# Created By: Virgil Dupras # Created On: 2006/03/03 # Copyright 2013 Hardcoded Software (http://www.hardcoded.net) # # This software is licensed under the "BSD" 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/bsd_license import logging import re import os.path as op from jobprogress import job from hscommon.util import dedupe, rem_file_ext, get_file_ext from hscommon.trans import tr from . import engine from .ignore import IgnoreList # It's quite ugly to have scan types from all editions all put in the same class, but because there's # there will be some nasty bugs popping up (ScanType is used in core when in should exclusively be # used in core_*). One day I'll clean this up. class ScanType: Filename = 0 Fields = 1 FieldsNoOrder = 2 Tag = 3 Folders = 4 Contents = 5 ContentsAudio = 6 #PE FuzzyBlock = 10 ExifTimestamp = 11 TriggerHappyMode = 12 SCANNABLE_TAGS = ['track', 'artist', 'album', 'title', 'genre', 'year'] RE_DIGIT_ENDING = re.compile(r'\d+|\(\d+\)|\[\d+\]|{\d+}') def is_same_with_digit(name, refname): # Returns True if name is the same as refname, but with digits (with brackets or not) at the end if not name.startswith(refname): return False end = name[len(refname):].strip() return RE_DIGIT_ENDING.match(end) is not None def remove_dupe_paths(files): # Returns files with duplicates-by-path removed. Files with the exact same path are considered # duplicates and only the first file to have a path is kept. In certain cases, we have files # that have the same path, but not with the same case, that's why we normalize. However, we also # have case-sensitive filesystems, and in those, we don't want to falsely remove duplicates, # that's why we have a `samefile` mechanism. result = [] path2file = {} for f in files: normalized = str(f.path).lower() if normalized in path2file: try: if op.samefile(normalized, str(path2file[normalized].path)): continue # same file, it's a dupe else: pass # We don't treat them as dupes except OSError: continue # File doesn't exist? Well, treat them as dupes else: path2file[normalized] = f result.append(f) return result class Scanner: def __init__(self): self.ignore_list = IgnoreList() self.discarded_file_count = 0 def _getmatches(self, files, j): if self.size_threshold: j = j.start_subjob([2, 8]) for f in j.iter_with_progress(files, tr("Read size of %d/%d files")): f.size # pre-read, makes a smoother progress if read here (especially for bundles) files = [f for f in files if f.size >= self.size_threshold] if self.scan_type in {ScanType.Contents, ScanType.ContentsAudio, ScanType.Folders}: sizeattr = 'audiosize' if self.scan_type == ScanType.ContentsAudio else 'size' return engine.getmatches_by_contents(files, sizeattr, partial=self.scan_type==ScanType.ContentsAudio, j=j) else: j = j.start_subjob([2, 8]) kw = {} kw['match_similar_words'] = self.match_similar_words kw['weight_words'] = self.word_weighting kw['min_match_percentage'] = self.min_match_percentage if self.scan_type == ScanType.FieldsNoOrder: self.scan_type = ScanType.Fields kw['no_field_order'] = True func = { ScanType.Filename: lambda f: engine.getwords(rem_file_ext(f.name)), ScanType.Fields: lambda f: engine.getfields(rem_file_ext(f.name)), ScanType.Tag: lambda f: [engine.getwords(str(getattr(f, attrname))) for attrname in SCANNABLE_TAGS if attrname in self.scanned_tags], }[self.scan_type] for f in j.iter_with_progress(files, tr("Read metadata of %d/%d files")): logging.debug("Reading metadata of {}".format(str(f.path))) f.words = func(f) return engine.getmatches(files, j=j, **kw) @staticmethod def _key_func(dupe): return -dupe.size @staticmethod def _tie_breaker(ref, dupe): refname = rem_file_ext(ref.name).lower() dupename = rem_file_ext(dupe.name).lower() if 'copy' in dupename: return False if 'copy' in refname: return True if is_same_with_digit(dupename, refname): return False if is_same_with_digit(refname, dupename): return True return len(dupe.path) > len(ref.path) def get_dupe_groups(self, files, j=job.nulljob): j = j.start_subjob([8, 2]) for f in (f for f in files if not hasattr(f, 'is_ref')): f.is_ref = False files = remove_dupe_paths(files) logging.info("Getting matches. Scan type: %d", self.scan_type) matches = self._getmatches(files, j) logging.info('Found %d matches' % len(matches)) j.set_progress(100, tr("Removing false matches")) # In removing what we call here "false matches", we first want to remove, if we scan by # folders, we want to remove folder matches for which the parent is also in a match (they're # "duplicated duplicates if you will). Then, we also don't want mixed file kinds if the # option isn't enabled, we want matches for which both files exist and, lastly, we don't # want matches with both files as ref. if self.scan_type == ScanType.Folders and matches: allpath = {m.first.path for m in matches} allpath |= {m.second.path for m in matches} sortedpaths = sorted(allpath) toremove = set() last_parent_path = sortedpaths[0] for p in sortedpaths[1:]: if p in last_parent_path: toremove.add(p) else: last_parent_path = p matches = [m for m in matches if m.first.path not in toremove or m.second.path not in toremove] if not self.mix_file_kind: matches = [m for m in matches if get_file_ext(m.first.name) == get_file_ext(m.second.name)] matches = [m for m in matches if m.first.path.exists() and m.second.path.exists()] matches = [m for m in matches if not (m.first.is_ref and m.second.is_ref)] if self.ignore_list: j = j.start_subjob(2) iter_matches = j.iter_with_progress(matches, tr("Processed %d/%d matches against the ignore list")) matches = [m for m in iter_matches if not self.ignore_list.AreIgnored(str(m.first.path), str(m.second.path))] logging.info('Grouping matches') groups = engine.get_groups(matches, j) matched_files = dedupe([m.first for m in matches] + [m.second for m in matches]) if self.scan_type in {ScanType.Filename, ScanType.Fields, ScanType.FieldsNoOrder, ScanType.Tag}: self.discarded_file_count = len(matched_files) - sum(len(g) for g in groups) else: # Ticket #195 # To speed up the scan, we don't bother comparing contents of files that are both ref # files. However, this messes up "discarded" counting because there's a missing match # in cases where we end up with a dupe group anyway (with a non-ref file). Because it's # impossible to have discarded matches in exact dupe scans, we simply set it at 0, thus # bypassing our tricky problem. # Also, although ScanType.FuzzyBlock is not always doing exact comparisons, we also # bypass ref comparison, thus messing up with our "discarded" count. So we're # effectively disabling the "discarded" feature in PE, but it's better than falsely # reporting discarded matches. self.discarded_file_count = 0 groups = [g for g in groups if any(not f.is_ref for f in g)] logging.info('Created %d groups' % len(groups)) j.set_progress(100, tr("Doing group prioritization")) for g in groups: g.prioritize(self._key_func, self._tie_breaker) return groups match_similar_words = False min_match_percentage = 80 mix_file_kind = True scan_type = ScanType.Filename scanned_tags = {'artist', 'title'} size_threshold = 0 word_weighting = False