// SPDX-License-Identifier: GPL-2.0-or-later /* * Selector aux toolbar * * Authors: * Lauris Kaplinski * bulia byak * Jon A. Cruz * Abhishek Sharma * * Copyright (C) 2003-2005 authors * * Released under GNU GPL v2+, read the file 'COPYING' for more information. */ #include "select-toolbar.h" #include #include #include #include <2geom/rect.h> #include "desktop.h" #include "document-undo.h" #include "document.h" #include "selection.h" #include "message-stack.h" #include "selection-chemistry.h" #include "object/sp-item-transform.h" #include "object/sp-namedview.h" #include "page-manager.h" #include "ui/icon-names.h" #include "ui/widget/canvas.h" // Focus widget #include "ui/widget/combo-tool-item.h" #include "ui/widget/spin-button-tool-item.h" #include "ui/widget/spinbutton.h" #include "ui/widget/unit-tracker.h" #include "widgets/widget-sizes.h" using Inkscape::UI::Widget::UnitTracker; using Inkscape::Util::Unit; using Inkscape::Util::Quantity; using Inkscape::DocumentUndo; using Inkscape::Util::unit_table; namespace Inkscape { namespace UI { namespace Toolbar { SelectToolbar::SelectToolbar(SPDesktop *desktop) : Toolbar(desktop), _tracker(new UnitTracker(Inkscape::Util::UNIT_TYPE_LINEAR)), _lock_btn(Gtk::manage(new Gtk::ToggleToolButton())), _select_touch_btn(Gtk::manage(new Gtk::ToggleToolButton())), _transform_stroke_btn(Gtk::manage(new Gtk::ToggleToolButton())), _transform_corners_btn(Gtk::manage(new Gtk::ToggleToolButton())), _transform_gradient_btn(Gtk::manage(new Gtk::ToggleToolButton())), _transform_pattern_btn(Gtk::manage(new Gtk::ToggleToolButton())), _update(false), _action_prefix("selector:toolbar:") { Inkscape::Preferences *prefs = Inkscape::Preferences::get(); { auto button = Gtk::manage(new Gtk::ToolButton(N_("Select Al_l"))); button->set_tooltip_text(N_("Select all objects")); button->set_icon_name(INKSCAPE_ICON("edit-select-all")); // Must use C API until GTK4 gtk_actionable_set_action_name(GTK_ACTIONABLE(button->gobj()), "win.select-all"); add(*button); } { auto button = Gtk::manage(new Gtk::ToolButton(N_("Select All in All La_yers"))); button->set_tooltip_text(N_("Select all objects in all visible and unlocked layers")); button->set_icon_name(INKSCAPE_ICON("edit-select-all-layers")); // Must use C API until GTK4 gtk_actionable_set_action_name(GTK_ACTIONABLE(button->gobj()), "win.select-all-layers"); add(*button); } { auto button = Gtk::manage(new Gtk::ToolButton(N_("D_eselect"))); button->set_tooltip_text(N_("Deselect any selected objects")); button->set_icon_name(INKSCAPE_ICON("edit-select-none")); // Must use C API until GTK4 gtk_actionable_set_action_name(GTK_ACTIONABLE(button->gobj()), "win.select-none"); add(*button); _context_items.push_back(button); } _select_touch_btn->set_label(_("Select by touch")); _select_touch_btn->set_tooltip_text(_("Toggle selection box to select all touched objects.")); _select_touch_btn->set_icon_name(INKSCAPE_ICON("selection-touch")); _select_touch_btn->set_active(prefs->getBool("/tools/select/touch_box", false)); _select_touch_btn->signal_toggled().connect(sigc::mem_fun(*this, &SelectToolbar::toggle_touch)); add(*_select_touch_btn); add(* Gtk::manage(new Gtk::SeparatorToolItem())); { auto button = Gtk::manage(new Gtk::ToolButton(N_("Rotate _90\xc2\xb0 CCW"))); button->set_tooltip_text(N_("Rotate selection 90\xc2\xb0 counter-clockwise")); button->set_icon_name(INKSCAPE_ICON("object-rotate-left")); // Must use C API until GTK4 gtk_actionable_set_action_name(GTK_ACTIONABLE(button->gobj()), "app.object-rotate-90-ccw"); add(*button); _context_items.push_back(button); } { auto button = Gtk::manage(new Gtk::ToolButton(N_("Rotate _90\xc2\xb0 CW"))); button->set_tooltip_text(N_("Rotate selection 90\xc2\xb0 clockwise")); button->set_icon_name(INKSCAPE_ICON("object-rotate-right")); // Must use C API until GTK4 gtk_actionable_set_action_name(GTK_ACTIONABLE(button->gobj()), "app.object-rotate-90-cw"); add(*button); _context_items.push_back(button); } { auto button = Gtk::manage(new Gtk::ToolButton(N_("Flip _Horizontal"))); button->set_tooltip_text(N_("Flip selected objects horizontally")); button->set_icon_name(INKSCAPE_ICON("object-flip-horizontal")); // Must use C API until GTK4 gtk_actionable_set_action_name(GTK_ACTIONABLE(button->gobj()), "app.object-flip-horizontal"); add(*button); _context_items.push_back(button); } { auto button = Gtk::manage(new Gtk::ToolButton(N_("Flip _Vertical"))); button->set_tooltip_text(N_("Flip selected objects vertically")); button->set_icon_name(INKSCAPE_ICON("object-flip-vertical")); // Must use C API until GTK4 gtk_actionable_set_action_name(GTK_ACTIONABLE(button->gobj()), "app.object-flip-vertical"); add(*button); _context_items.push_back(button); } add(* Gtk::manage(new Gtk::SeparatorToolItem())); { auto button = Gtk::manage(new Gtk::ToolButton(N_("Raise to _Top"))); button->set_tooltip_text(N_("Raise selection to top")); button->set_icon_name(INKSCAPE_ICON("selection-top")); // Must use C API until GTK4 gtk_actionable_set_action_name(GTK_ACTIONABLE(button->gobj()), "app.selection-top"); add(*button); _context_items.push_back(button); } { auto button = Gtk::manage(new Gtk::ToolButton(N_("_Raise"))); button->set_tooltip_text(N_("Raise selection one step")); button->set_icon_name(INKSCAPE_ICON("selection-raise")); // Must use C API until GTK4 gtk_actionable_set_action_name(GTK_ACTIONABLE(button->gobj()), "app.selection-raise"); add(*button); _context_items.push_back(button); } { auto button = Gtk::manage(new Gtk::ToolButton(N_("_Lower"))); button->set_tooltip_text(N_("Lower selection one step")); button->set_icon_name(INKSCAPE_ICON("selection-lower")); // Must use C API until GTK4 gtk_actionable_set_action_name(GTK_ACTIONABLE(button->gobj()), "app.selection-lower"); add(*button); _context_items.push_back(button); } { auto button = Gtk::manage(new Gtk::ToolButton(N_("Lower to _Bottom"))); button->set_tooltip_text(N_("Lower selection to bottom")); button->set_icon_name(INKSCAPE_ICON("selection-bottom")); // Must use C API until GTK4 gtk_actionable_set_action_name(GTK_ACTIONABLE(button->gobj()), "app.selection-bottom"); add(*button); _context_items.push_back(button); } add(* Gtk::manage(new Gtk::SeparatorToolItem())); _tracker->addUnit(unit_table.getUnit("%")); _tracker->setActiveUnit( desktop->getNamedView()->display_units ); // x-value control auto x_val = prefs->getDouble("/tools/select/X", 0.0); _adj_x = Gtk::Adjustment::create(x_val, -1e6, 1e6, SPIN_STEP, SPIN_PAGE_STEP); _adj_x->signal_value_changed().connect(sigc::bind(sigc::mem_fun(*this, &SelectToolbar::any_value_changed), _adj_x)); _tracker->addAdjustment(_adj_x->gobj()); auto x_btn = Gtk::manage(new UI::Widget::SpinButtonToolItem("select-x", C_("Select toolbar", "X:"), _adj_x, SPIN_STEP, 3)); x_btn->get_spin_button()->addUnitTracker(_tracker.get()); x_btn->set_focus_widget(_desktop->getCanvas()); x_btn->set_all_tooltip_text(C_("Select toolbar", "Horizontal coordinate of selection")); _context_items.push_back(x_btn); add(*x_btn); // y-value control auto y_val = prefs->getDouble("/tools/select/Y", 0.0); _adj_y = Gtk::Adjustment::create(y_val, -1e6, 1e6, SPIN_STEP, SPIN_PAGE_STEP); _adj_y->signal_value_changed().connect(sigc::bind(sigc::mem_fun(*this, &SelectToolbar::any_value_changed), _adj_y)); _tracker->addAdjustment(_adj_y->gobj()); auto y_btn = Gtk::manage(new UI::Widget::SpinButtonToolItem("select-y", C_("Select toolbar", "Y:"), _adj_y, SPIN_STEP, 3)); y_btn->get_spin_button()->addUnitTracker(_tracker.get()); y_btn->set_focus_widget(_desktop->getCanvas()); y_btn->set_all_tooltip_text(C_("Select toolbar", "Vertical coordinate of selection")); _context_items.push_back(y_btn); add(*y_btn); // width-value control auto w_val = prefs->getDouble("/tools/select/width", 0.0); _adj_w = Gtk::Adjustment::create(w_val, 0.0, 1e6, SPIN_STEP, SPIN_PAGE_STEP); _adj_w->signal_value_changed().connect(sigc::bind(sigc::mem_fun(*this, &SelectToolbar::any_value_changed), _adj_w)); _tracker->addAdjustment(_adj_w->gobj()); auto w_btn = Gtk::manage(new UI::Widget::SpinButtonToolItem("select-width", C_("Select toolbar", "W:"), _adj_w, SPIN_STEP, 3)); w_btn->get_spin_button()->addUnitTracker(_tracker.get()); w_btn->set_focus_widget(_desktop->getCanvas()); w_btn->set_all_tooltip_text(C_("Select toolbar", "Width of selection")); _context_items.push_back(w_btn); add(*w_btn); // lock toggle _lock_btn->set_label(_("Lock width and height")); _lock_btn->set_tooltip_text(_("When locked, change both width and height by the same proportion")); _lock_btn->set_icon_name(INKSCAPE_ICON("object-unlocked")); _lock_btn->signal_toggled().connect(sigc::mem_fun(*this, &SelectToolbar::toggle_lock)); _lock_btn->set_name("lock"); add(*_lock_btn); // height-value control auto h_val = prefs->getDouble("/tools/select/height", 0.0); _adj_h = Gtk::Adjustment::create(h_val, 0.0, 1e6, SPIN_STEP, SPIN_PAGE_STEP); _adj_h->signal_value_changed().connect(sigc::bind(sigc::mem_fun(*this, &SelectToolbar::any_value_changed), _adj_h)); _tracker->addAdjustment(_adj_h->gobj()); auto h_btn = Gtk::manage(new UI::Widget::SpinButtonToolItem("select-height", C_("Select toolbar", "H:"), _adj_h, SPIN_STEP, 3)); h_btn->get_spin_button()->addUnitTracker(_tracker.get()); h_btn->set_focus_widget(_desktop->getCanvas()); h_btn->set_all_tooltip_text(C_("Select toolbar", "Height of selection")); _context_items.push_back(h_btn); add(*h_btn); // units menu auto unit_menu = _tracker->create_tool_item(_("Units"), ("") ); add(*unit_menu); add(* Gtk::manage(new Gtk::SeparatorToolItem())); _transform_stroke_btn->set_label(_("Scale stroke width")); _transform_stroke_btn->set_tooltip_text(_("When scaling objects, scale the stroke width by the same proportion")); _transform_stroke_btn->set_icon_name(INKSCAPE_ICON("transform-affect-stroke")); _transform_stroke_btn->set_active(prefs->getBool("/options/transform/stroke", true)); _transform_stroke_btn->signal_toggled().connect(sigc::mem_fun(*this, &SelectToolbar::toggle_stroke)); add(*_transform_stroke_btn); _transform_corners_btn->set_label(_("Scale rounded corners")); _transform_corners_btn->set_tooltip_text(_("When scaling rectangles, scale the radii of rounded corners")); _transform_corners_btn->set_icon_name(INKSCAPE_ICON("transform-affect-rounded-corners")); _transform_corners_btn->set_active(prefs->getBool("/options/transform/rectcorners", true)); _transform_corners_btn->signal_toggled().connect(sigc::mem_fun(*this, &SelectToolbar::toggle_corners)); add(*_transform_corners_btn); _transform_gradient_btn->set_label(_("Move gradients")); _transform_gradient_btn->set_tooltip_text(_("Move gradients (in fill or stroke) along with the objects")); _transform_gradient_btn->set_icon_name(INKSCAPE_ICON("transform-affect-gradient")); _transform_gradient_btn->set_active(prefs->getBool("/options/transform/gradient", true)); _transform_gradient_btn->signal_toggled().connect(sigc::mem_fun(*this, &SelectToolbar::toggle_gradient)); add(*_transform_gradient_btn); _transform_pattern_btn->set_label(_("Move patterns")); _transform_pattern_btn->set_tooltip_text(_("Move patterns (in fill or stroke) along with the objects")); _transform_pattern_btn->set_icon_name(INKSCAPE_ICON("transform-affect-pattern")); _transform_pattern_btn->set_active(prefs->getBool("/options/transform/pattern", true)); _transform_pattern_btn->signal_toggled().connect(sigc::mem_fun(*this, &SelectToolbar::toggle_pattern)); add(*_transform_pattern_btn); assert(desktop); auto *selection = desktop->getSelection(); // Force update when selection changes. _connections.emplace_back( // selection->connectModified(sigc::mem_fun(*this, &SelectToolbar::on_inkscape_selection_modified))); _connections.emplace_back( selection->connectChanged(sigc::mem_fun(*this, &SelectToolbar::on_inkscape_selection_changed))); // Update now. layout_widget_update(selection); for (auto item : _context_items) { if ( item->is_sensitive() ) { item->set_sensitive(false); } } show_all(); } void SelectToolbar::on_unrealize() { for (auto &conn : _connections) { conn.disconnect(); } parent_type::on_unrealize(); } GtkWidget * SelectToolbar::create(SPDesktop *desktop) { auto toolbar = new SelectToolbar(desktop); return GTK_WIDGET(toolbar->gobj()); } void SelectToolbar::any_value_changed(Glib::RefPtr& adj) { if (_update) { return; } if ( !_tracker || _tracker->isUpdating() ) { /* * When only units are being changed, don't treat changes * to adjuster values as object changes. */ return; } _update = true; auto prefs = Inkscape::Preferences::get(); auto selection = _desktop->getSelection(); auto document = _desktop->getDocument(); auto &pm = document->getPageManager(); auto page = pm.getSelectedPageRect(); auto page_correction = prefs->getBool("/options/origincorrection/page", true); document->ensureUpToDate(); Geom::OptRect bbox_vis = selection->visualBounds(); Geom::OptRect bbox_geom = selection->geometricBounds(); Geom::OptRect bbox_user = selection->preferredBounds(); if ( !bbox_user ) { _update = false; return; } Unit const *unit = _tracker->getActiveUnit(); g_return_if_fail(unit != nullptr); gdouble old_w = bbox_user->dimensions()[Geom::X]; gdouble old_h = bbox_user->dimensions()[Geom::Y]; gdouble new_w, new_h, new_x, new_y = 0; if (unit->type == Inkscape::Util::UNIT_TYPE_LINEAR) { new_w = Quantity::convert(_adj_w->get_value(), unit, "px"); new_h = Quantity::convert(_adj_h->get_value(), unit, "px"); new_x = Quantity::convert(_adj_x->get_value(), unit, "px"); new_y = Quantity::convert(_adj_y->get_value(), unit, "px"); } else { gdouble old_x = bbox_user->min()[Geom::X] + (old_w * selection->anchor_x); gdouble old_y = bbox_user->min()[Geom::Y] + (old_h * selection->anchor_y); // Adjust against selected page, so later correction isn't broken. if (page_correction) { old_x -= page.left(); old_y -= page.top(); } new_x = old_x * (_adj_x->get_value() / 100 / unit->factor); new_y = old_y * (_adj_y->get_value() / 100 / unit->factor); new_w = old_w * (_adj_w->get_value() / 100 / unit->factor); new_h = old_h * (_adj_h->get_value() / 100 / unit->factor); } // Adjust depending on the selected anchor. gdouble x0 = (new_x - (old_w * selection->anchor_x)) - ((new_w - old_w) * selection->anchor_x); gdouble y0 = (new_y - (old_h * selection->anchor_y)) - ((new_h - old_h) * selection->anchor_y); // Adjust according to the selected page, if needed if (page_correction) { x0 += page.left(); y0 += page.top(); } gdouble x1 = x0 + new_w; gdouble xrel = new_w / old_w; gdouble y1 = y0 + new_h; gdouble yrel = new_h / old_h; // Keep proportions if lock is on if ( _lock_btn->get_active() ) { if (adj == _adj_h) { x1 = x0 + yrel * bbox_user->dimensions()[Geom::X]; } else if (adj == _adj_w) { y1 = y0 + xrel * bbox_user->dimensions()[Geom::Y]; } } // scales and moves, in px double mh = fabs(x0 - bbox_user->min()[Geom::X]); double sh = fabs(x1 - bbox_user->max()[Geom::X]); double mv = fabs(y0 - bbox_user->min()[Geom::Y]); double sv = fabs(y1 - bbox_user->max()[Geom::Y]); // unless the unit is %, convert the scales and moves to the unit if (unit->type == Inkscape::Util::UNIT_TYPE_LINEAR) { mh = Quantity::convert(mh, "px", unit); sh = Quantity::convert(sh, "px", unit); mv = Quantity::convert(mv, "px", unit); sv = Quantity::convert(sv, "px", unit); } char const *const actionkey = get_action_key(mh, sh, mv, sv); if (actionkey != nullptr) { bool transform_stroke = prefs->getBool("/options/transform/stroke", true); bool preserve = prefs->getBool("/options/preservetransform/value", false); Geom::Affine scaler; if (prefs->getInt("/tools/bounding_box") == 0) { // SPItem::VISUAL_BBOX scaler = get_scale_transform_for_variable_stroke (*bbox_vis, *bbox_geom, transform_stroke, preserve, x0, y0, x1, y1); } else { // 1) We could have use the newer get_scale_transform_for_variable_stroke() here, but to avoid regressions // we'll just use the old get_scale_transform_for_uniform_stroke() for now. // 2) get_scale_transform_for_uniform_stroke() is intended for visual bounding boxes, not geometrical ones! // we'll trick it into using a geometric bounding box though, by setting the stroke width to zero scaler = get_scale_transform_for_uniform_stroke (*bbox_geom, 0, 0, false, false, x0, y0, x1, y1); } selection->applyAffine(scaler); DocumentUndo::maybeDone(document, actionkey, _("Transform by toolbar"), INKSCAPE_ICON("tool-pointer")); } _update = false; } void SelectToolbar::layout_widget_update(Inkscape::Selection *sel) { if (_update) { return; } _update = true; using Geom::X; using Geom::Y; if ( sel && !sel->isEmpty() ) { Geom::OptRect const bbox(sel->preferredBounds()); if ( bbox ) { Unit const *unit = _tracker->getActiveUnit(); g_return_if_fail(unit != nullptr); auto width = bbox->dimensions()[X]; auto height = bbox->dimensions()[Y]; auto x = bbox->min()[X] + (width * sel->anchor_x); auto y = bbox->min()[Y] + (height * sel->anchor_y); auto prefs = Inkscape::Preferences::get(); if (prefs->getBool("/options/origincorrection/page", true)) { auto &pm = _desktop->getDocument()->getPageManager(); auto page = pm.getSelectedPageRect(); x -= page.left(); y -= page.top(); } if (unit->type == Inkscape::Util::UNIT_TYPE_DIMENSIONLESS) { double const val = unit->factor * 100; _adj_x->set_value(val); _adj_y->set_value(val); _adj_w->set_value(val); _adj_h->set_value(val); _tracker->setFullVal( _adj_x->gobj(), x ); _tracker->setFullVal( _adj_y->gobj(), y ); _tracker->setFullVal( _adj_w->gobj(), width ); _tracker->setFullVal( _adj_h->gobj(), height ); } else { _adj_x->set_value(Quantity::convert(x, "px", unit)); _adj_y->set_value(Quantity::convert(y, "px", unit)); _adj_w->set_value(Quantity::convert(width, "px", unit)); _adj_h->set_value(Quantity::convert(height, "px", unit)); } } } _update = false; } void SelectToolbar::on_inkscape_selection_modified(Inkscape::Selection *selection, guint flags) { assert(_desktop->getSelection() == selection); if ((flags & (SP_OBJECT_MODIFIED_FLAG | SP_OBJECT_PARENT_MODIFIED_FLAG | SP_OBJECT_CHILD_MODIFIED_FLAG ))) { layout_widget_update(selection); } } void SelectToolbar::on_inkscape_selection_changed(Inkscape::Selection *selection) { assert(_desktop->getSelection() == selection); { bool setActive = (selection && !selection->isEmpty()); for (auto item : _context_items) { if ( setActive != item->get_sensitive() ) { item->set_sensitive(setActive); } } layout_widget_update(selection); } } char const *SelectToolbar::get_action_key(double mh, double sh, double mv, double sv) { // do the action only if one of the scales/moves is greater than half the last significant // digit in the spinbox (currently spinboxes have 3 fractional digits, so that makes 0.0005). If // the value was changed by the user, the difference will be at least that much; otherwise it's // just rounding difference between the spinbox value and actual value, so no action is // performed double const threshold = 5e-4; char const *const action = ( mh > threshold ? "move:horizontal:" : sh > threshold ? "scale:horizontal:" : mv > threshold ? "move:vertical:" : sv > threshold ? "scale:vertical:" : nullptr ); if (!action) { return nullptr; } _action_key = _action_prefix + action; return _action_key.c_str(); } void SelectToolbar::toggle_lock() { // use this roundabout way of changing image to make sure its size is preserved auto btn = static_cast(_lock_btn->get_child()); auto image = static_cast(btn->get_child()); if (!image) { g_warning("No GTK image in toolbar button 'lock'"); return; } auto size = image->get_pixel_size(); if ( _lock_btn->get_active() ) { image->set_from_icon_name("object-locked", Gtk::ICON_SIZE_BUTTON); } else { image->set_from_icon_name("object-unlocked", Gtk::ICON_SIZE_BUTTON); } image->set_pixel_size(size); } void SelectToolbar::toggle_touch() { Inkscape::Preferences *prefs = Inkscape::Preferences::get(); prefs->setBool("/tools/select/touch_box", _select_touch_btn->get_active()); } void SelectToolbar::toggle_stroke() { Inkscape::Preferences *prefs = Inkscape::Preferences::get(); bool active = _transform_stroke_btn->get_active(); prefs->setBool("/options/transform/stroke", active); if ( active ) { _desktop->messageStack()->flash(Inkscape::INFORMATION_MESSAGE, _("Now stroke width is scaled when objects are scaled.")); } else { _desktop->messageStack()->flash(Inkscape::INFORMATION_MESSAGE, _("Now stroke width is not scaled when objects are scaled.")); } } void SelectToolbar::toggle_corners() { Inkscape::Preferences *prefs = Inkscape::Preferences::get(); bool active = _transform_corners_btn->get_active(); prefs->setBool("/options/transform/rectcorners", active); if ( active ) { _desktop->messageStack()->flash(Inkscape::INFORMATION_MESSAGE, _("Now rounded rectangle corners are scaled when rectangles are scaled.")); } else { _desktop->messageStack()->flash(Inkscape::INFORMATION_MESSAGE, _("Now rounded rectangle corners are not scaled when rectangles are scaled.")); } } void SelectToolbar::toggle_gradient() { Inkscape::Preferences *prefs = Inkscape::Preferences::get(); bool active = _transform_gradient_btn->get_active(); prefs->setBool("/options/transform/gradient", active); if ( active ) { _desktop->messageStack()->flash(Inkscape::INFORMATION_MESSAGE, _("Now gradients are transformed along with their objects when those are transformed (moved, scaled, rotated, or skewed).")); } else { _desktop->messageStack()->flash(Inkscape::INFORMATION_MESSAGE, _("Now gradients remain fixed when objects are transformed (moved, scaled, rotated, or skewed).")); } } void SelectToolbar::toggle_pattern() { Inkscape::Preferences *prefs = Inkscape::Preferences::get(); bool active = _transform_pattern_btn->get_active(); prefs->setInt("/options/transform/pattern", active); if ( active ) { _desktop->messageStack()->flash(Inkscape::INFORMATION_MESSAGE, _("Now patterns are transformed along with their objects when those are transformed (moved, scaled, rotated, or skewed).")); } else { _desktop->messageStack()->flash(Inkscape::INFORMATION_MESSAGE, _("Now patterns remain fixed when objects are transformed (moved, scaled, rotated, or skewed).")); } } } } } /* Local Variables: mode:c++ c-file-style:"stroustrup" c-file-offsets:((innamespace . 0)(inline-open . 0)(case-label . +)) indent-tabs-mode:nil fill-column:99 End: */ // vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=8:softtabstop=4 :