#
from __future__ import with_statement
+import hashlib
import random
import re
import time
from django.core.files.uploadedfile import UploadedFile
from django.core.files.storage import DefaultStorage
from django.utils.encoding import force_unicode
-from django.utils.hashcompat import sha_constructor
+from django.utils.translation import get_language
from django.conf import settings
from os import mkdir, path, unlink
from errno import EEXIST, ENOENT
def get_random_hash(seed):
- sha_digest = sha_constructor('%s%s%s%s' %
+ sha_digest = hashlib.sha1('%s%s%s%s' %
(randrange(0, MAX_SESSION_KEY), time.time(), unicode(seed).encode('utf-8', 'replace'),
settings.SECRET_KEY)).digest()
return urlsafe_b64encode(sha_digest).replace('=', '').replace('_', '-').lower()
-def split_tags(tags):
- result = {}
+def split_tags(tags, initial=None):
+ if initial is None:
+ result = {}
+ else:
+ result = initial
+
for tag in tags:
result.setdefault(tag.category, []).append(tag)
return result
-def get_dynamic_path(media, filename, ext=None, maxlen=100):
- from slughifi import slughifi
-
- # how to put related book's slug here?
- if not ext:
- # BookMedia case
- ext = media.formats[media.type].ext
- if media is None or not media.name:
- name = slughifi(filename.split(".")[0])
- else:
- name = slughifi(media.name)
- return 'book/%s/%s.%s' % (ext, name[:maxlen-len('book/%s/.%s' % (ext, ext))-4], ext)
-
-
-# TODO: why is this hard-coded ?
-def book_upload_path(ext=None, maxlen=100):
- return lambda *args: get_dynamic_path(*args, ext=ext, maxlen=maxlen)
-
-
class ExistingFile(UploadedFile):
def __init__(self, path, *args, **kwargs):
class AttachmentHttpResponse(HttpResponse):
"""Response serving a file to be downloaded.
"""
- def __init__ (self, file_path, file_name, mimetype):
+ def __init__(self, file_path, file_name, mimetype):
super(AttachmentHttpResponse, self).__init__(mimetype=mimetype)
self['Content-Disposition'] = 'attachment; filename=%s' % file_name
self.file_path = file_path
def __init__(self, *args, **kwargs):
self.querysets = args
self._count = None
-
+
def count(self):
if not self._count:
self._count = sum(len(qs) for qs in self.querysets)
return self._count
-
+
def __len__(self):
return self.count()
-
+
def __getitem__(self, item):
try:
indices = (offset, stop, step) = item.indices(self.count())
stop = total_len - len(items)
continue
+class SortedMultiQuerySet(MultiQuerySet):
+ def __init__(self, *args, **kwargs):
+ self.order_by = kwargs.pop('order_by', None)
+ self.sortfn = kwargs.pop('sortfn', None)
+ if self.order_by is not None:
+ self.sortfn = lambda a, b: cmp((getattr(a, f) for f in self.order_by),
+ (getattr(b, f) for f in self.order_by))
+ super(SortedMultiQuerySet, self).__init__(*args, **kwargs)
+
+ def __getitem__(self, item):
+ sort_heads = [0] * len(self.querysets)
+ try:
+ indices = (offset, stop, step) = item.indices(self.count())
+ except AttributeError:
+ # it's not a slice - make it one
+ return self[item : item + 1][0]
+ items = []
+ total_len = stop - offset
+ skipped = 0
+ i_s = range(len(sort_heads))
+
+ while len(items) < total_len:
+ candidate = None
+ candidate_i = None
+ for i in i_s:
+ def get_next():
+ return self.querysets[i][sort_heads[i]]
+ try:
+ if candidate is None:
+ candidate = get_next()
+ candidate_i = i
+ else:
+ competitor = get_next()
+ if self.sortfn(candidate, competitor) > 0:
+ candidate = competitor
+ candidate_i = i
+ except IndexError:
+ continue # continue next sort_head
+ # we have no more elements:
+ if candidate is None:
+ break
+ sort_heads[candidate_i] += 1
+ if skipped < offset:
+ skipped += 1
+ continue # continue next item
+ items.append(candidate)
+
+ return items
+
def truncate_html_words(s, num, end_text='...'):
"""Truncates HTML to a certain number of words (not counting tags and
connection.queries = trim_to > 0 \
and connection.queries[-trim_to:] \
or []
-
+
+
+def delete_from_cache_by_language(cache, key_template):
+ cache.delete_many([key_template % lc for lc, ln in settings.LANGUAGES])