/usr/share/pyshared/quodlibet/browsers/paned.py is in exfalso 2.4-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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# Copyright 2004-2011 Joe Wreschnig, Michael Urman, IƱigo Serna,
# Christoph Reiter, Steven Robertson, Nick Boultbee
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License version 2 as
# published by the Free Software Foundation
import re
import operator
import gobject
import gtk
import pango
from quodlibet import config
from quodlibet import qltk
from quodlibet import util
from quodlibet.browsers.search import SearchBar
from quodlibet.formats import PEOPLE
from quodlibet.formats._album import Collection
from quodlibet.parse import Query, XMLFromPattern
from quodlibet.qltk.songlist import SongList
from quodlibet.qltk.songsmenu import SongsMenu
from quodlibet.qltk.tagscombobox import TagsComboBoxEntry
from quodlibet.qltk.views import AllTreeView
from quodlibet.util import tag, pattern
from quodlibet.util.library import background_filter
def get_headers():
#<=2.1 saved the headers tab seperated, but had a space seperated
#default value, so check for that.
headers = config.get("browsers", "panes")
if headers == "~people album":
return headers.split()
else:
return headers.split("\t")
def save_headers(headers):
headers = "\t".join(headers)
config.set("browsers", "panes", headers)
class PatternEditor(gtk.VBox):
PRESETS = [
["genre", "~people", "album"],
["~people", "album"],
]
COMPLETION = ["genre", "grouping", "~people", "artist", "album", "~year"]
def __init__(self):
super(PatternEditor, self).__init__(spacing=6)
self.__headers = headers = {}
buttons = []
group = None
for tags in self.PRESETS:
tied = "~" + "~".join(tags)
group = gtk.RadioButton(group, "_" + tag(tied))
headers[group] = tags
buttons.append(group)
group = gtk.RadioButton(group, _("_Custom"))
self.__custom = group
headers[group] = []
buttons.append(group)
button_box = gtk.HBox(spacing=6)
self.__model = model = gtk.ListStore(str)
radio_box = gtk.VBox(spacing=6)
for button in buttons:
radio_box.pack_start(button, expand=False)
button.connect('toggled', self.__toggled, button_box, model)
self.pack_start(radio_box, expand=False)
cb = TagsComboBoxEntry(self.COMPLETION)
view = gtk.TreeView(model)
view.set_reorderable(True)
view.set_headers_visible(False)
ctrl_box = gtk.VBox(spacing=6)
add = gtk.Button(stock=gtk.STOCK_ADD)
ctrl_box.pack_start(add, expand=False)
add.connect('clicked', self.__add, model, cb)
remove = gtk.Button(stock=gtk.STOCK_REMOVE)
ctrl_box.pack_start(remove, expand=False)
remove.connect('clicked', self.__remove, view)
selection = view.get_selection()
selection.connect('changed', self.__selection_changed, remove)
selection.emit('changed')
sw = gtk.ScrolledWindow()
sw.set_policy(gtk.POLICY_AUTOMATIC, gtk.POLICY_AUTOMATIC)
sw.set_shadow_type(gtk.SHADOW_IN)
sw.add(view)
edit_box = gtk.VBox(spacing=6)
edit_box.pack_start(cb, expand=False)
edit_box.pack_start(sw)
button_box.pack_start(edit_box)
button_box.pack_start(ctrl_box, expand=False)
self.pack_start(button_box)
render = gtk.CellRendererText()
render.set_property("editable", True)
def edited_cb(render, path, text, model):
model[path][0] = text
render.connect("edited", edited_cb, model)
column = gtk.TreeViewColumn(None, render, text=0)
view.append_column(column)
def __get_headers(self):
for button in self.__headers.iterkeys():
if button.get_active():
if button == self.__custom:
model_headers = [row[0] for row in self.__model]
self.__headers[self.__custom] = model_headers
return self.__headers[button]
def __set_headers(self, new_headers):
for button, headers in self.__headers.iteritems():
if headers == new_headers:
button.set_active(True)
break
else:
self.__headers[self.__custom] = new_headers
self.__custom.set_active(True)
headers = property(__get_headers, __set_headers)
def __selection_changed(self, selection, remove):
remove.set_sensitive(bool(selection.get_selected()[1]))
def __add(self, button, model, cb):
if cb.tag:
model.append(row=[cb.tag])
def __remove(self, button, view):
model, iter = view.get_selection().get_selected()
if iter:
model.remove(iter)
def __toggled(self, button, edit_widget, model):
tags = self.__headers[button]
if tags:
model.clear()
for h in tags:
model.append(row=[h])
edit_widget.set_sensitive(
button.get_active() and button is self.__custom)
class Preferences(qltk.UniqueWindow):
def __init__(self, parent=None):
if self.is_not_unique():
return
super(Preferences, self).__init__()
self.set_transient_for(qltk.get_top_parent(parent))
self.set_default_size(350, 270)
self.set_border_width(12)
self.set_title(_("Paned Browser Preferences") + " - Quod Libet")
vbox = gtk.VBox(spacing=12)
editor = PatternEditor()
editor.headers = get_headers()
apply = gtk.Button(stock=gtk.STOCK_APPLY)
apply.connect_object("clicked", self.__apply, editor, False)
cancel = gtk.Button(stock=gtk.STOCK_CANCEL)
cancel.connect("clicked", lambda x: self.destroy())
ok = gtk.Button(stock=gtk.STOCK_OK)
ok.connect_object("clicked", self.__apply, editor, True)
box = gtk.HButtonBox()
box.set_spacing(6)
box.set_layout(gtk.BUTTONBOX_END)
box.pack_start(apply)
box.pack_start(cancel)
box.pack_start(ok)
vbox.pack_start(editor)
vbox.pack_start(box, expand=False)
self.add(vbox)
ok.grab_focus()
self.show_all()
def __apply(self, editor, close):
if editor.headers != get_headers():
save_headers(editor.headers)
PanedBrowser.set_all_panes()
if close:
self.destroy()
ALL, SONGS, UNKNOWN = range(3)
UNKNOWN_MARKUP = "<b>%s</b>" % _("Unknown")
ALL_MARKUP = "<b>%s</b>" % _("All")
class SongSelection(Collection):
def __init__(self, key):
super(SongSelection, self).__init__()
self.songs = set()
self.key = key
def all_have(self, key, value):
"""Check if all songs have the give tag and it contains the value.
Used for filtering.."""
if key[:2] == "~#" and "~" not in key[2:]:
for song in self.songs:
if song(key) != value:
return False
else:
for song in self.songs:
if value not in song.list(key):
return False
return True
class PanedBrowser(SearchBar, util.InstanceTracker):
expand = qltk.RVPaned
name = _("Paned Browser")
accelerated_name = _("_Paned Browser")
priority = 3
def set_all_panes(klass):
for browser in klass.instances():
browser.refresh_panes()
browser.fill_panes()
set_all_panes = classmethod(set_all_panes)
class Pane(AllTreeView):
__render = gtk.CellRendererText()
__render.set_property('ellipsize', pango.ELLIPSIZE_END)
__render_count = gtk.CellRendererText()
__render_count.set_property('xalign', 1.0)
__restore_values = None
@classmethod
def set_restore(klass, selected):
klass.__restore_values = selected
@staticmethod
def __count_cdf(column, cell, model, iter, display_pattern):
type, songs = model[iter]
if type != ALL:
cell.markup = display_pattern(songs)
else:
cell.markup = ""
cell.set_property('markup', cell.markup)
@staticmethod
def __text_cdf(column, cell, model, iter, markup):
type, songs = model[iter]
if type == SONGS:
if markup:
cell.markup = songs.key
cell.set_property('markup', cell.markup)
else:
cell.markup = None
cell.set_property('text', songs.key)
else:
if type == ALL:
cell.markup = ALL_MARKUP
else:
cell.markup = UNKNOWN_MARKUP
cell.set_property('markup', cell.markup)
def __init__(self, prefs, next, library):
super(PanedBrowser.Pane, self).__init__()
self.set_fixed_height_mode(True)
title, self.tags, self.__format, \
self.__markup, disp_format = self.__parse_prefs(prefs)
self.__next = next
self.__model = model = gtk.ListStore(int, object)
self.__sort_cache = {}
self.__key_cache = {}
column = gtk.TreeViewColumn()
label = gtk.Label(title)
label.set_use_markup(True)
column.set_widget(label)
label.show()
column.set_sizing(gtk.TREE_VIEW_COLUMN_FIXED)
column.set_fixed_width(50)
column.pack_start(self.__render)
column.set_cell_data_func(self.__render,
self.__text_cdf, self.__markup)
column.pack_start(self.__render_count, expand=False)
column.set_cell_data_func(self.__render_count,
self.__count_cdf, disp_format)
self.append_column(column)
self.set_model(model)
self.set_search_equal_func(self.__search_func)
selection = self.get_selection()
selection.set_mode(gtk.SELECTION_MULTIPLE)
self.__sig = selection.connect('changed', self.__selection_changed)
s = self.connect('popup-menu', self.__popup_menu, library)
self.connect_object('destroy', self.disconnect, s)
targets = [("text/x-quodlibet-songs", gtk.TARGET_SAME_APP, 1),
("text/uri-list", 0, 2)]
self.drag_source_set(
gtk.gdk.BUTTON1_MASK, targets, gtk.gdk.ACTION_COPY)
self.connect("drag-data-get", self.__drag_data_get)
self.connect("destroy", self.__destroy)
def __destroy(self, *args):
# needed for gc
self.__next = None
def __search_func(self, model, column, key, iter):
type, data = model[iter]
key = key.decode('utf-8').lower()
if type == SONGS and key in data.key.lower():
return False
return True
def __drag_data_get(self, view, ctx, sel, tid, etime):
songs = self.__get_selected_songs(sort=True)
if tid == 1:
filenames = [song("~filename") for song in songs]
sel.set("text/x-quodlibet-songs", 8, "\x00".join(filenames))
else: sel.set_uris([song("~uri") for song in songs])
@staticmethod
def __parse_prefs(row_pattern):
"""
Row pattern format: 'categorize_pattern:display_pattern'
* display_pattern is optional (fallback: ~#tracks)
* patterns, tied and normal tags.
* display patterns can have function prefixes for numerical tags.
* ':' has to be escaped ('\:')
TODO: sort pattern, filter query
"""
parts = re.split(r"(?<!\\):", row_pattern)
parts = map(lambda p: p.replace("\:", ":"), parts)
is_numeric = lambda s: s[:2] == "~#" and "~" not in s[2:]
is_pattern = lambda s: '<' in s
f_round = lambda s: (isinstance(s, float) and "%.2f" % s) or s
disp = (len(parts) >= 2 and parts[1]) or "\<i\>(<~#tracks>)\</i\>"
cat = parts[0]
if is_pattern(cat):
title = pattern(cat, esc=True)
try: pc = XMLFromPattern(cat)
except ValueError: pc = XMLFromPattern("")
tags = pc.tags
format = pc.format_list
format_markup = True
else:
title = tag(cat)
tags = util.tagsplit(cat)
format_markup = False
if is_numeric(cat):
format = lambda song: [unicode(f_round(song(cat)))]
else:
format = lambda song: song.list_separate(cat)
if is_pattern(disp):
try: pd = XMLFromPattern(disp)
except ValueError: pd = XMLFromPattern("")
format_display = pd.format
else:
if is_numeric(disp):
format_display = lambda coll: unicode(f_round(coll(disp)))
else:
format_display = lambda coll: util.escape(coll.comma(disp))
return title, tags, format, format_markup, format_display
def __get_format_keys(self, song):
try: return self.__key_cache[song]
except KeyError:
# We filter out empty values, so Unknown can be ""
self.__key_cache[song] = filter(None, self.__format(song))
return self.__key_cache[song]
def __human_sort_key(self, text, reg=re.compile('<.*?>')):
try: return self.__sort_cache[text]
except KeyError:
# remove the markup so it doesn't affect the sort order
if self.__markup: text = reg.sub("", text)
self.__sort_cache[text] = util.human_sort_key(text)
return self.__sort_cache[text]
def __popup_menu(self, view, library):
songs = self.__get_selected_songs(sort=True)
menu = SongsMenu(library, songs, parent=self)
menu.show_all()
return view.popup_menu(menu, 0, gtk.get_current_event_time())
def __selection_changed(self, selection):
if not self.__next: return
self.__next.fill(self.__get_selected_songs())
def _remove(self, songs, remove_if_empty=True):
self.inhibit()
model = self.__model
songs = set(songs)
to_remove = []
for song in songs:
if song in self.__key_cache:
del self.__key_cache[song]
for row in model:
type, data = row
if type == ALL: continue
data.songs -= songs
data.finalize()
model.row_changed(row.path, row.iter)
if not data.songs:
to_remove.append(row.iter)
if remove_if_empty:
for iter in to_remove:
try: del(self.__sort_cache[model[iter][1].key])
except KeyError: pass
model.remove(iter)
if len(model) == 1 and model[0][0] == ALL:
model.clear()
elif to_remove and len(model) == 2:
model.remove(model.get_iter(0))
self.uninhibit()
def _matches(self, song):
model, rows = self.get_selection().get_selected_rows()
if not rows or model[rows[0]][0] == ALL: return True
keys = self.__get_format_keys(song)
if not keys and model[rows[-1]][0] == UNKNOWN:
return True
for row in rows:
if model[row][1].key in keys:
return True
return False
def _add(self, songs):
collection = {}
unknown = SongSelection("")
human_sort = self.__human_sort_key
for song in songs:
keys = self.__get_format_keys(song)
if not keys:
unknown.songs.add(song)
for key in keys:
try:
collection[key][0].songs.add(song)
except KeyError:
collection[key] = (SongSelection(key), human_sort(key))
collection[key][0].songs.add(song)
items = sorted(collection.iteritems(),
key=lambda s: s[1][1], reverse=True)
# faster...
model = self.__model
if not len(model):
insert = model.insert
if unknown.songs:
insert(0, [UNKNOWN, unknown])
for key, (val, sort_key) in items:
insert(0, [SONGS, val])
if len(model) > 1:
insert(0, [ALL, None])
return
# insert all new songs
key = None
val = None
sort_key = None
for row in self.__model:
type, data = row
if type != SONGS: continue
if key is None:
if not items: break
key, (val, sort_key) = items.pop(-1)
if key == data.key:
data.songs |= val.songs
data.finalize()
model.row_changed(row.path, row.iter)
key = None
elif sort_key < human_sort(data.key):
model.insert_before(row.iter, row=[SONGS, val])
key = None
# the last one failed, add it again
if key: items.append((key, (val, sort_key)))
# insert the left over songs
if items:
if model[-1][0] == UNKNOWN:
for key, (val, srt) in reversed(items):
model.insert(len(model) - 1, row=[SONGS, val])
else:
for key, (val, srt) in items:
model.append(row=[SONGS, val])
# check if All needs to be inserted
if len(model) > 1 and model[0][0] != ALL:
model.insert(0, [ALL, None])
# check if Unknown needs to be inserted or updated
if unknown.songs:
last_row = model[-1]
type, data = last_row
if type == UNKNOWN:
data.songs |= unknown.songs
data.finalize()
model.row_changed(last_row.path, last_row.iter)
else:
model.append(row=[UNKNOWN, unknown])
def inhibit(self): self.get_selection().handler_block(self.__sig)
def uninhibit(self): self.get_selection().handler_unblock(self.__sig)
def list(self, key):
#We get all tag values and check if all songs have it.
model = self.__model
# If the key is the only tag, return everything
if len(self.tags) == 1 and key in self.tags:
return [r[1].key for r in model if r[0] != ALL]
# For patterns/tied tags we have to make sure that
# filtering for that key will return only songs that all have
# the specified value
all = set()
sels = (row[1] for row in model if row[0] == SONGS)
for sel in sels:
values = sel.list(key)
for value in values:
if value not in all and sel.all_have(key, value):
all.add(value)
# Also add unknown
if len(model) > 0 and model[-1][0] == UNKNOWN:
all.add("")
return list(all)
def fill(self, songs):
# restore the selection
restore = self.__restore_values
selected = (restore and restore.pop(0)) or self.get_selected()
model = self.__model
# if previously all entries were selected: select All
if len(model) == len(selected): selected = None
self.inhibit()
self.set_model(None)
model.clear()
self._add(songs)
self.set_model(model)
self.uninhibit()
self.set_selected(selected, jump=True)
if not songs: self.__next.fill([])
def scroll(self, song):
values = self.__get_format_keys(song)
for row in self.__model:
if row[0] != ALL and row[1].key in values:
path = row.path
self.scroll_to_cell(path, use_align=True, row_align=0.5)
self.set_cursor(path)
break
def get_selected(self):
try: model, paths = self.get_selection().get_selected_rows()
except AttributeError: return []
else:
if not paths: return []
if model[paths[0]][0] == ALL:
return [model[p][1].key for p in paths[1:]] + [None]
else:
return [model[p][1].key for p in paths]
def set_selected(self, values, jump=False):
model = self.__model
if not len(model): return
if not values: values = [None]
# If the selection is the same, change nothing
selection = self.get_selection()
if values != self.get_selected():
self.inhibit()
first = True
for row in model:
if (row[0] == ALL and None in values) or \
(row[0] == SONGS and row[1].key in values):
if first:
if jump:
self.scroll_to_cell(row.path)
self.set_cursor(row.path)
first = False
else:
selection.select_path(row.path)
# We didn't find something to select, so select All
if first:
self.set_cursor((0,))
self.uninhibit()
self.get_selection().emit('changed')
def set_selected_by_tag(self, tag, values, jump=False):
"""Select the entries which songs all have one of the values."""
# Like with self.list we can select all matching keys if the tag
# is our only tag
if len(self.tags) == 1 and tag in self.tags:
self.set_selected(values, jump)
return
pattern_values = []
for type, data in self.__model:
if type == SONGS:
for value in values:
if data.all_have(tag, value):
pattern_values.append(data.key)
break
# select unknown
if "" in values:
pattern_values.append("")
self.set_selected(pattern_values, jump)
def __get_selected_songs(self, sort=False):
model, rows = self.get_selection().get_selected_rows()
s = set()
if not rows: return s
if model[rows[0]][0] == ALL:
for row in model:
if row[0] != ALL:
s |= row[1].songs
else:
for row in rows:
s |= model[row][1].songs
if sort:
return sorted(s, key=operator.attrgetter("sort_key"))
return s
def __init__(self, library, player):
super(PanedBrowser, self).__init__(library, player, limit=False)
self._register_instance()
self.__save = player
keyval, mod = gtk.accelerator_parse("<control>Home")
s = self.accelerators.connect_group(keyval, mod, 0, self.__all)
self.connect_object('destroy',
self.accelerators.disconnect_key, keyval, mod)
select = gtk.Button(_("Select _All"))
self._search_bar.pack_start(select, expand=False)
prefs = gtk.Button()
prefs.add(gtk.image_new_from_stock(
gtk.STOCK_PREFERENCES, gtk.ICON_SIZE_MENU))
s = prefs.connect('clicked', Preferences)
self.connect_object('destroy', prefs.disconnect, s)
s = select.connect('clicked', self.__all)
self.connect_object('destroy', select.disconnect, s)
self._search_bar.pack_start(prefs, expand=False)
for s in [library.connect('changed', self.__changed),
library.connect('added', self.__added),
library.connect('removed', self.__removed)
]:
self.connect_object('destroy', library.disconnect, s)
self.refresh_panes()
self.show_all()
def __all(self, *args):
self.__panes[-1].inhibit()
for pane in self.__panes:
pane.set_selected(None, True)
self.__panes[-1].uninhibit()
self.__panes[-1].get_selection().emit('changed')
def __added(self, library, songs):
songs = filter(self._filter, songs)
for pane in self.__panes:
pane._add(songs)
songs = filter(pane._matches, songs)
def __removed(self, library, songs, remove_if_empty=True):
songs = filter(self._filter, songs)
for pane in self.__panes:
pane._remove(songs, remove_if_empty)
def __changed(self, library, songs):
self.__removed(library, songs, False)
self.__added(library, songs)
self.__removed(library, [])
def active_filter(self, song):
# check with the search filter
if not self._filter(song):
return False
# check if the selection is right in every pane
for pane in self.__panes:
if not pane._matches(song):
return False
return True
def activate(self):
if self._text is not None and Query.is_parsable(self._text):
star = dict.fromkeys(SongList.star)
star.update(self.__star)
self._filter = Query(self._text, star.keys()).search
songs = filter(self._filter, self._library)
bg = background_filter()
if bg: songs = filter(bg, songs)
self.__panes[0].fill(songs)
def scroll(self, song):
for pane in self.__panes:
pane.scroll(song)
def refresh_panes(self):
try: hbox = self.get_children()[1]
except IndexError: pass # first call
else: hbox.destroy()
hbox = gtk.HBox(spacing=6)
hbox.set_homogeneous(True)
hbox.set_size_request(100, 100)
# fill in the pane list. the last pane reports back to us.
self.__panes = [self]
panes = get_headers()
panes.reverse()
for pane in panes:
self.__panes.insert(
0, self.Pane(pane, self.__panes[0], self._library))
self.__panes.pop() # remove self
for pane in self.__panes:
if self.__save: pane.connect('row-activated', self.__start)
sw = gtk.ScrolledWindow()
sw.set_policy(gtk.POLICY_NEVER, gtk.POLICY_AUTOMATIC)
sw.set_shadow_type(gtk.SHADOW_IN)
sw.add(pane)
hbox.pack_start(sw)
self.pack_start(hbox)
self.show_all()
self.__star = {}
for p in self.__panes: self.__star.update(dict.fromkeys(p.tags))
def fill_panes(self):
self.__panes[-1].inhibit()
self.activate()
self.__panes[-1].uninhibit()
def __start(self, view, indices, col):
self.__save.reset()
def __get_filter_pane(self, key):
"""Get the best pane for filtering etc."""
canditates = []
for pane in self.__panes:
if (key in pane.tags or
(key in PEOPLE and "~people" in pane.tags)):
canditates.append((len(pane.tags), pane))
canditates.sort()
return (canditates and canditates[0][1]) or None
def can_filter(self, key):
if key is None: return True
return (self.__get_filter_pane(key) is not None)
def filter(self, key, values):
filter_pane = self.__get_filter_pane(key)
for pane in self.__panes:
if pane is filter_pane:
filter_pane.set_selected_by_tag(key, values, True)
return
pane.set_selected(None, True)
def unfilter(self):
self.filter("", "")
def list(self, key):
filter_pane = self.__get_filter_pane(key)
for pane in self.__panes:
if pane is filter_pane:
return filter_pane.list(key)
pane.set_selected(None, True)
return []
def save(self):
super(PanedBrowser, self).save()
selected = []
for pane in self.__panes:
values = pane.get_selected()
# The first value tells us if All was selected
all = None in values
if all: values.remove(None)
all = str(int(bool(all)))
values.insert(0, all)
# the config lib strips all whitespace, so add a bogus . at the end
selected.append("\t".join(values)+ "\t.")
config.set("browsers", "pane_selection", "\n".join(selected))
def restore(self):
super(PanedBrowser, self).restore()
selected = config.get("browsers", "pane_selection")
if not selected: return
pane_values = [sel.split("\t") for sel in selected.split("\n")]
for pane in pane_values:
try:
if int(pane[0]):
pane[0] = None
else: del pane[0]
except (ValueError, IndexError): pass
PanedBrowser.Pane.set_restore(pane_values)
def finalize(self, restored):
super(PanedBrowser, self).finalize(restored)
if not restored:
self._text = ""
self.fill_panes()
def fill(self, songs):
gobject.idle_add(self.emit, 'songs-selected', list(songs), None)
browsers = [PanedBrowser]
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