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dupeguru/base/py/results.py

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# Created By: Virgil Dupras
# Created On: 2006/02/23
# $Id$
# Copyright 2009 Hardcoded Software (http://www.hardcoded.net)
#
# This software is licensed under the "HS" License as described in the "LICENSE" file,
# which should be included with this package. The terms are also available at
# http://www.hardcoded.net/licenses/hs_license
import logging
import re
from xml.sax import handler, make_parser, SAXException
from xml.sax.saxutils import XMLGenerator
from xml.sax.xmlreader import AttributesImpl
from . import engine
from hsutil.job import nulljob
from hsutil.markable import Markable
from hsutil.misc import flatten, cond, nonone
from hsutil.str import format_size
from hsutil.files import open_if_filename
class Results(Markable):
#---Override
def __init__(self, data_module):
super(Results, self).__init__()
self.__groups = []
self.__group_of_duplicate = {}
self.__groups_sort_descriptor = None # This is a tuple (key, asc)
self.__dupes = None
self.__dupes_sort_descriptor = None # This is a tuple (key, asc, delta)
self.__filters = None
self.__filtered_dupes = None
self.__filtered_groups = None
self.__recalculate_stats()
self.__marked_size = 0
self.data = data_module
def _did_mark(self, dupe):
self.__marked_size += dupe.size
def _did_unmark(self, dupe):
self.__marked_size -= dupe.size
def _get_markable_count(self):
return self.__total_count
def _is_markable(self, dupe):
if dupe.is_ref:
return False
g = self.get_group_of_duplicate(dupe)
if not g:
return False
if dupe is g.ref:
return False
if self.__filtered_dupes and dupe not in self.__filtered_dupes:
return False
return True
#---Private
def __get_dupe_list(self):
if self.__dupes is None:
self.__dupes = flatten(group.dupes for group in self.groups)
if None in self.__dupes:
# This is debug logging to try to figure out #44
logging.warning("There is a None value in the Results' dupe list. dupes: %r groups: %r", self.__dupes, self.groups)
if self.__filtered_dupes:
self.__dupes = [dupe for dupe in self.__dupes if dupe in self.__filtered_dupes]
sd = self.__dupes_sort_descriptor
if sd:
self.sort_dupes(sd[0], sd[1], sd[2])
return self.__dupes
def __get_groups(self):
if self.__filtered_groups is None:
return self.__groups
else:
return self.__filtered_groups
def __get_stat_line(self):
if self.__filtered_dupes is None:
mark_count = self.mark_count
marked_size = self.__marked_size
total_count = self.__total_count
total_size = self.__total_size
else:
mark_count = len([dupe for dupe in self.__filtered_dupes if self.is_marked(dupe)])
marked_size = sum(dupe.size for dupe in self.__filtered_dupes if self.is_marked(dupe))
total_count = len([dupe for dupe in self.__filtered_dupes if self.is_markable(dupe)])
total_size = sum(dupe.size for dupe in self.__filtered_dupes if self.is_markable(dupe))
if self.mark_inverted:
marked_size = self.__total_size - marked_size
result = '%d / %d (%s / %s) duplicates marked.' % (
mark_count,
total_count,
format_size(marked_size, 2),
format_size(total_size, 2),
)
if self.__filters:
result += ' filter: %s' % ' --> '.join(self.__filters)
return result
def __recalculate_stats(self):
self.__total_size = 0
self.__total_count = 0
for group in self.groups:
markable = [dupe for dupe in group.dupes if self._is_markable(dupe)]
self.__total_count += len(markable)
self.__total_size += sum(dupe.size for dupe in markable)
def __set_groups(self, new_groups):
self.mark_none()
self.__groups = new_groups
self.__group_of_duplicate = {}
for g in self.__groups:
for dupe in g:
self.__group_of_duplicate[dupe] = g
if not hasattr(dupe, 'is_ref'):
dupe.is_ref = False
old_filters = nonone(self.__filters, [])
self.apply_filter(None)
for filter_str in old_filters:
self.apply_filter(filter_str)
#---Public
def apply_filter(self, filter_str):
''' Applies a filter 'filter_str' to self.groups
When you apply the filter, only dupes with the filename matching 'filter_str' will be in
in the results. To cancel the filter, just call apply_filter with 'filter_str' to None,
and the results will go back to normal.
If call apply_filter on a filtered results, the filter will be applied
*on the filtered results*.
'filter_str' is a string containing a regexp to filter dupes with.
'''
if not filter_str:
self.__filtered_dupes = None
self.__filtered_groups = None
self.__filters = None
else:
if not self.__filters:
self.__filters = []
self.__filters.append(filter_str)
filter_re = re.compile(filter_str, re.IGNORECASE)
if self.__filtered_dupes is None:
self.__filtered_dupes = flatten(g[:] for g in self.groups)
self.__filtered_dupes = set(dupe for dupe in self.__filtered_dupes if filter_re.search(dupe.name))
filtered_groups = set()
for dupe in self.__filtered_dupes:
filtered_groups.add(self.get_group_of_duplicate(dupe))
self.__filtered_groups = list(filtered_groups)
self.__recalculate_stats()
sd = self.__groups_sort_descriptor
if sd:
self.sort_groups(sd[0], sd[1])
self.__dupes = None
def get_group_of_duplicate(self, dupe):
try:
return self.__group_of_duplicate[dupe]
except (TypeError, KeyError):
return None
is_markable = _is_markable
def load_from_xml(self, infile, get_file, j=nulljob):
self.apply_filter(None)
handler = _ResultsHandler(get_file)
try:
parser = make_parser()
except Exception as e:
# This special handling is to try to figure out the cause of #47
# We don't silently return, because we want the user to send error report.
logging.exception(e)
try:
import xml.parsers.expat
logging.warning('importing xml.parsers.expat went ok, WTF?')
except Exception as e:
# This log should give a little more details about the cause of this all
logging.exception(e)
raise
raise
parser.setContentHandler(handler)
try:
infile, must_close = open_if_filename(infile)
except IOError:
return
BUFSIZE = 1024 * 1024 # 1mb buffer
infile.seek(0, 2)
j.start_job(infile.tell() // BUFSIZE)
infile.seek(0, 0)
try:
while True:
data = infile.read(BUFSIZE)
if not data:
break
parser.feed(data)
j.add_progress()
except SAXException:
return
self.groups = handler.groups
for dupe_file in handler.marked:
self.mark(dupe_file)
def make_ref(self, dupe):
g = self.get_group_of_duplicate(dupe)
r = g.ref
self._remove_mark_flag(dupe)
g.switch_ref(dupe);
if not r.is_ref:
self.__total_count += 1
self.__total_size += r.size
if not dupe.is_ref:
self.__total_count -= 1
self.__total_size -= dupe.size
self.__dupes = None
def perform_on_marked(self, func, remove_from_results):
problems = []
for d in self.dupes:
if self.is_marked(d) and (not func(d)):
problems.append(d)
if remove_from_results:
to_remove = [d for d in self.dupes if self.is_marked(d) and (d not in problems)]
self.remove_duplicates(to_remove)
self.mark_none()
for d in problems:
self.mark(d)
return len(problems)
def remove_duplicates(self, dupes):
'''Remove 'dupes' from their respective group, and remove the group is it ends up empty.
'''
affected_groups = set()
for dupe in dupes:
group = self.get_group_of_duplicate(dupe)
if dupe not in group.dupes:
return
group.remove_dupe(dupe, False)
self._remove_mark_flag(dupe)
self.__total_count -= 1
self.__total_size -= dupe.size
if not group:
self.__groups.remove(group)
if self.__filtered_groups:
self.__filtered_groups.remove(group)
else:
affected_groups.add(group)
for group in affected_groups:
group.discard_matches()
self.__dupes = None
def save_to_xml(self, outfile):
self.apply_filter(None)
outfile, must_close = open_if_filename(outfile, 'wb')
writer = XMLGenerator(outfile, 'utf-8')
writer.startDocument()
empty_attrs = AttributesImpl({})
writer.startElement('results', empty_attrs)
for g in self.groups:
writer.startElement('group', empty_attrs)
dupe2index = {}
for index, d in enumerate(g):
dupe2index[d] = index
try:
words = engine.unpack_fields(d.words)
except AttributeError:
words = ()
attrs = AttributesImpl({
'path': unicode(d.path),
'is_ref': cond(d.is_ref, 'y', 'n'),
'words': ','.join(words),
'marked': cond(self.is_marked(d), 'y', 'n')
})
writer.startElement('file', attrs)
writer.endElement('file')
for match in g.matches:
attrs = AttributesImpl({
'first': str(dupe2index[match.first]),
'second': str(dupe2index[match.second]),
'percentage': str(int(match.percentage)),
})
writer.startElement('match', attrs)
writer.endElement('match')
writer.endElement('group')
writer.endElement('results')
writer.endDocument()
if must_close:
outfile.close()
def sort_dupes(self, key, asc=True, delta=False):
if not self.__dupes:
self.__get_dupe_list()
self.__dupes.sort(key=lambda d: self.data.GetDupeSortKey(d, lambda: self.get_group_of_duplicate(d), key, delta))
if not asc:
self.__dupes.reverse()
self.__dupes_sort_descriptor = (key,asc,delta)
def sort_groups(self,key,asc=True):
self.groups.sort(key=lambda g: self.data.GetGroupSortKey(g, key))
if not asc:
self.groups.reverse()
self.__groups_sort_descriptor = (key,asc)
#---Properties
dupes = property(__get_dupe_list)
groups = property(__get_groups, __set_groups)
stat_line = property(__get_stat_line)
class _ResultsHandler(handler.ContentHandler):
def __init__(self, get_file):
self.group = None
self.dupes = None
self.marked = set()
self.groups = []
self.get_file = get_file
def startElement(self, name, attrs):
if name == 'group':
self.group = engine.Group()
self.dupes = []
return
if (name == 'file') and (self.group is not None):
if not (('path' in attrs) and ('words' in attrs)):
return
path = attrs['path']
file = self.get_file(path)
if file is None:
return
file.words = attrs['words'].split(',')
file.is_ref = attrs.get('is_ref') == 'y'
self.dupes.append(file)
if attrs.get('marked') == 'y':
self.marked.add(file)
if (name == 'match') and (self.group is not None):
try:
first_file = self.dupes[int(attrs['first'])]
second_file = self.dupes[int(attrs['second'])]
percentage = int(attrs['percentage'])
self.group.add_match(engine.Match(first_file, second_file, percentage))
except (IndexError, KeyError, ValueError): # Covers missing attr, non-int values and indexes out of bounds
pass
def endElement(self, name):
def do_match(ref_file, other_files, group):
if not other_files:
return
for other_file in other_files:
group.add_match(engine.get_match(ref_file, other_file))
do_match(other_files[0], other_files[1:], group)
if name == 'group':
group = self.group
self.group = None
dupes = self.dupes
self.dupes = []
if group is None:
return
if len(dupes) < 2:
return
if not group.matches: # <match> elements not present, do it manually, without %
do_match(dupes[0], dupes[1:], group)
group.prioritize(lambda x: dupes.index(x))
self.groups.append(group)