.startswith("dateTime"):
try: try:
dictionary[key] = datetime.strptime(dictionary[key], "%a %b %d %H:%M:%S %Y") dictionary[key] = datetime.strptime(dictionary[key], "%a %b %d %H:%M:%S %Y")
except KeyboardInterrupt:
raise
except: except:
pass pass
return Photo(path, None, dictionary) return Photo(path, None, dictionary)

View File

@ -3,7 +3,7 @@ import os.path
import sys import sys
from datetime import datetime from datetime import datetime
from PhotoAlbum import Photo, Album, PhotoAlbumEncoder from PhotoAlbum import Photo, Album, PhotoAlbumEncoder
from CachePath import json_cache, set_cache_path_base, file_mtime from CachePath import *
import json import json
class TreeWalker: class TreeWalker:
@ -16,23 +16,28 @@ class TreeWalker:
self.walk(self.album_path) self.walk(self.album_path)
self.big_lists() self.big_lists()
self.remove_stale() self.remove_stale()
message("complete", "")
def walk(self, path): def walk(self, path):
print "Walking %s" % path next_level()
message("walking", os.path.basename(path))
cache = os.path.join(self.cache_path, json_cache(path)) cache = os.path.join(self.cache_path, json_cache(path))
cached = False cached = False
cached_album = None cached_album = None
if os.path.exists(cache): if os.path.exists(cache):
print "Has cache %s" % path
try: try:
cached_album = Album.from_cache(cache) cached_album = Album.from_cache(cache)
if file_mtime(path) <= file_mtime(cache): if file_mtime(path) <= file_mtime(cache):
print "Album is fully cached" message("full cache", os.path.basename(path))
cached = True cached = True
album = cached_album album = cached_album
for photo in album.photos: for photo in album.photos:
self.all_photos.append(photo) self.all_photos.append(photo)
else:
message("partial cache", os.path.basename(path))
except KeyboardInterrupt:
raise
except: except:
print "Cache is corrupted. Rescanning album." message("corrupt cache", os.path.basename(path))
cached_album = None cached_album = None
if not cached: if not cached:
album = Album(path) album = Album(path)
@ -41,61 +46,70 @@ class TreeWalker:
continue continue
try: try:
entry = entry.decode(sys.getfilesystemencoding()) entry = entry.decode(sys.getfilesystemencoding())
except KeyboardInterrupt:
raise
except: except:
pass pass
entry = os.path.join(path, entry) entry = os.path.join(path, entry)
if os.path.isdir(entry): if os.path.isdir(entry):
album.add_album(self.walk(entry)) album.add_album(self.walk(entry))
elif not cached and os.path.isfile(entry): elif not cached and os.path.isfile(entry):
next_level()
cache_hit = False cache_hit = False
if cached_album: if cached_album:
cached_photo = cached_album.photo_from_path(entry) cached_photo = cached_album.photo_from_path(entry)
if cached_photo and file_mtime(entry) <= cached_photo.attributes["dateTimeFile"]: if cached_photo and file_mtime(entry) <= cached_photo.attributes["dateTimeFile"]:
print "Photo cache hit %s" % entry message("cache hit", os.path.basename(entry))
cache_hit = True cache_hit = True
photo = cached_photo photo = cached_photo
if not cache_hit: if not cache_hit:
print "No cache, scanning %s" % entry message("metainfo", os.path.basename(entry))
photo = Photo(entry, self.cache_path) photo = Photo(entry, self.cache_path)
if photo.is_valid: if photo.is_valid:
self.all_photos.append(photo) self.all_photos.append(photo)
album.add_photo(photo) album.add_photo(photo)
else:
message("unreadable", os.path.basename(entry))
back_level()
if not album.empty: if not album.empty:
print "Writing cache of %s" % album.cache_path message("caching", os.path.basename(path))
album.cache(self.cache_path) album.cache(self.cache_path)
self.all_albums.append(album) self.all_albums.append(album)
else: else:
print "Not writing cache of %s because it's empty" % album.cache_path message("empty", os.path.basename(path))
back_level()
return album return album
def big_lists(self): def big_lists(self):
photo_list = [] photo_list = []
self.all_photos.sort() self.all_photos.sort()
for photo in self.all_photos: for photo in self.all_photos:
photo_list.append(photo.path) photo_list.append(photo.path)
print "Writing all photos list." message("caching", "all photos path list")
fp = open(os.path.join(self.cache_path, "all_photos.json"), 'w') fp = open(os.path.join(self.cache_path, "all_photos.json"), 'w')
json.dump(photo_list, fp, cls=PhotoAlbumEncoder) json.dump(photo_list, fp, cls=PhotoAlbumEncoder)
fp.close() fp.close()
photo_list.reverse() photo_list.reverse()
print "Writing latest photos list." message("caching", "latest photos path list")
fp = open(os.path.join(self.cache_path, "latest_photos.json"), 'w') fp = open(os.path.join(self.cache_path, "latest_photos.json"), 'w')
json.dump(photo_list[0:27], fp, cls=PhotoAlbumEncoder) json.dump(photo_list[0:27], fp, cls=PhotoAlbumEncoder)
fp.close() fp.close()
def remove_stale(self): def remove_stale(self):
print "Building list of all cache entries." message("cleanup", "building stale list")
all_cache_entries = { "all_photos.json": True, "latest_photos.json": True } all_cache_entries = { "all_photos.json": True, "latest_photos.json": True }
for album in self.all_albums: for album in self.all_albums:
all_cache_entries[album.cache_path] = True all_cache_entries[album.cache_path] = True
for photo in self.all_photos: for photo in self.all_photos:
for entry in photo.image_caches: for entry in photo.image_caches:
all_cache_entries[entry] = True all_cache_entries[entry] = True
print "Searching stale cache entries." message("cleanup", "searching for stale cache entries")
for cache in os.listdir(self.cache_path): for cache in os.listdir(self.cache_path):
try: try:
cache = cache.decode(sys.getfilesystemencoding()) cache = cache.decode(sys.getfilesystemencoding())
except KeyboardInterrupt:
raise
except: except:
pass pass
if cache not in all_cache_entries: if cache not in all_cache_entries:
print "Removing stale cache %s" % cache message("cleanup", os.path.basename(cache))
os.unlink(os.path.join(self.cache_path, cache)) os.unlink(os.path.join(self.cache_path, cache))

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@ -1,13 +1,18 @@
#!/usr/bin/env python #!/usr/bin/env python
from TreeWalker import TreeWalker from TreeWalker import TreeWalker
from sys import argv from sys import argv, exit
from CachePath import message
def main(): def main():
if len(argv) != 3: if len(argv) != 3:
print "usage: %s ALBUM_PATH CACHE_PATH" % argv[0] print "usage: %s ALBUM_PATH CACHE_PATH" % argv[0]
return return
try:
TreeWalker(argv[1], argv[2]) TreeWalker(argv[1], argv[2])
except KeyboardInterrupt:
message("keyboard", "CTRL+C pressed, quitting.")
exit(-97)
if __name__ == "__main__": if __name__ == "__main__":
main() main()