# Copyright 2016 Hardcoded Software (http://www.hardcoded.net) # # This software is licensed under the "GPLv3" License as described in the "LICENSE" file, # which should be included with this package. The terms are also available at # http://www.gnu.org/licenses/gpl-3.0.html import os import os.path as op import logging import subprocess import re import shutil from send2trash import send2trash from hscommon.jobprogress import job from hscommon.notify import Broadcaster from hscommon.path import Path from hscommon.conflict import smart_move, smart_copy from hscommon.gui.progress_window import ProgressWindow from hscommon.util import delete_if_empty, first, escape, nonone, allsame from hscommon.trans import tr from hscommon import desktop from . import se, me, pe from .pe.photo import get_delta_dimensions from .util import cmp_value, fix_surrogate_encoding from . import directories, results, export, fs, prioritize from .ignore import IgnoreList from .exclude import ExcludeList as ExcludeList from .scanner import ScanType from .gui.deletion_options import DeletionOptions from .gui.details_panel import DetailsPanel from .gui.directory_tree import DirectoryTree from .gui.ignore_list_dialog import IgnoreListDialog from .gui.exclude_list_dialog import ExcludeListDialogCore from .gui.problem_dialog import ProblemDialog from .gui.stats_label import StatsLabel HAD_FIRST_LAUNCH_PREFERENCE = "HadFirstLaunch" DEBUG_MODE_PREFERENCE = "DebugMode" MSG_NO_MARKED_DUPES = tr("There are no marked duplicates. Nothing has been done.") MSG_NO_SELECTED_DUPES = tr("There are no selected duplicates. Nothing has been done.") MSG_MANY_FILES_TO_OPEN = tr( "You're about to open many files at once. Depending on what those " "files are opened with, doing so can create quite a mess. Continue?" ) class DestType: Direct = 0 Relative = 1 Absolute = 2 class JobType: Scan = "job_scan" Load = "job_load" Move = "job_move" Copy = "job_copy" Delete = "job_delete" class AppMode: Standard = 0 Music = 1 Picture = 2 JOBID2TITLE = { JobType.Scan: tr("Scanning for duplicates"), JobType.Load: tr("Loading"), JobType.Move: tr("Moving"), JobType.Copy: tr("Copying"), JobType.Delete: tr("Sending to Trash"), } class DupeGuru(Broadcaster): """Holds everything together. Instantiated once per running application, it holds a reference to every high-level object whose reference needs to be held: :class:`~core.results.Results`, :class:`~core.directories.Directories`, :mod:`core.gui` instances, etc.. It also hosts high level methods and acts as a coordinator for all those elements. This is why some of its methods seem a bit shallow, like for example :meth:`mark_all` and :meth:`remove_duplicates`. These methos are just proxies for a method in :attr:`results`, but they are also followed by a notification call which is very important if we want GUI elements to be correctly notified of a change in the data they're presenting. .. attribute:: directories Instance of :class:`~core.directories.Directories`. It holds the current folder selection. .. attribute:: results Instance of :class:`core.results.Results`. Holds the results of the latest scan. .. attribute:: selected_dupes List of currently selected dupes from our :attr:`results`. Whenever the user changes its selection at the UI level, :attr:`result_table` takes care of updating this attribute, so you can trust that it's always up-to-date. .. attribute:: result_table Instance of :mod:`meta-gui ` table listing the results from :attr:`results` """ # --- View interface # get_default(key_name) # set_default(key_name, value) # show_message(msg) # open_url(url) # open_path(path) # reveal_path(path) # ask_yes_no(prompt) --> bool # create_results_window() # show_results_window() # show_problem_dialog() # select_dest_folder(prompt: str) --> str # select_dest_file(prompt: str, ext: str) --> str NAME = PROMPT_NAME = "dupeGuru" PICTURE_CACHE_TYPE = "sqlite" # set to 'shelve' for a ShelveCache def __init__(self, view): if view.get_default(DEBUG_MODE_PREFERENCE): logging.getLogger().setLevel(logging.DEBUG) logging.debug("Debug mode enabled") Broadcaster.__init__(self) self.view = view self.appdata = desktop.special_folder_path( desktop.SpecialFolder.AppData, appname=self.NAME ) if not op.exists(self.appdata): os.makedirs(self.appdata) self.app_mode = AppMode.Standard self.discarded_file_count = 0 self.exclude_list = ExcludeList() self.directories = directories.Directories(self.exclude_list) self.results = results.Results(self) self.ignore_list = IgnoreList() # In addition to "app-level" options, this dictionary also holds options that will be # sent to the scanner. They don't have default values because those defaults values are # defined in the scanner class. self.options = { "escape_filter_regexp": True, "clean_empty_dirs": False, "ignore_hardlink_matches": False, "copymove_dest_type": DestType.Relative, "picture_cache_type": self.PICTURE_CACHE_TYPE, } self.selected_dupes = [] self.details_panel = DetailsPanel(self) self.directory_tree = DirectoryTree(self) self.problem_dialog = ProblemDialog(self) self.ignore_list_dialog = IgnoreListDialog(self) self.exclude_list_dialog = ExcludeListDialogCore(self) self.stats_label = StatsLabel(self) self.result_table = None self.deletion_options = DeletionOptions() self.progress_window = ProgressWindow(self._job_completed, self._job_error) children = [self.directory_tree, self.stats_label, self.details_panel] for child in children: child.connect() # --- Private def _recreate_result_table(self): if self.result_table is not None: self.result_table.disconnect() if self.app_mode == AppMode.Picture: self.result_table = pe.result_table.ResultTable(self) elif self.app_mode == AppMode.Music: self.result_table = me.result_table.ResultTable(self) else: self.result_table = se.result_table.ResultTable(self) self.result_table.connect() self.view.create_results_window() def _get_picture_cache_path(self): cache_type = self.options["picture_cache_type"] cache_name = ( "cached_pictures.shelve" if cache_type == "shelve" else "cached_pictures.db" ) return op.join(self.appdata, cache_name) def _get_dupe_sort_key(self, dupe, get_group, key, delta): if self.app_mode in (AppMode.Music, AppMode.Picture): if key == "folder_path": dupe_folder_path = getattr( dupe, "display_folder_path", dupe.folder_path ) return str(dupe_folder_path).lower() if self.app_mode == AppMode.Picture: if delta and key == "dimensions": r = cmp_value(dupe, key) ref_value = cmp_value(get_group().ref, key) return get_delta_dimensions(r, ref_value) if key == "marked": return self.results.is_marked(dupe) if key == "percentage": m = get_group().get_match_of(dupe) return m.percentage elif key == "dupe_count": return 0 else: result = cmp_value(dupe, key) if delta: refval = cmp_value(get_group().ref, key) if key in self.result_table.DELTA_COLUMNS: result -= refval else: same = cmp_value(dupe, key) == refval result = (same, result) return result def _get_group_sort_key(self, group, key): if self.app_mode in (AppMode.Music, AppMode.Picture): if key == "folder_path": dupe_folder_path = getattr( group.ref, "display_folder_path", group.ref.folder_path ) return str(dupe_folder_path).lower() if key == "percentage": return group.percentage if key == "dupe_count": return len(group) if key == "marked": return len([dupe for dupe in group.dupes if self.results.is_marked(dupe)]) return cmp_value(group.ref, key) def _do_delete(self, j, link_deleted, use_hardlinks, direct_deletion): def op(dupe): j.add_progress() return self._do_delete_dupe( dupe, link_deleted, use_hardlinks, direct_deletion ) j.start_job(self.results.mark_count) self.results.perform_on_marked(op, True) def _do_delete_dupe(self, dupe, link_deleted, use_hardlinks, direct_deletion): if not dupe.path.exists(): return logging.debug("Sending '%s' to trash", dupe.path) str_path = str(dupe.path) if direct_deletion: if op.isdir(str_path): shutil.rmtree(str_path) else: os.remove(str_path) else: send2trash(str_path) # Raises OSError when there's a problem if link_deleted: group = self.results.get_group_of_duplicate(dupe) ref = group.ref linkfunc = os.link if use_hardlinks else os.symlink linkfunc(str(ref.path), str_path) self.clean_empty_dirs(dupe.path.parent()) def _create_file(self, path): # We add fs.Folder to fileclasses in case the file we're loading contains folder paths. return fs.get_file(path, self.fileclasses + [se.fs.Folder]) def _get_file(self, str_path): path = Path(str_path) f = self._create_file(path) if f is None: return None try: f._read_all_info(attrnames=self.METADATA_TO_READ) return f except EnvironmentError: return None def _get_export_data(self): columns = [ col for col in self.result_table.columns.ordered_columns if col.visible and col.name != "marked" ] colnames = [col.display for col in columns] rows = [] for group_id, group in enumerate(self.results.groups): for dupe in group: data = self.get_display_info(dupe, group) row = [fix_surrogate_encoding(data[col.name]) for col in columns] row.insert(0, group_id) rows.append(row) return colnames, rows def _results_changed(self): self.selected_dupes = [ d for d in self.selected_dupes if self.results.get_group_of_duplicate(d) is not None ] self.notify("results_changed") def _start_job(self, jobid, func, args=()): title = JOBID2TITLE[jobid] try: self.progress_window.run(jobid, title, func, args=args) except job.JobInProgressError: msg = tr( "A previous action is still hanging in there. You can't start a new one yet. Wait " "a few seconds, then try again." ) self.view.show_message(msg) def _job_completed(self, jobid): if jobid == JobType.Scan: self._results_changed() if not self.results.groups: self.view.show_message(tr("No duplicates found.")) else: self.view.show_results_window() if jobid in {JobType.Move, JobType.Delete}: self._results_changed() if jobid == JobType.Load: self._recreate_result_table() self._results_changed() self.view.show_results_window() if jobid in {JobType.Copy, JobType.Move, JobType.Delete}: if self.results.problems: self.problem_dialog.refresh() self.view.show_problem_dialog() else: msg = { JobType.Copy: tr("All marked files were copied successfully."), JobType.Move: tr("All marked files were moved successfully."), JobType.Delete: tr( "All marked files were successfully sent to Trash." ), }[jobid] self.view.show_message(msg) def _job_error(self, jobid, err): if jobid == JobType.Load: msg = tr("Could not load file: {}").format(err) self.view.show_message(msg) return False else: raise err @staticmethod def _remove_hardlink_dupes(files): seen_inodes = set() result = [] for file in files: try: inode = file.path.stat().st_ino except OSError: # The file was probably deleted or something continue if inode not in seen_inodes: seen_inodes.add(inode) result.append(file) return result def _select_dupes(self, dupes): if dupes == self.selected_dupes: return self.selected_dupes = dupes self.notify("dupes_selected") # --- Protected def _get_fileclasses(self): if self.app_mode == AppMode.Picture: return [pe.photo.PLAT_SPECIFIC_PHOTO_CLASS] elif self.app_mode == AppMode.Music: return [me.fs.MusicFile] else: return [se.fs.File] def _prioritization_categories(self): if self.app_mode == AppMode.Picture: return pe.prioritize.all_categories() elif self.app_mode == AppMode.Music: return me.prioritize.all_categories() else: return prioritize.all_categories() # --- Public def add_directory(self, d): """Adds folder ``d`` to :attr:`directories`. Shows an error message dialog if something bad happens. :param str d: path of folder to add """ try: self.directories.add_path(Path(d)) self.notify("directories_changed") except directories.AlreadyThereError: self.view.show_message(tr("'{}' already is in the list.").format(d)) except directories.InvalidPathError: self.view.show_message(tr("'{}' does not exist.").format(d)) def add_selected_to_ignore_list(self): """Adds :attr:`selected_dupes` to :attr:`ignore_list`. """ dupes = self.without_ref(self.selected_dupes) if not dupes: self.view.show_message(MSG_NO_SELECTED_DUPES) return msg = tr( "All selected %d matches are going to be ignored in all subsequent scans. Continue?" ) if not self.view.ask_yes_no(msg % len(dupes)): return for dupe in dupes: g = self.results.get_group_of_duplicate(dupe) for other in g: if other is not dupe: self.ignore_list.Ignore(str(other.path), str(dupe.path)) self.remove_duplicates(dupes) self.ignore_list_dialog.refresh() def apply_filter(self, filter): """Apply a filter ``filter`` to the results so that it shows only dupe groups that match it. :param str filter: filter to apply """ self.results.apply_filter(None) if self.options["escape_filter_regexp"]: filter = escape(filter, set("()[]\\.|+?^")) filter = escape(filter, "*", ".") self.results.apply_filter(filter) self._results_changed() def clean_empty_dirs(self, path): if self.options["clean_empty_dirs"]: while delete_if_empty(path, [".DS_Store"]): path = path.parent() def clear_picture_cache(self): try: os.remove(self._get_picture_cache_path()) except FileNotFoundError: pass # we don't care def copy_or_move(self, dupe, copy: bool, destination: str, dest_type: DestType): source_path = dupe.path location_path = first(p for p in self.directories if dupe.path in p) dest_path = Path(destination) if dest_type in {DestType.Relative, DestType.Absolute}: # no filename, no windows drive letter source_base = source_path.remove_drive_letter().parent() if dest_type == DestType.Relative: source_base = source_base[location_path:] dest_path = dest_path[source_base] if not dest_path.exists(): dest_path.makedirs() # Add filename to dest_path. For file move/copy, it's not required, but for folders, yes. dest_path = dest_path[source_path.name] logging.debug("Copy/Move operation from '%s' to '%s'", source_path, dest_path) # Raises an EnvironmentError if there's a problem if copy: smart_copy(source_path, dest_path) else: smart_move(source_path, dest_path) self.clean_empty_dirs(source_path.parent()) def copy_or_move_marked(self, copy): """Start an async move (or copy) job on marked duplicates. :param bool copy: If True, duplicates will be copied instead of moved """ def do(j): def op(dupe): j.add_progress() self.copy_or_move(dupe, copy, destination, desttype) j.start_job(self.results.mark_count) self.results.perform_on_marked(op, not copy) if not self.results.mark_count: self.view.show_message(MSG_NO_MARKED_DUPES) return opname = tr("copy") if copy else tr("move") prompt = tr("Select a directory to {} marked files to").format(opname) destination = self.view.select_dest_folder(prompt) if destination: desttype = self.options["copymove_dest_type"] jobid = JobType.Copy if copy else JobType.Move self._start_job(jobid, do) def delete_marked(self): """Start an async job to send marked duplicates to the trash. """ if not self.results.mark_count: self.view.show_message(MSG_NO_MARKED_DUPES) return if not self.deletion_options.show(self.results.mark_count): return args = [ self.deletion_options.link_deleted, self.deletion_options.use_hardlinks, self.deletion_options.direct, ] logging.debug("Starting deletion job with args %r", args) self._start_job(JobType.Delete, self._do_delete, args=args) def export_to_xhtml(self): """Export current results to XHTML. The configuration of the :attr:`result_table` (columns order and visibility) is used to determine how the data is presented in the export. In other words, the exported table in the resulting XHTML will look just like the results table. """ colnames, rows = self._get_export_data() export_path = export.export_to_xhtml(colnames, rows) desktop.open_path(export_path) def export_to_csv(self): """Export current results to CSV. The columns and their order in the resulting CSV file is determined in the same way as in :meth:`export_to_xhtml`. """ dest_file = self.view.select_dest_file( tr("Select a destination for your exported CSV"), "csv" ) if dest_file: colnames, rows = self._get_export_data() try: export.export_to_csv(dest_file, colnames, rows) except OSError as e: self.view.show_message(tr("Couldn't write to file: {}").format(str(e))) def get_display_info(self, dupe, group, delta=False): def empty_data(): return {c.name: "---" for c in self.result_table.COLUMNS[1:]} if (dupe is None) or (group is None): return empty_data() try: return dupe.get_display_info(group, delta) except Exception as e: logging.warning( "Exception (type: %s) on GetDisplayInfo for %s: %s", type(e), str(dupe.path), str(e)) return empty_data() def invoke_custom_command(self): """Calls command in ``CustomCommand`` pref with ``%d`` and ``%r`` placeholders replaced. Using the current selection, ``%d`` is replaced with the currently selected dupe and ``%r`` is replaced with that dupe's ref file. If there's no selection, the command is not invoked. If the dupe is a ref, ``%d`` and ``%r`` will be the same. """ cmd = self.view.get_default("CustomCommand") if not cmd: msg = tr( "You have no custom command set up. Set it up in your preferences." ) self.view.show_message(msg) return if not self.selected_dupes: return dupe = self.selected_dupes[0] group = self.results.get_group_of_duplicate(dupe) ref = group.ref cmd = cmd.replace("%d", str(dupe.path)) cmd = cmd.replace("%r", str(ref.path)) match = re.match(r'"([^"]+)"(.*)', cmd) if match is not None: # This code here is because subprocess. Popen doesn't seem to accept, under Windows, # executable paths with spaces in it, *even* when they're enclosed in "". So this is # a workaround to make the damn thing work. exepath, args = match.groups() path, exename = op.split(exepath) subprocess.Popen(exename + args, shell=True, cwd=path) else: subprocess.Popen(cmd, shell=True) def load(self): """Load directory selection and ignore list from files in appdata. This method is called during startup so that directory selection and ignore list, which is persistent data, is the same as when the last session was closed (when :meth:`save` was called). """ self.directories.load_from_file(op.join(self.appdata, "last_directories.xml")) self.notify("directories_changed") p = op.join(self.appdata, "ignore_list.xml") self.ignore_list.load_from_xml(p) self.ignore_list_dialog.refresh() p = op.join(self.appdata, "exclude_list.xml") self.exclude_list.load_from_xml(p) self.exclude_list_dialog.refresh() def load_from(self, filename): """Start an async job to load results from ``filename``. :param str filename: path of the XML file (created with :meth:`save_as`) to load """ def do(j): self.results.load_from_xml(filename, self._get_file, j) self._start_job(JobType.Load, do) def make_selected_reference(self): """Promote :attr:`selected_dupes` to reference position within their respective groups. Each selected dupe will become the :attr:`~core.engine.Group.ref` of its group. If there's more than one dupe selected for the same group, only the first (in the order currently shown in :attr:`result_table`) dupe will be promoted. """ dupes = self.without_ref(self.selected_dupes) changed_groups = set() for dupe in dupes: g = self.results.get_group_of_duplicate(dupe) if g not in changed_groups: if self.results.make_ref(dupe): changed_groups.add(g) # It's not always obvious to users what this action does, so to make it a bit clearer, # we change our selection to the ref of all changed groups. However, we also want to keep # the files that were ref before and weren't changed by the action. In effect, what this # does is that we keep our old selection, but remove all non-ref dupes from it. # If no group was changed, however, we don't touch the selection. if not self.result_table.power_marker: if changed_groups: self.selected_dupes = [ d for d in self.selected_dupes if self.results.get_group_of_duplicate(d).ref is d ] self.notify("results_changed") else: # If we're in "Dupes Only" mode (previously called Power Marker), things are a bit # different. The refs are not shown in the table, and if our operation is successful, # this means that there's no way to follow our dupe selection. Then, the best thing to # do is to keep our selection index-wise (different dupe selection, but same index # selection). self.notify("results_changed_but_keep_selection") def mark_all(self): """Set all dupes in the results as marked. """ self.results.mark_all() self.notify("marking_changed") def mark_none(self): """Set all dupes in the results as unmarked. """ self.results.mark_none() self.notify("marking_changed") def mark_invert(self): """Invert the marked state of all dupes in the results. """ self.results.mark_invert() self.notify("marking_changed") def mark_dupe(self, dupe, marked): """Change marked status of ``dupe``. :param dupe: dupe to mark/unmark :type dupe: :class:`~core.fs.File` :param bool marked: True = mark, False = unmark """ if marked: self.results.mark(dupe) else: self.results.unmark(dupe) self.notify("marking_changed") def open_selected(self): """Open :attr:`selected_dupes` with their associated application. """ if len(self.selected_dupes) > 10: if not self.view.ask_yes_no(MSG_MANY_FILES_TO_OPEN): return for dupe in self.selected_dupes: desktop.open_path(dupe.path) def purge_ignore_list(self): """Remove files that don't exist from :attr:`ignore_list`. """ self.ignore_list.Filter(lambda f, s: op.exists(f) and op.exists(s)) self.ignore_list_dialog.refresh() def remove_directories(self, indexes): """Remove root directories at ``indexes`` from :attr:`directories`. :param indexes: Indexes of the directories to remove. :type indexes: list of int """ try: indexes = sorted(indexes, reverse=True) for index in indexes: del self.directories[index] self.notify("directories_changed") except IndexError: pass def remove_duplicates(self, duplicates): """Remove ``duplicates`` from :attr:`results`. Calls :meth:`~core.results.Results.remove_duplicates` and send appropriate notifications. :param duplicates: duplicates to remove. :type duplicates: list of :class:`~core.fs.File` """ self.results.remove_duplicates(self.without_ref(duplicates)) self.notify("results_changed_but_keep_selection") def remove_marked(self): """Removed marked duplicates from the results (without touching the files themselves). """ if not self.results.mark_count: self.view.show_message(MSG_NO_MARKED_DUPES) return msg = tr("You are about to remove %d files from results. Continue?") if not self.view.ask_yes_no(msg % self.results.mark_count): return self.results.perform_on_marked(lambda x: None, True) self._results_changed() def remove_selected(self): """Removed :attr:`selected_dupes` from the results (without touching the files themselves). """ dupes = self.without_ref(self.selected_dupes) if not dupes: self.view.show_message(MSG_NO_SELECTED_DUPES) return msg = tr("You are about to remove %d files from results. Continue?") if not self.view.ask_yes_no(msg % len(dupes)): return self.remove_duplicates(dupes) def rename_selected(self, newname): """Renames the selected dupes's file to ``newname``. If there's more than one selected dupes, the first one is used. :param str newname: The filename to rename the dupe's file to. """ try: d = self.selected_dupes[0] d.rename(newname) return True except (IndexError, fs.FSError) as e: logging.warning("dupeGuru Warning: %s" % str(e)) return False def reprioritize_groups(self, sort_key): """Sort dupes in each group (in :attr:`results`) according to ``sort_key``. Called by the re-prioritize dialog. Calls :meth:`~core.engine.Group.prioritize` and, once the sorting is done, show a message that confirms the action. :param sort_key: The key being sent to :meth:`~core.engine.Group.prioritize` :type sort_key: f(dupe) """ count = 0 for group in self.results.groups: if group.prioritize(key_func=sort_key): count += 1 self._results_changed() msg = tr("{} duplicate groups were changed by the re-prioritization.").format( count ) self.view.show_message(msg) def reveal_selected(self): if self.selected_dupes: desktop.reveal_path(self.selected_dupes[0].path) def save(self): if not op.exists(self.appdata): os.makedirs(self.appdata) self.directories.save_to_file(op.join(self.appdata, "last_directories.xml")) p = op.join(self.appdata, "ignore_list.xml") self.ignore_list.save_to_xml(p) p = op.join(self.appdata, "exclude_list.xml") self.exclude_list.save_to_xml(p) self.notify("save_session") def save_as(self, filename): """Save results in ``filename``. :param str filename: path of the file to save results (as XML) to. """ try: self.results.save_to_xml(filename) except OSError as e: self.view.show_message(tr("Couldn't write to file: {}").format(str(e))) def start_scanning(self): """Starts an async job to scan for duplicates. Scans folders selected in :attr:`directories` and put the results in :attr:`results` """ scanner = self.SCANNER_CLASS() if not self.directories.has_any_file(): self.view.show_message( tr("The selected directories contain no scannable file.") ) return # Send relevant options down to the scanner instance for k, v in self.options.items(): if hasattr(scanner, k): setattr(scanner, k, v) if self.app_mode == AppMode.Picture: scanner.cache_path = self._get_picture_cache_path() self.results.groups = [] self._recreate_result_table() self._results_changed() def do(j): j.set_progress(0, tr("Collecting files to scan")) if scanner.scan_type == ScanType.Folders: files = list( self.directories.get_folders(folderclass=se.fs.Folder, j=j) ) else: files = list( self.directories.get_files(fileclasses=self.fileclasses, j=j) ) if self.options["ignore_hardlink_matches"]: files = self._remove_hardlink_dupes(files) logging.info("Scanning %d files" % len(files)) self.results.groups = scanner.get_dupe_groups(files, self.ignore_list, j) self.discarded_file_count = scanner.discarded_file_count self._start_job(JobType.Scan, do) def toggle_selected_mark_state(self): selected = self.without_ref(self.selected_dupes) if not selected: return if allsame(self.results.is_marked(d) for d in selected): markfunc = self.results.mark_toggle else: markfunc = self.results.mark for dupe in selected: markfunc(dupe) self.notify("marking_changed") def without_ref(self, dupes): """Returns ``dupes`` with all reference elements removed. """ return [ dupe for dupe in dupes if self.results.get_group_of_duplicate(dupe).ref is not dupe ] def get_default(self, key, fallback_value=None): result = nonone(self.view.get_default(key), fallback_value) if fallback_value is not None and not isinstance(result, type(fallback_value)): # we don't want to end up with garbage values from the prefs try: result = type(fallback_value)(result) except Exception: result = fallback_value return result def set_default(self, key, value): self.view.set_default(key, value) # --- Properties @property def stat_line(self): result = self.results.stat_line if self.discarded_file_count: result = tr("%s (%d discarded)") % (result, self.discarded_file_count) return result @property def fileclasses(self): return self._get_fileclasses() @property def SCANNER_CLASS(self): if self.app_mode == AppMode.Picture: return pe.scanner.ScannerPE elif self.app_mode == AppMode.Music: return me.scanner.ScannerME else: return se.scanner.ScannerSE @property def METADATA_TO_READ(self): if self.app_mode == AppMode.Picture: return ["size", "mtime", "dimensions", "exif_timestamp"] elif self.app_mode == AppMode.Music: return [ "size", "mtime", "duration", "bitrate", "samplerate", "title", "artist", "album", "genre", "year", "track", "comment", ] else: return ["size", "mtime"]