// This file Copyright © Mnemosyne LLC. // It may be used under GPLv2 (SPDX: GPL-2.0-only), GPLv3 (SPDX: GPL-3.0-only), // or any future license endorsed by Mnemosyne LLC. // License text can be found in the licenses/ folder. #include "FileList.h" #include "GtkCompat.h" #include "HigWorkarea.h" // GUI_PAD, GUI_PAD_BIG #include "IconCache.h" #include "PrefsDialog.h" #include "Session.h" #include "Utils.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace std::literals; namespace { enum : uint16_t { /* these two fields could be any number at all so long as they're not * TR_PRI_LOW, TR_PRI_NORMAL, TR_PRI_HIGH, true, or false */ NOT_SET = 1000, MIXED = 1001 }; class FileModelColumns : public Gtk::TreeModelColumnRecord { public: FileModelColumns() noexcept { add(icon); add(label); add(label_esc); add(prog); add(prog_str); add(index); add(size); add(size_str); add(have); add(priority); add(enabled); } Gtk::TreeModelColumn> icon; Gtk::TreeModelColumn label; Gtk::TreeModelColumn label_esc; Gtk::TreeModelColumn prog; Gtk::TreeModelColumn prog_str; Gtk::TreeModelColumn index; Gtk::TreeModelColumn size; Gtk::TreeModelColumn size_str; Gtk::TreeModelColumn have; Gtk::TreeModelColumn priority; Gtk::TreeModelColumn enabled; }; FileModelColumns const file_cols; } // namespace class FileList::Impl { public: Impl( FileList& widget, Glib::RefPtr const& builder, Glib::ustring const& view_name, Glib::RefPtr const& core, tr_torrent_id_t torrent_id); ~Impl(); TR_DISABLE_COPY_MOVE(Impl) void set_torrent(tr_torrent_id_t torrent_id); void reset_torrent(); private: void clearData(); void refresh(); bool getAndSelectEventPath(double view_x, double view_y, Gtk::TreeViewColumn*& col, Gtk::TreeModel::Path& path); [[nodiscard]] std::vector getActiveFilesForPath(Gtk::TreeModel::Path const& path) const; [[nodiscard]] std::vector getSelectedFilesAndDescendants() const; [[nodiscard]] std::vector getSubtree(Gtk::TreeModel::Path const& path) const; bool onViewButtonPressed(guint button, TrGdkModifierType state, double view_x, double view_y); bool onViewPathToggled(Gtk::TreeViewColumn* col, Gtk::TreeModel::Path const& path); void onRowActivated(Gtk::TreeModel::Path const& path, Gtk::TreeViewColumn* col); void cell_edited_callback(Glib::ustring const& path_string, Glib::ustring const& newname); void on_rename_done(Glib::ustring const& path_string, Glib::ustring const& newname, int error); void on_rename_done_idle(Glib::ustring const& path_string, Glib::ustring const& newname, int error); private: FileList& widget_; Glib::RefPtr const core_; // GtkWidget* top_ = nullptr; // == widget_ Gtk::TreeView* view_ = nullptr; Glib::RefPtr store_; tr_torrent_id_t torrent_id_ = {}; sigc::connection timeout_tag_; std::queue rename_done_tags_; }; void FileList::Impl::clearData() { torrent_id_ = -1; timeout_tag_.disconnect(); } FileList::Impl::~Impl() { while (!rename_done_tags_.empty()) { rename_done_tags_.front().disconnect(); rename_done_tags_.pop(); } clearData(); } /*** **** ***/ namespace { struct RefreshData { int sort_column_id; bool resort_needed; tr_torrent* tor; }; bool refreshFilesForeach( Glib::RefPtr const& store, Gtk::TreeModel::iterator const& iter, RefreshData& refresh_data) { bool const is_file = iter->children().empty(); auto const old_enabled = iter->get_value(file_cols.enabled); auto const old_have = iter->get_value(file_cols.have); auto const old_priority = iter->get_value(file_cols.priority); auto const old_progress = iter->get_value(file_cols.prog); auto const old_size = iter->get_value(file_cols.size); auto new_enabled = int{}; auto new_have = decltype(old_have){}; auto new_priority = int{}; auto new_progress = int{}; auto new_size = decltype(old_size){}; if (is_file) { auto const index = iter->get_value(file_cols.index); auto const file = tr_torrentFile(refresh_data.tor, index); new_enabled = static_cast(file.wanted); new_priority = int{ file.priority }; new_have = file.have; new_size = file.length; new_progress = static_cast(100 * file.progress); } else { new_enabled = NOT_SET; new_priority = NOT_SET; /* since gtk_tree_model_foreach() is depth-first, we can * get the `sub' info by walking the immediate children */ for (auto const& child : iter->children()) { auto const child_size = child[file_cols.size]; auto const child_have = child[file_cols.have]; auto const child_priority = child[file_cols.priority]; auto const child_enabled = child[file_cols.enabled]; if (child_enabled != static_cast(false) && (child_enabled != NOT_SET)) { new_size += child_size; new_have += child_have; } if (new_enabled == NOT_SET) { new_enabled = child_enabled; } else if (new_enabled != child_enabled) { new_enabled = MIXED; } if (new_priority == NOT_SET) { new_priority = child_priority; } else if (new_priority != child_priority) { new_priority = MIXED; } } new_progress = new_size != 0 ? static_cast(100.0 * new_have / new_size) : 1; } new_progress = std::clamp(new_progress, 0, 100); if (new_priority != old_priority || new_enabled != old_enabled) { /* Changing a value in the sort column can trigger a resort * which breaks this foreach () call. (See #3529) * As a workaround: if that's about to happen, temporarily disable * sorting until we finish walking the tree. */ if (!refresh_data.resort_needed && (((refresh_data.sort_column_id == file_cols.priority.index()) && (new_priority != old_priority)) || ((refresh_data.sort_column_id == file_cols.enabled.index()) && (new_enabled != old_enabled)))) { refresh_data.resort_needed = true; store->set_sort_column(GTK_TREE_SORTABLE_UNSORTED_SORT_COLUMN_ID, TR_GTK_SORT_TYPE(ASCENDING)); } } if (new_enabled != old_enabled) { (*iter)[file_cols.enabled] = new_enabled; } if (new_priority != old_priority) { (*iter)[file_cols.priority] = new_priority; } if (new_size != old_size) { (*iter)[file_cols.size] = new_size; (*iter)[file_cols.size_str] = tr_strlsize(new_size); } if (new_have != old_have) { (*iter)[file_cols.have] = new_have; } if (new_progress != old_progress) { (*iter)[file_cols.prog] = new_progress; (*iter)[file_cols.prog_str] = fmt::format("{:d}%", new_progress); } return false; /* keep walking */ } void gtr_tree_model_foreach_postorder(Glib::RefPtr const& model, Gtk::TreeModel::SlotForeachIter const& func) { auto items = std::stack(); if (auto const root_child_it = model->children().begin(); root_child_it) { items.push(root_child_it); } while (!items.empty()) { while (items.top()) { if (auto const child_it = items.top()->children().begin(); child_it) { items.push(child_it); } else { func(items.top()++); } } items.pop(); if (!items.empty()) { func(items.top()++); } } } } // namespace void FileList::Impl::refresh() { if (tr_torrent* tor = core_->find_torrent(torrent_id_); tor == nullptr) { widget_.clear(); } else { Gtk::SortType order = TR_GTK_SORT_TYPE(ASCENDING); int sort_column_id = 0; store_->get_sort_column_id(sort_column_id, order); RefreshData refresh_data{ sort_column_id, false, tor }; gtr_tree_model_foreach_postorder( store_, [this, &refresh_data](Gtk::TreeModel::iterator const& iter) { return refreshFilesForeach(store_, iter, refresh_data); }); if (refresh_data.resort_needed) { store_->set_sort_column(sort_column_id, order); } } } /*** **** ***/ namespace { bool getSelectedFilesForeach( Gtk::TreeModel::iterator const& iter, Glib::RefPtr const& sel, std::vector& indexBuf) { if (bool const is_file = iter->children().empty(); is_file) { /* active means: if it's selected or any ancestor is selected */ bool is_active = sel->is_selected(iter); if (!is_active) { for (auto walk = iter->parent(); !is_active && walk; walk = walk->parent()) { is_active = sel->is_selected(walk); } } if (is_active) { indexBuf.push_back(iter->get_value(file_cols.index)); } } return false; /* keep walking */ } } // namespace std::vector FileList::Impl::getSelectedFilesAndDescendants() const { auto const sel = view_->get_selection(); std::vector indexBuf; store_->foreach_iter([&sel, &indexBuf](Gtk::TreeModel::iterator const& iter) { return getSelectedFilesForeach(iter, sel, indexBuf); }); return indexBuf; } namespace { bool getSubtreeForeach( Gtk::TreeModel::Path const& path, Gtk::TreeModel::iterator const& iter, Gtk::TreeModel::Path const& subtree_path, std::vector& indexBuf) { if (bool const is_file = iter->children().empty(); is_file) { if (path == subtree_path || path.is_descendant(subtree_path)) { indexBuf.push_back(iter->get_value(file_cols.index)); } } return false; /* keep walking */ } } // namespace std::vector FileList::Impl::getSubtree(Gtk::TreeModel::Path const& subtree_path) const { std::vector indexBuf; store_->foreach ([&subtree_path, &indexBuf](Gtk::TreeModel::Path const& path, Gtk::TreeModel::iterator const& iter) { return getSubtreeForeach(path, iter, subtree_path, indexBuf); }); return indexBuf; } /* if `path' is a selected row, all selected rows are returned. * otherwise, only the row indicated by `path' is returned. * this is for toggling all the selected rows' states in a batch. * * indexBuf should be large enough to hold tr_inf.fileCount files. */ std::vector FileList::Impl::getActiveFilesForPath(Gtk::TreeModel::Path const& path) const { if (view_->get_selection()->is_selected(path)) { /* clicked in a selected row... use the current selection */ return getSelectedFilesAndDescendants(); } /* clicked OUTSIDE of the selected row... just use the clicked row */ return getSubtree(path); } /*** **** ***/ void FileList::clear() { impl_->reset_torrent(); } namespace { struct build_data { Gtk::Widget* w = nullptr; tr_torrent* tor = nullptr; Gtk::TreeStore::iterator iter; Glib::RefPtr store; }; struct row_struct { uint64_t length = 0; Glib::ustring name; int index = 0; }; using FileRowNode = Glib::NodeTree; void buildTree(FileRowNode& node, build_data& build) { auto const& child_data = node.data(); bool const isLeaf = node.child_count() == 0; auto const mime_type = isLeaf ? tr_get_mime_type_for_filename(child_data.name.raw()) : DirectoryMimeType; auto const icon = gtr_get_mime_type_icon(mime_type); auto const file = isLeaf ? tr_torrentFile(build.tor, child_data.index) : tr_file_view{}; int const priority = isLeaf ? file.priority : 0; bool const enabled = isLeaf ? file.wanted : true; auto name_esc = Glib::Markup::escape_text(child_data.name); auto const child_iter = build.store->prepend(build.iter->children()); (*child_iter)[file_cols.index] = child_data.index; (*child_iter)[file_cols.label] = child_data.name; (*child_iter)[file_cols.label_esc] = name_esc; (*child_iter)[file_cols.size] = child_data.length; (*child_iter)[file_cols.size_str] = tr_strlsize(child_data.length); (*child_iter)[file_cols.icon] = icon; (*child_iter)[file_cols.priority] = priority; (*child_iter)[file_cols.enabled] = static_cast(enabled); if (!isLeaf) { build_data b = build; b.iter = child_iter; node.foreach ([&b](auto& child_node) { buildTree(child_node, b); }, TR_GLIB_NODE_TREE_TRAVERSE_FLAGS(FileRowNode, ALL)); } } } // namespace void FileList::set_torrent(tr_torrent_id_t torrent_id) { impl_->set_torrent(torrent_id); } struct PairHash { template auto operator()(std::pair const& pair) const { return std::hash{}(pair.first) ^ std::hash{}(pair.second); } }; void FileList::Impl::set_torrent(tr_torrent_id_t torrent_id) { if (torrent_id_ == torrent_id && store_ != nullptr && !store_->children().empty()) { return; } /* unset the old fields */ clearData(); /* instantiate the model */ store_ = Gtk::TreeStore::create(file_cols); torrent_id_ = torrent_id; /* populate the model */ if (torrent_id_ > 0) { if (auto* const tor = core_->find_torrent(torrent_id_); tor != nullptr) { // build a GNode tree of the files auto root = FileRowNode{}; auto& root_data = root.data(); root_data.name = tr_torrentName(tor); root_data.index = -1; root_data.length = 0; auto nodes = std::unordered_map, FileRowNode*, PairHash>{}; for (tr_file_index_t i = 0, n_files = tr_torrentFileCount(tor); i < n_files; ++i) { auto* parent = &root; auto const file = tr_torrentFile(tor, i); auto path = std::string_view{ file.name }; auto token = std::string_view{}; while (tr_strv_sep(&path, &token, '/')) { auto*& node = nodes[std::make_pair(parent, token)]; if (node == nullptr) { auto const is_leaf = std::empty(path); node = parent->prepend_data({}); auto& node_data = node->data(); node_data.name = std::string{ token }; node_data.index = is_leaf ? (int)i : -1; node_data.length = is_leaf ? file.length : 0; } parent = node; } } // now, add them to the model struct build_data build; build.w = &widget_; build.tor = tor; build.store = store_; root.foreach ( [&build](auto& child_node) { buildTree(child_node, build); }, TR_GLIB_NODE_TREE_TRAVERSE_FLAGS(FileRowNode, ALL)); } refresh(); timeout_tag_ = Glib::signal_timeout().connect_seconds( [this]() { return refresh(), true; }, SECONDARY_WINDOW_REFRESH_INTERVAL_SECONDS); } view_->set_model(store_); /* set default sort by label */ store_->set_sort_column(file_cols.label, TR_GTK_SORT_TYPE(ASCENDING)); view_->expand_row(Gtk::TreeModel::Path("0"), false); // view_->expand_all(); } void FileList::Impl::reset_torrent() { clearData(); store_ = Gtk::TreeStore::create(file_cols); view_->set_model(store_); } /*** **** ***/ namespace { void renderDownload(Gtk::CellRenderer* renderer, Gtk::TreeModel::const_iterator const& iter) { auto* const toggle_renderer = dynamic_cast(renderer); g_assert(toggle_renderer != nullptr); if (toggle_renderer == nullptr) { return; } auto const enabled = iter->get_value(file_cols.enabled); toggle_renderer->property_inconsistent() = enabled == MIXED; toggle_renderer->property_active() = enabled == static_cast(true); } void renderPriority(Gtk::CellRenderer* renderer, Gtk::TreeModel::const_iterator const& iter) { auto* const text_renderer = dynamic_cast(renderer); g_assert(text_renderer != nullptr); if (text_renderer == nullptr) { return; } Glib::ustring text; switch (auto const priority = iter->get_value(file_cols.priority); priority) { case TR_PRI_HIGH: text = _("High"); break; case TR_PRI_NORMAL: text = _("Normal"); break; case TR_PRI_LOW: text = _("Low"); break; default: text = _("Mixed"); break; } text_renderer->property_text() = text; } /* build a filename from tr_torrentGetCurrentDir() + the model's FC_LABELs */ std::string buildFilename(tr_torrent const* tor, Gtk::TreeModel::iterator const& iter) { std::vector tokens; for (auto child = iter; child; child = child->parent()) { tokens.push_back(child->get_value(file_cols.label)); } tokens.emplace_back(tr_torrentGetCurrentDir(tor)); std::reverse(tokens.begin(), tokens.end()); return Glib::build_filename(tokens); } } // namespace void FileList::Impl::onRowActivated(Gtk::TreeModel::Path const& path, Gtk::TreeViewColumn* /*col*/) { bool handled = false; if (auto const* tor = core_->find_torrent(torrent_id_); tor != nullptr) { if (auto const iter = store_->get_iter(path); iter) { auto filename = buildFilename(tor, iter); auto const prog = iter->get_value(file_cols.prog); /* if the file's not done, walk up the directory tree until we find * an ancestor that exists, and open that instead */ if (!filename.empty() && (prog < 100 || !Glib::file_test(filename, TR_GLIB_FILE_TEST(EXISTS)))) { do { filename = Glib::path_get_dirname(filename); } while (!filename.empty() && !Glib::file_test(filename, TR_GLIB_FILE_TEST(EXISTS))); } if (handled = !filename.empty(); handled) { gtr_open_file(filename); } } } // return handled; } bool FileList::Impl::onViewPathToggled(Gtk::TreeViewColumn* col, Gtk::TreeModel::Path const& path) { if (col == nullptr || path.empty()) { return false; } bool handled = false; auto const cid = col->get_sort_column_id(); auto* tor = core_->find_torrent(torrent_id_); if (tor != nullptr && (cid == file_cols.priority.index() || cid == file_cols.enabled.index())) { auto const indexBuf = getActiveFilesForPath(path); auto const iter = store_->get_iter(path); if (cid == file_cols.priority.index()) { auto const old_priority = iter->get_value(file_cols.priority); auto new_priority = TR_PRI_NORMAL; switch (old_priority) { case TR_PRI_NORMAL: new_priority = TR_PRI_HIGH; break; case TR_PRI_HIGH: new_priority = TR_PRI_LOW; break; default: new_priority = TR_PRI_NORMAL; break; } tr_torrentSetFilePriorities(tor, indexBuf.data(), indexBuf.size(), new_priority); } else { auto const enabled = iter->get_value(file_cols.enabled); tr_torrentSetFileDLs(tor, indexBuf.data(), indexBuf.size(), enabled == static_cast(false)); } refresh(); handled = true; } return handled; } /** * @note 'col' and 'path' are assumed not to be nullptr. */ bool FileList::Impl::getAndSelectEventPath(double view_x, double view_y, Gtk::TreeViewColumn*& col, Gtk::TreeModel::Path& path) { int cell_x = 0; int cell_y = 0; if (view_->get_path_at_pos(view_x, view_y, path, col, cell_x, cell_y)) { if (auto const sel = view_->get_selection(); !sel->is_selected(path)) { sel->unselect_all(); sel->select(path); } return true; } return false; } bool FileList::Impl::onViewButtonPressed(guint button, TrGdkModifierType state, double view_x, double view_y) { Gtk::TreeViewColumn* col = nullptr; Gtk::TreeModel::Path path; bool handled = false; if (button == GDK_BUTTON_PRIMARY && (state & (TR_GDK_MODIFIED_TYPE(SHIFT_MASK) | TR_GDK_MODIFIED_TYPE(CONTROL_MASK))) == TrGdkModifierType{} && getAndSelectEventPath(view_x, view_y, col, path)) { handled = onViewPathToggled(col, path); } return handled; } struct rename_data { Glib::ustring newname; Glib::ustring path_string; gpointer impl = nullptr; }; void FileList::Impl::on_rename_done(Glib::ustring const& path_string, Glib::ustring const& newname, int error) { rename_done_tags_.push(Glib::signal_idle().connect( [this, path_string, newname, error]() { rename_done_tags_.pop(); on_rename_done_idle(path_string, newname, error); return false; })); } void FileList::Impl::on_rename_done_idle(Glib::ustring const& path_string, Glib::ustring const& newname, int error) { if (error == 0) { if (auto const iter = store_->get_iter(path_string); iter) { bool const isLeaf = iter->children().empty(); auto const mime_type = isLeaf ? tr_get_mime_type_for_filename(newname.raw()) : DirectoryMimeType; auto const icon = gtr_get_mime_type_icon(mime_type); (*iter)[file_cols.label] = newname; (*iter)[file_cols.icon] = icon; if (!iter->parent()) { core_->torrent_changed(torrent_id_); } } } else { auto w = std::make_shared( gtr_widget_get_window(widget_), fmt::format( _("Couldn't rename '{old_path}' as '{path}': {error} ({error_code})"), fmt::arg("old_path", path_string), fmt::arg("path", newname), fmt::arg("error", tr_strerror(error)), fmt::arg("error_code", error)), false, TR_GTK_MESSAGE_TYPE(ERROR), TR_GTK_BUTTONS_TYPE(CLOSE), true); w->set_secondary_text(_("Please correct the errors and try again.")); w->signal_response().connect([w](int /*response*/) mutable { w.reset(); }); w->show(); } } void FileList::Impl::cell_edited_callback(Glib::ustring const& path_string, Glib::ustring const& newname) { tr_torrent* const tor = core_->find_torrent(torrent_id_); if (tor == nullptr) { return; } auto iter = store_->get_iter(path_string); if (!iter) { return; } /* build oldpath */ Glib::ustring oldpath; for (;;) { oldpath.insert(0, iter->get_value(file_cols.label)); iter = iter->parent(); if (!iter) { break; } oldpath.insert(0, 1, G_DIR_SEPARATOR); } /* do the renaming */ auto rename_data = std::make_unique(); rename_data->newname = newname; rename_data->impl = this; rename_data->path_string = path_string; tr_torrentRenamePath( tor, oldpath.c_str(), newname.c_str(), static_cast( [](tr_torrent* /*tor*/, char const* /*oldpath*/, char const* /*newname*/, int error, gpointer data) { auto const data_grave = std::unique_ptr(static_cast(data)); static_cast(data_grave->impl)->on_rename_done(data_grave->path_string, data_grave->newname, error); }), rename_data.release()); } FileList::FileList( BaseObjectType* cast_item, Glib::RefPtr const& builder, Glib::ustring const& view_name, Glib::RefPtr const& core, tr_torrent_id_t torrent_id) : Gtk::ScrolledWindow(cast_item) , impl_(std::make_unique(*this, builder, view_name, core, torrent_id)) { } FileList::Impl::Impl( FileList& widget, Glib::RefPtr const& builder, Glib::ustring const& view_name, Glib::RefPtr const& core, tr_torrent_id_t torrent_id) : widget_(widget) , core_(core) , view_(gtr_get_widget(builder, view_name)) { /* create the view */ view_->signal_row_activated().connect(sigc::mem_fun(*this, &Impl::onRowActivated)); setup_item_view_button_event_handling( *view_, [this](guint button, TrGdkModifierType state, double view_x, double view_y, bool /*context_menu_requested*/) { return onViewButtonPressed(button, state, view_x, view_y); }, [this](double view_x, double view_y) { return on_item_view_button_released(*view_, view_x, view_y); }); auto pango_font_description = view_->create_pango_context()->get_font_description(); if (auto const new_size = pango_font_description.get_size() * 0.8; pango_font_description.get_size_is_absolute()) { pango_font_description.set_absolute_size(new_size); } else { pango_font_description.set_size(new_size); } /* set up view */ auto const sel = view_->get_selection(); sel->set_mode(TR_GTK_SELECTION_MODE(MULTIPLE)); view_->expand_all(); view_->set_search_column(file_cols.label); { /* add file column */ auto* col = Gtk::make_managed(); col->set_expand(true); col->set_title(_("Name")); col->set_resizable(true); auto* icon_rend = Gtk::make_managed(); col->pack_start(*icon_rend, false); col->add_attribute(icon_rend->property_gicon(), file_cols.icon); #if GTKMM_CHECK_VERSION(4, 0, 0) icon_rend->property_icon_size() = Gtk::IconSize::NORMAL; #else icon_rend->property_stock_size() = Gtk::ICON_SIZE_MENU; #endif /* add text renderer */ auto* text_rend = Gtk::make_managed(); text_rend->property_editable() = true; text_rend->property_ellipsize() = TR_PANGO_ELLIPSIZE_MODE(END); text_rend->property_font_desc() = pango_font_description; text_rend->signal_edited().connect(sigc::mem_fun(*this, &Impl::cell_edited_callback)); col->pack_start(*text_rend, true); col->add_attribute(text_rend->property_text(), file_cols.label); col->set_sort_column(file_cols.label); view_->append_column(*col); } { /* add "size" column */ auto* rend = Gtk::make_managed(); rend->property_alignment() = TR_PANGO_ALIGNMENT(RIGHT); rend->property_font_desc() = pango_font_description; rend->property_xpad() = GUI_PAD; rend->property_xalign() = 1.0F; rend->property_yalign() = 0.5F; auto* col = Gtk::make_managed(_("Size"), *rend); col->set_sizing(TR_GTK_TREE_VIEW_COLUMN_SIZING(GROW_ONLY)); col->set_sort_column(file_cols.size); col->add_attribute(rend->property_text(), file_cols.size_str); view_->append_column(*col); } { /* add "progress" column */ auto const* title = _("Have"); int width = 0; int height = 0; view_->create_pango_layout(title)->get_pixel_size(width, height); width += 30; /* room for the sort indicator */ auto* rend = Gtk::make_managed(); auto* col = Gtk::make_managed(title, *rend); col->add_attribute(rend->property_text(), file_cols.prog_str); col->add_attribute(rend->property_value(), file_cols.prog); col->set_fixed_width(width); col->set_sizing(TR_GTK_TREE_VIEW_COLUMN_SIZING(FIXED)); col->set_sort_column(file_cols.prog); view_->append_column(*col); } { /* add "enabled" column */ auto const* title = _("Download"); int width = 0; int height = 0; view_->create_pango_layout(title)->get_pixel_size(width, height); width += 30; /* room for the sort indicator */ auto* rend = Gtk::make_managed(); auto* col = Gtk::make_managed(title, *rend); col->set_fixed_width(width); col->set_sizing(TR_GTK_TREE_VIEW_COLUMN_SIZING(FIXED)); col->set_cell_data_func(*rend, sigc::ptr_fun(&renderDownload)); col->set_sort_column(file_cols.enabled); view_->append_column(*col); } { /* add priority column */ auto const* title = _("Priority"); int width = 0; int height = 0; view_->create_pango_layout(title)->get_pixel_size(width, height); width += 30; /* room for the sort indicator */ auto* rend = Gtk::make_managed(); rend->property_xalign() = 0.5F; rend->property_yalign() = 0.5F; auto* col = Gtk::make_managed(title, *rend); col->set_fixed_width(width); col->set_sizing(TR_GTK_TREE_VIEW_COLUMN_SIZING(FIXED)); col->set_sort_column(file_cols.priority); col->set_cell_data_func(*rend, sigc::ptr_fun(&renderPriority)); view_->append_column(*col); } /* add tooltip to tree */ view_->set_tooltip_column(file_cols.label_esc.index()); set_torrent(torrent_id); } FileList::~FileList() = default;