/* * Editable view implementation * * Authors: * Lauris Kaplinski * MenTaLguY * bulia byak * Ralf Stephan * John Bintz * Johan Engelen * Jon A. Cruz * Abhishek Sharma * * Copyright (C) 2007 Jon A. Cruz * Copyright (C) 2006-2008 Johan Engelen * Copyright (C) 2006 John Bintz * Copyright (C) 2004 MenTaLguY * Copyright (C) 1999-2002 Lauris Kaplinski * Copyright (C) 2000-2001 Ximian, Inc. * * Released under GNU GPL, read the file 'COPYING' for more information */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include "ui/dialog/dialog-manager.h" #include #include #include <2geom/transforms.h> #include <2geom/rect.h> #include "ui/tools/box3d-tool.h" #include "color.h" #include "desktop-events.h" #include "desktop.h" #include "desktop-style.h" #include "device-manager.h" #include "display/canvas-arena.h" #include "display/canvas-grid.h" #include "display/canvas-temporary-item-list.h" #include "display/drawing-group.h" #include "display/gnome-canvas-acetate.h" #include "display/drawing.h" #include "display/snap-indicator.h" #include "display/sodipodi-ctrlrect.h" #include "display/sp-canvas-group.h" #include "display/sp-canvas.h" #include "display/sp-canvas-util.h" #include "document.h" #include "document-undo.h" #include "event-log.h" #include "helper/action-context.h" #include "ui/interface.h" #include "layer-fns.h" #include "layer-manager.h" #include "layer-model.h" #include "macros.h" #include "message-context.h" #include "message-stack.h" #include "preferences.h" #include "resource-manager.h" #include "ui/tools/select-tool.h" #include "selection.h" #include "sp-item-group.h" #include "sp-item-group.h" #include "sp-namedview.h" #include "sp-root.h" #include "sp-defs.h" #include "ui/tool-factory.h" #include "widgets/desktop-widget.h" #include "xml/repr.h" #include "helper/action.h" //sp_action_perform // TODO those includes are only for node tool quick zoom. Remove them after fixing it. #include "ui/tools/node-tool.h" #include "ui/tool/control-point-selection.h" namespace Inkscape { namespace XML { class Node; }} // Callback declarations static void _onSelectionChanged (Inkscape::Selection *selection, SPDesktop *desktop); static gint _arena_handler (SPCanvasArena *arena, Inkscape::DrawingItem *ai, GdkEvent *event, SPDesktop *desktop); static void _layer_activated(SPObject *layer, SPDesktop *desktop); static void _layer_deactivated(SPObject *layer, SPDesktop *desktop); static void _layer_hierarchy_changed(SPObject *top, SPObject *bottom, SPDesktop *desktop); static void _reconstruction_start(SPDesktop * desktop); static void _reconstruction_finish(SPDesktop * desktop); static void _namedview_modified (SPObject *obj, guint flags, SPDesktop *desktop); SPDesktop::SPDesktop() : _dlg_mgr( NULL ), namedview( NULL ), canvas( NULL ), layers( NULL ), selection( NULL ), event_context( NULL ), layer_manager( NULL ), event_log( NULL ), temporary_item_list( NULL ), snapindicator( NULL ), acetate( NULL ), main( NULL ), gridgroup( NULL ), guides( NULL ), drawing( NULL ), sketch( NULL ), controls( NULL ), tempgroup ( NULL ), table( NULL ), page( NULL ), page_border( NULL ), current( NULL ), _focusMode(false), dkey( 0 ), number( 0 ), window_state(0), interaction_disabled_counter( 0 ), waiting_cursor( false ), showing_dialogs ( false ), guides_active( false ), gr_item( NULL ), gr_point_type( POINT_LG_BEGIN ), gr_point_i( 0 ), gr_fill_or_stroke( Inkscape::FOR_FILL ), _reconstruction_old_layer_id(), // an id attribute is not allowed to be the empty string _display_mode(Inkscape::RENDERMODE_NORMAL), _display_color_mode(Inkscape::COLORMODE_NORMAL), _widget( NULL ), _guides_message_context( NULL ), _active( false ), _w2d(), _d2w(), _doc2dt( Geom::Scale(1, -1) ), _image_render_observer(this, "/options/rendering/imageinoutlinemode"), grids_visible( false ) { _d2w.setIdentity(); _w2d.setIdentity(); layers = new Inkscape::LayerModel(); layers->_layer_activated_signal.connect(sigc::bind(sigc::ptr_fun(_layer_activated), this)); layers->_layer_deactivated_signal.connect(sigc::bind(sigc::ptr_fun(_layer_deactivated), this)); layers->_layer_changed_signal.connect(sigc::bind(sigc::ptr_fun(_layer_hierarchy_changed), this)); selection = Inkscape::GC::release( new Inkscape::Selection(layers, this) ); } void SPDesktop::init (SPNamedView *nv, SPCanvas *aCanvas, Inkscape::UI::View::EditWidgetInterface *widget) { _widget = widget; // Temporary workaround for link order issues: Inkscape::DeviceManager::getManager().getDevices(); Inkscape::ResourceManager::getManager(); Inkscape::Preferences *prefs = Inkscape::Preferences::get(); _guides_message_context = new Inkscape::MessageContext(const_cast(messageStack())); current = prefs->getStyle("/desktop/style"); namedview = nv; canvas = aCanvas; SPDocument *document = namedview->document; /* XXX: * ensureUpToDate() sends a 'modified' signal to the root element. * This is reportedly required to prevent flickering after the document * loads. However, many SPObjects write to their repr in response * to this signal. This is apparently done to support live path effects, * which rewrite their result paths after each modification of the base object. * This causes the generation of an incomplete undo transaction, * which causes problems down the line, including crashes in the * Undo History dialog. * * For now, this is handled by disabling undo tracking during this call. * A proper fix would involve modifying the way ensureUpToDate() works, * so that the LPE results are not rewritten. */ Inkscape::DocumentUndo::setUndoSensitive(document, false); document->ensureUpToDate(); Inkscape::DocumentUndo::setUndoSensitive(document, true); /* Setup Dialog Manager */ _dlg_mgr = &Inkscape::UI::Dialog::DialogManager::getInstance(); dkey = SPItem::display_key_new(1); /* Connect display key to layer model */ layers->setDisplayKey(dkey); /* Connect document */ setDocument (document); number = namedview->getViewCount(); /* Setup Canvas */ g_object_set_data (G_OBJECT (canvas), "SPDesktop", this); SPCanvasGroup *root = canvas->getRoot(); /* Setup adminstrative layers */ acetate = sp_canvas_item_new (root, GNOME_TYPE_CANVAS_ACETATE, NULL); g_signal_connect (G_OBJECT (acetate), "event", G_CALLBACK (sp_desktop_root_handler), this); main = (SPCanvasGroup *) sp_canvas_item_new (root, SP_TYPE_CANVAS_GROUP, NULL); g_signal_connect (G_OBJECT (main), "event", G_CALLBACK (sp_desktop_root_handler), this); table = sp_canvas_item_new (main, SP_TYPE_CTRLRECT, NULL); SP_CTRLRECT(table)->setRectangle(Geom::Rect(Geom::Point(-80000, -80000), Geom::Point(80000, 80000))); SP_CTRLRECT(table)->setColor(0x00000000, true, 0x00000000); sp_canvas_item_move_to_z (table, 0); page = sp_canvas_item_new (main, SP_TYPE_CTRLRECT, NULL); ((CtrlRect *) page)->setColor(0x00000000, FALSE, 0x00000000); page_border = sp_canvas_item_new (main, SP_TYPE_CTRLRECT, NULL); drawing = sp_canvas_item_new (main, SP_TYPE_CANVAS_ARENA, NULL); g_signal_connect (G_OBJECT (drawing), "arena_event", G_CALLBACK (_arena_handler), this); SP_CANVAS_ARENA (drawing)->drawing.delta = prefs->getDouble("/options/cursortolerance/value", 1.0); // default is 1 px if (prefs->getBool("/options/startmode/outline")) { // Start in outline mode setDisplayModeOutline(); } else { // Start in normal mode, default setDisplayModeNormal(); } // The order in which these canvas items are added determines the z-order. It's therefore // important to add the tempgroup (which will contain the snapindicator) before adding the // controls. Only this way one will be able to quickly (before the snap indicator has // disappeared) reselect a node after snapping it. If the z-order is wrong however, this // will not work (the snap indicator is on top of the node handler; is the snapindicator // being selected? or does it intercept some of the events that should have gone to the // node handler? see bug https://bugs.launchpad.net/inkscape/+bug/414142) gridgroup = (SPCanvasGroup *) sp_canvas_item_new (main, SP_TYPE_CANVAS_GROUP, NULL); guides = (SPCanvasGroup *) sp_canvas_item_new (main, SP_TYPE_CANVAS_GROUP, NULL); sketch = (SPCanvasGroup *) sp_canvas_item_new (main, SP_TYPE_CANVAS_GROUP, NULL); tempgroup = (SPCanvasGroup *) sp_canvas_item_new (main, SP_TYPE_CANVAS_GROUP, NULL); controls = (SPCanvasGroup *) sp_canvas_item_new (main, SP_TYPE_CANVAS_GROUP, NULL); // Set the select tool as the active tool. set_event_context2("/tools/select"); // display rect and zoom are now handled in sp_desktop_widget_realize() Geom::Rect const d(Geom::Point(0.0, 0.0), Geom::Point(document->getWidth().value("px"), document->getHeight().value("px"))); SP_CTRLRECT(page)->setRectangle(d); SP_CTRLRECT(page_border)->setRectangle(d); /* the following sets the page shadow on the canvas It was originally set to 5, which is really cheesy! It now is an attribute in the document's namedview. If a value of 0 is used, then the constructor for a shadow is not initialized. */ if ( namedview->pageshadow != 0 && namedview->showpageshadow ) { SP_CTRLRECT(page_border)->setShadow(namedview->pageshadow, 0x3f3f3fff); } /* Connect event for page resize */ _doc2dt[5] = document->getHeight().value("px"); sp_canvas_item_affine_absolute (SP_CANVAS_ITEM (drawing), _doc2dt); _modified_connection = namedview->connectModified(sigc::bind<2>(sigc::ptr_fun(&_namedview_modified), this)); Inkscape::DrawingItem *ai = document->getRoot()->invoke_show( SP_CANVAS_ARENA (drawing)->drawing, dkey, SP_ITEM_SHOW_DISPLAY); if (ai) { SP_CANVAS_ARENA (drawing)->drawing.root()->prependChild(ai); } namedview->show(this); /* Ugly hack */ activate_guides (true); /* Ugly hack */ _namedview_modified (namedview, SP_OBJECT_MODIFIED_FLAG, this); /* Set up notification of rebuilding the document, this allows for saving object related settings in the document. */ _reconstruction_start_connection = document->connectReconstructionStart(sigc::bind(sigc::ptr_fun(_reconstruction_start), this)); _reconstruction_finish_connection = document->connectReconstructionFinish(sigc::bind(sigc::ptr_fun(_reconstruction_finish), this)); _reconstruction_old_layer_id.clear(); // ? // sp_active_desktop_set (desktop); _activate_connection = _activate_signal.connect( sigc::bind( sigc::ptr_fun(_onActivate), this ) ); _deactivate_connection = _deactivate_signal.connect( sigc::bind( sigc::ptr_fun(_onDeactivate), this ) ); _sel_modified_connection = selection->connectModified( sigc::bind( sigc::ptr_fun(&_onSelectionModified), this ) ); _sel_changed_connection = selection->connectChanged( sigc::bind( sigc::ptr_fun(&_onSelectionChanged), this ) ); /* setup LayerManager */ // (Setting up after the connections are all in place, as it may use some of them) layer_manager = new Inkscape::LayerManager( this ); showGrids(namedview->grids_visible, false); temporary_item_list = new Inkscape::Display::TemporaryItemList( this ); snapindicator = new Inkscape::Display::SnapIndicator ( this ); } void SPDesktop::destroy() { _destroy_signal.emit(this); if (snapindicator) { delete snapindicator; snapindicator = NULL; } if (temporary_item_list) { delete temporary_item_list; temporary_item_list = NULL; } if (selection) { delete selection; selection = NULL; } namedview->hide(this); _activate_connection.disconnect(); _deactivate_connection.disconnect(); _sel_modified_connection.disconnect(); _sel_changed_connection.disconnect(); _modified_connection.disconnect(); _commit_connection.disconnect(); _reconstruction_start_connection.disconnect(); _reconstruction_finish_connection.disconnect(); g_signal_handlers_disconnect_by_func(G_OBJECT (acetate), (gpointer) G_CALLBACK(sp_desktop_root_handler), this); g_signal_handlers_disconnect_by_func(G_OBJECT (main), (gpointer) G_CALLBACK(sp_desktop_root_handler), this); g_signal_handlers_disconnect_by_func(G_OBJECT (drawing), (gpointer) G_CALLBACK(_arena_handler), this); if (event_context) { event_context->finish(); delete event_context; event_context = NULL; } delete layers; if (layer_manager) { delete layer_manager; layer_manager = NULL; } if (drawing) { doc()->getRoot()->invoke_hide(dkey); g_object_unref(drawing); drawing = NULL; } delete _guides_message_context; _guides_message_context = NULL; } SPDesktop::~SPDesktop() { } Inkscape::UI::Tools::ToolBase* SPDesktop::getEventContext() const { return event_context; } Inkscape::Selection* SPDesktop::getSelection() const { return selection; } SPDocument* SPDesktop::getDocument() const { return doc(); } SPCanvas* SPDesktop::getCanvas() const { return SP_CANVAS_ITEM(main)->canvas; } SPCanvasItem* SPDesktop::getAcetate() const { return acetate; } SPCanvasGroup* SPDesktop::getMain() const { return main; } SPCanvasGroup* SPDesktop::getGridGroup() const { return gridgroup; } SPCanvasGroup* SPDesktop::getGuides() const { return guides; } SPCanvasItem* SPDesktop::getDrawing() const { return drawing; } SPCanvasGroup* SPDesktop::getSketch() const { return sketch; } SPCanvasGroup* SPDesktop::getControls() const { return controls; } SPCanvasGroup* SPDesktop::getTempGroup() const { return tempgroup; } Inkscape::MessageStack* SPDesktop::getMessageStack() const { return messageStack(); } SPNamedView* SPDesktop::getNamedView() const { return namedview; } //-------------------------------------------------------------------- /* Public methods */ /* These methods help for temporarily showing things on-canvas. * The *only* valid use of the TemporaryItem* that you get from add_temporary_canvasitem * is when you want to prematurely remove the item from the canvas, by calling * desktop->remove_temporary_canvasitem(tempitem). */ /** Note that lifetime is measured in milliseconds * One should *not* keep a reference to the SPCanvasItem, the temporary item code will * delete the object for you and the reference will become invalid without you knowing it. * It is perfectly safe to ignore the returned pointer: the object is deleted by itself, so don't delete it elsewhere! * The *only* valid use of the returned TemporaryItem* is as argument for SPDesktop::remove_temporary_canvasitem, * because the object might be deleted already without you knowing it. * move_to_bottom = true by default so the item does not interfere with handling of other items on the canvas like nodes. */ Inkscape::Display::TemporaryItem * SPDesktop::add_temporary_canvasitem (SPCanvasItem *item, guint lifetime, bool move_to_bottom) { if (move_to_bottom) { sp_canvas_item_move_to_z(item, 0); } return temporary_item_list->add_item(item, lifetime); } /** It is perfectly safe to call this function while the object has already been deleted due to a timeout. */ void SPDesktop::remove_temporary_canvasitem (Inkscape::Display::TemporaryItem * tempitem) { // check for non-null temporary_item_list, because during destruction of desktop, some destructor might try to access this list! if (tempitem && temporary_item_list) { temporary_item_list->delete_item(tempitem); } } void SPDesktop::redrawDesktop() { sp_canvas_item_affine_absolute (SP_CANVAS_ITEM (main), _d2w); // redraw } void SPDesktop::_setDisplayMode(Inkscape::RenderMode mode) { SP_CANVAS_ARENA (drawing)->drawing.setRenderMode(mode); canvas->rendermode = mode; _display_mode = mode; redrawDesktop(); _widget->setTitle( this->getDocument()->getName() ); } void SPDesktop::_setDisplayColorMode(Inkscape::ColorMode mode) { // reload grayscale matrix from prefs if (mode == Inkscape::COLORMODE_GRAYSCALE) { Inkscape::Preferences *prefs = Inkscape::Preferences::get(); gdouble r = prefs->getDoubleLimited("/options/rendering/grayscale/red-factor",0.21,0.,1.); gdouble g = prefs->getDoubleLimited("/options/rendering/grayscale/green-factor",0.72,0.,1.); gdouble b = prefs->getDoubleLimited("/options/rendering/grayscale/blue-factor",0.072,0.,1.); gdouble grayscale_value_matrix[20] = { r, g, b, 0, 0, r, g, b, 0, 0, r, g, b, 0, 0, 0, 0, 0, 1, 0 }; g_message("%g",grayscale_value_matrix[0]); SP_CANVAS_ARENA (drawing)->drawing.setGrayscaleMatrix(grayscale_value_matrix); } SP_CANVAS_ARENA (drawing)->drawing.setColorMode(mode); canvas->colorrendermode = mode; _display_color_mode = mode; redrawDesktop(); _widget->setTitle( this->getDocument()->getName() ); } void SPDesktop::displayModeToggle() { switch (_display_mode) { case Inkscape::RENDERMODE_NORMAL: _setDisplayMode(Inkscape::RENDERMODE_NO_FILTERS); break; case Inkscape::RENDERMODE_NO_FILTERS: _setDisplayMode(Inkscape::RENDERMODE_OUTLINE); break; case Inkscape::RENDERMODE_OUTLINE: _setDisplayMode(Inkscape::RENDERMODE_NORMAL); break; default: _setDisplayMode(Inkscape::RENDERMODE_NORMAL); } } void SPDesktop::displayColorModeToggle() { switch (_display_color_mode) { case Inkscape::COLORMODE_NORMAL: _setDisplayColorMode(Inkscape::COLORMODE_GRAYSCALE); break; case Inkscape::COLORMODE_GRAYSCALE: _setDisplayColorMode(Inkscape::COLORMODE_NORMAL); break; // case Inkscape::COLORMODE_PRINT_COLORS_PREVIEW: default: _setDisplayColorMode(Inkscape::COLORMODE_NORMAL); } } // Pass-through LayerModel functions SPObject *SPDesktop::currentRoot() const { return layers->currentRoot(); } SPObject *SPDesktop::currentLayer() const { return layers->currentLayer(); } void SPDesktop::setCurrentLayer(SPObject *object) { layers->setCurrentLayer(object); } void SPDesktop::toggleLayerSolo(SPObject *object) { layers->toggleLayerSolo(object); } void SPDesktop::toggleHideAllLayers(bool hide) { layers->toggleHideAllLayers(hide); } void SPDesktop::toggleLockAllLayers(bool lock) { layers->toggleLockAllLayers(lock); } void SPDesktop::toggleLockOtherLayers(SPObject *object) { layers->toggleLockOtherLayers(object); } bool SPDesktop::isLayer(SPObject *object) const { return layers->isLayer(object); } /** * True if desktop viewport intersects \a item's bbox. */ bool SPDesktop::isWithinViewport (SPItem *item) const { Geom::Rect const viewport = get_display_area(); Geom::OptRect const bbox = item->desktopVisualBounds(); if (bbox) { return viewport.intersects(*bbox); } else { return false; } } /// bool SPDesktop::itemIsHidden(SPItem const *item) const { return item->isHidden(this->dkey); } /** * Set activate property of desktop; emit signal if changed. */ void SPDesktop::set_active (bool new_active) { if (new_active != _active) { _active = new_active; if (new_active) { _activate_signal.emit(); } else { _deactivate_signal.emit(); } } } /** * Set activate status of current desktop's named view. */ void SPDesktop::activate_guides(bool activate) { guides_active = activate; namedview->activateGuides(this, activate); } /** * Make desktop switch documents. */ void SPDesktop::change_document (SPDocument *theDocument) { g_return_if_fail (theDocument != NULL); /* unselect everything before switching documents */ selection->clear(); setDocument (theDocument); /* update the rulers, connect the desktop widget's signal to the new namedview etc. (this can probably be done in a better way) */ Gtk::Window *parent = this->getToplevel(); g_assert(parent != NULL); SPDesktopWidget *dtw = (SPDesktopWidget *) parent->get_data("desktopwidget"); if (dtw) { dtw->desktop = this; dtw->updateNamedview(); } _namedview_modified (namedview, SP_OBJECT_MODIFIED_FLAG, this); _document_replaced_signal.emit (this, theDocument); } /** * Replaces the currently active tool with a new one. */ void SPDesktop::set_event_context2(const std::string& toolName) { Inkscape::UI::Tools::ToolBase* old_tool = event_context; if (old_tool) { if (toolName.compare(old_tool->pref_observer->observed_path) != 0) { //g_message("Old tool: %s", old_tool->pref_observer->observed_path.c_str()); //g_message("New tool: %s", toolName.c_str()); old_tool->finish(); delete old_tool; } else { _event_context_changed_signal.emit(this, event_context); return; } } Inkscape::UI::Tools::ToolBase* new_tool = ToolFactory::instance().createObject(toolName); new_tool->desktop = this; new_tool->message_context = new Inkscape::MessageContext(this->messageStack()); event_context = new_tool; new_tool->setup(); // Make sure no delayed snapping events are carried over after switching tools // (this is only an additional safety measure against sloppy coding, because each // tool should take care of this by itself) sp_event_context_discard_delayed_snap_event(event_context); _event_context_changed_signal.emit(this, event_context); } /** * Sets the coordinate status to a given point */ void SPDesktop::set_coordinate_status (Geom::Point p) { _widget->setCoordinateStatus(p); } Inkscape::UI::Widget::Dock* SPDesktop::getDock() { return _widget->getDock(); } /** * \see SPDocument::getItemFromListAtPointBottom() */ SPItem *SPDesktop::getItemFromListAtPointBottom(const GSList *list, Geom::Point const &p) const { g_return_val_if_fail (doc() != NULL, NULL); return SPDocument::getItemFromListAtPointBottom(dkey, doc()->getRoot(), list, p); } /** * \see SPDocument::getItemAtPoint() */ SPItem *SPDesktop::getItemAtPoint(Geom::Point const &p, bool into_groups, SPItem *upto) const { g_return_val_if_fail (doc() != NULL, NULL); return doc()->getItemAtPoint( dkey, p, into_groups, upto); } /** * \see SPDocument::getGroupAtPoint() */ SPItem *SPDesktop::getGroupAtPoint(Geom::Point const &p) const { g_return_val_if_fail (doc() != NULL, NULL); return doc()->getGroupAtPoint(dkey, p); } /** * Returns the mouse point in document coordinates; if mouse is * outside the canvas, returns the center of canvas viewpoint. */ Geom::Point SPDesktop::point() const { Geom::Point p = _widget->getPointer(); Geom::Point pw = sp_canvas_window_to_world (canvas, p); p = w2d(pw); Geom::Rect const r = canvas->getViewbox(); Geom::Point r0 = w2d(r.min()); Geom::Point r1 = w2d(r.max()); if (p[Geom::X] >= r0[Geom::X] && p[Geom::X] <= r1[Geom::X] && p[Geom::Y] >= r1[Geom::Y] && p[Geom::Y] <= r0[Geom::Y]) { return p; } else { return (r0 + r1) / 2; } } /** * Put current zoom data in history list. */ void SPDesktop::push_current_zoom (std::list &history) { Geom::Rect area = get_display_area(); if (history.empty() || history.front() != area) { history.push_front(area); } } /** * Set viewbox (x0, x1, y0 and y1 are in document pixels. Border is in screen pixels). */ void SPDesktop::set_display_area (double x0, double y0, double x1, double y1, double border, bool log) { g_assert(_widget); bool zoomChanged = false; // save the zoom if (log) { push_current_zoom(zooms_past); // if we do a logged zoom, our zoom-forward list is invalidated, so delete it zooms_future.clear(); } double const cx = 0.5 * (x0 + x1); double const cy = 0.5 * (y0 + y1); // FIXME: This 2geom idiom doesn't allow us to declare dbox const Geom::Rect viewbox = canvas->getViewbox(); viewbox.expandBy(-border); double scale = _d2w.descrim(); double newscale; if (((x1 - x0) * viewbox.dimensions()[Geom::Y]) > ((y1 - y0) * viewbox.dimensions()[Geom::X])) { newscale = viewbox.dimensions()[Geom::X] / (x1 - x0); } else { newscale = viewbox.dimensions()[Geom::Y] / (y1 - y0); } newscale = CLAMP(newscale, SP_DESKTOP_ZOOM_MIN, SP_DESKTOP_ZOOM_MAX); // unit: 'screen pixels' per 'document pixels' int clear = FALSE; if (!Geom::are_near(newscale, scale, Geom::EPSILON * scale)) { // zoom changed - set new zoom factors _d2w = Geom::Scale(newscale, -newscale); _w2d = Geom::Scale(1/newscale, 1/-newscale); redrawDesktop(); clear = TRUE; zoomChanged = true; } /* Calculate top left corner (in document pixels) */ x0 = cx - 0.5 * viewbox.dimensions()[Geom::X] / newscale; y1 = cy + 0.5 * viewbox.dimensions()[Geom::Y] / newscale; // Scroll canvas->scrollTo(x0 * newscale - border, y1 * -newscale - border, clear); /* update perspective lines if we are in the 3D box tool (so that infinite ones are shown correctly) */ //sp_box3d_context_update_lines(event_context); if (SP_IS_BOX3D_CONTEXT(event_context)) { SP_BOX3D_CONTEXT(event_context)->_vpdrag->updateLines(); } _widget->updateRulers(); _widget->updateScrollbars(_d2w.descrim()); _widget->updateZoom(); if ( zoomChanged ) { signal_zoom_changed.emit(_d2w.descrim()); } } void SPDesktop::set_display_area(Geom::Rect const &a, Geom::Coord b, bool log) { set_display_area(a.min()[Geom::X], a.min()[Geom::Y], a.max()[Geom::X], a.max()[Geom::Y], b, log); } /** * Return viewbox dimensions. */ Geom::Rect SPDesktop::get_display_area() const { Geom::Rect const viewbox = canvas->getViewbox(); double const scale = _d2w[0]; /// @fixme hardcoded desktop transform return Geom::Rect(Geom::Point(viewbox.min()[Geom::X] / scale, viewbox.max()[Geom::Y] / -scale), Geom::Point(viewbox.max()[Geom::X] / scale, viewbox.min()[Geom::Y] / -scale)); } /** * Revert back to previous zoom if possible. */ void SPDesktop::prev_zoom() { if (zooms_past.empty()) { messageStack()->flash(Inkscape::WARNING_MESSAGE, _("No previous zoom.")); return; } // push current zoom into forward zooms list push_current_zoom (zooms_future); // restore previous zoom Geom::Rect past = zooms_past.front(); set_display_area (past.left(), past.top(), past.right(), past.bottom(), 0, false); // remove the just-added zoom from the past zooms list zooms_past.pop_front(); } /** * Set zoom to next in list. */ void SPDesktop::next_zoom() { if (zooms_future.empty()) { this->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("No next zoom.")); return; } // push current zoom into past zooms list push_current_zoom (zooms_past); // restore next zoom Geom::Rect future = zooms_future.front(); set_display_area (future.left(), future.top(), future.right(), future.bottom(), 0, false); // remove the just-used zoom from the zooms_future list zooms_future.pop_front(); } /** * Performs a quick zoom into what the user is working on. * * @param enable Whether we're going in or out of quick zoom. */ void SPDesktop::zoom_quick(bool enable) { if (enable == _quick_zoom_enabled) { return; } if (enable == true) { _quick_zoom_stored_area = get_display_area(); bool zoomed = false; // TODO This needs to migrate into the node tool, but currently the design // of this method is sufficiently wrong to prevent this. if (!zoomed && INK_IS_NODE_TOOL(event_context)) { Inkscape::UI::Tools::NodeTool *nt = static_cast(event_context); if (!nt->_selected_nodes->empty()) { Geom::Rect nodes = *nt->_selected_nodes->bounds(); double area = nodes.area(); // do not zoom if a single cusp node is selected aand the bounds // have zero area. if (!Geom::are_near(area, 0) && area * 2.0 < _quick_zoom_stored_area.area()) { set_display_area(nodes, true); zoomed = true; } } } if (!zoomed) { Geom::OptRect const d = selection->visualBounds(); if (d && d->area() * 2.0 < _quick_zoom_stored_area.area()) { set_display_area(*d, true); zoomed = true; } } if (!zoomed) { zoom_relative(_quick_zoom_stored_area.midpoint()[Geom::X], _quick_zoom_stored_area.midpoint()[Geom::Y], 2.0); zoomed = true; } } else { set_display_area(_quick_zoom_stored_area, false); } _quick_zoom_enabled = enable; return; } /** * Zoom to point with absolute zoom factor. */ void SPDesktop::zoom_absolute_keep_point (double cx, double cy, double px, double py, double zoom) { zoom = CLAMP (zoom, SP_DESKTOP_ZOOM_MIN, SP_DESKTOP_ZOOM_MAX); // maximum or minimum zoom reached, but there's no exact equality because of rounding errors; // this check prevents "sliding" when trying to zoom in at maximum zoom; /// \todo someone please fix calculations properly and remove this hack if (fabs(_d2w.descrim() - zoom) < 0.0001*zoom && (fabs(SP_DESKTOP_ZOOM_MAX - zoom) < 0.01 || fabs(SP_DESKTOP_ZOOM_MIN - zoom) < 0.000001)) return; Geom::Rect const viewbox = canvas->getViewbox(); double const width2 = viewbox.dimensions()[Geom::X] / zoom; double const height2 = viewbox.dimensions()[Geom::Y] / zoom; set_display_area(cx - px * width2, cy - py * height2, cx + (1 - px) * width2, cy + (1 - py) * height2, 0.0); } /** * Apply the desktop's current style or the tool style to the object. */ void SPDesktop::applyCurrentOrToolStyle(SPObject *obj, Glib::ustring const &tool_path, bool with_text) { SPCSSAttr *css_current = sp_desktop_get_style(this, with_text); Inkscape::Preferences *prefs = Inkscape::Preferences::get(); if (prefs->getBool(tool_path + "/usecurrent") && css_current) { obj->setCSS(css_current,"style"); } else { SPCSSAttr *css = prefs->getInheritedStyle(tool_path + "/style"); obj->setCSS(css,"style"); sp_repr_css_attr_unref(css); } if (css_current) { sp_repr_css_attr_unref(css_current); } } /** * Zoom to center with absolute zoom factor. */ void SPDesktop::zoom_absolute (double cx, double cy, double zoom) { zoom_absolute_keep_point (cx, cy, 0.5, 0.5, zoom); } /** * Zoom to point with relative zoom factor. */ void SPDesktop::zoom_relative_keep_point (double cx, double cy, double zoom) { Geom::Rect const area = get_display_area(); if (cx < area.min()[Geom::X]) { cx = area.min()[Geom::X]; } if (cx > area.max()[Geom::X]) { cx = area.max()[Geom::X]; } if (cy < area.min()[Geom::Y]) { cy = area.min()[Geom::Y]; } if (cy > area.max()[Geom::Y]) { cy = area.max()[Geom::Y]; } gdouble const scale = _d2w.descrim() * zoom; double const px = (cx - area.min()[Geom::X]) / area.dimensions()[Geom::X]; double const py = (cy - area.min()[Geom::Y]) / area.dimensions()[Geom::Y]; zoom_absolute_keep_point(cx, cy, px, py, scale); } /** * Zoom to center with relative zoom factor. */ void SPDesktop::zoom_relative (double cx, double cy, double zoom) { gdouble scale = _d2w.descrim() * zoom; zoom_absolute (cx, cy, scale); } /** * Set display area to origin and current document dimensions. */ void SPDesktop::zoom_page() { Geom::Rect d(Geom::Point(0, 0), Geom::Point(doc()->getWidth().value("px"), doc()->getHeight().value("px"))); if (d.minExtent() < 1.0) { return; } set_display_area(d, 10); } /** * Set display area to current document width. */ void SPDesktop::zoom_page_width() { Geom::Rect const a = get_display_area(); if (doc()->getWidth().value("px") < 1.0) { return; } Geom::Rect d(Geom::Point(0, a.midpoint()[Geom::Y]), Geom::Point(doc()->getWidth().value("px"), a.midpoint()[Geom::Y])); set_display_area(d, 10); } /** * Zoom to selection. */ void SPDesktop::zoom_selection() { Geom::OptRect const d = selection->visualBounds(); if ( !d || d->minExtent() < 0.1 ) { return; } set_display_area(*d, 10); } /** * Tell widget to let zoom widget grab keyboard focus. */ void SPDesktop::zoom_grab_focus() { _widget->letZoomGrabFocus(); } /** * Zoom to whole drawing. */ void SPDesktop::zoom_drawing() { g_return_if_fail (doc() != NULL); SPItem *docitem = doc()->getRoot(); g_return_if_fail (docitem != NULL); docitem->bbox_valid = FALSE; Geom::OptRect d = docitem->desktopVisualBounds(); /* Note that the second condition here indicates that ** there are no items in the drawing. */ if ( !d || d->minExtent() < 0.1 ) { return; } set_display_area(*d, 10); } /** * Scroll canvas by specific coordinate amount in svg coordinates. */ void SPDesktop::scroll_world_in_svg_coords (double dx, double dy, bool is_scrolling) { double scale = _d2w.descrim(); scroll_world(dx*scale, dy*scale, is_scrolling); } /** * Scroll canvas by specific coordinate amount. */ void SPDesktop::scroll_world (double dx, double dy, bool is_scrolling) { g_assert(_widget); Geom::Rect const viewbox = canvas->getViewbox(); canvas->scrollTo(viewbox.min()[Geom::X] - dx, viewbox.min()[Geom::Y] - dy, FALSE, is_scrolling); /* update perspective lines if we are in the 3D box tool (so that infinite ones are shown correctly) */ //sp_box3d_context_update_lines(event_context); if (SP_IS_BOX3D_CONTEXT(event_context)) { SP_BOX3D_CONTEXT(event_context)->_vpdrag->updateLines(); } _widget->updateRulers(); _widget->updateScrollbars(_d2w.descrim()); } bool SPDesktop::scroll_to_point (Geom::Point const &p, gdouble autoscrollspeed) { using Geom::X; using Geom::Y; Inkscape::Preferences *prefs = Inkscape::Preferences::get(); gdouble autoscrolldistance = (gdouble) prefs->getIntLimited("/options/autoscrolldistance/value", 0, -1000, 10000); // autoscrolldistance is in screen pixels, but the display area is in document units autoscrolldistance /= _d2w.descrim(); // FIXME: This 2geom idiom doesn't allow us to declare dbox const Geom::Rect dbox = get_display_area(); dbox.expandBy(-autoscrolldistance); if (!(p[X] > dbox.min()[X] && p[X] < dbox.max()[X]) || !(p[Y] > dbox.min()[Y] && p[Y] < dbox.max()[Y]) ) { Geom::Point const s_w( p * (Geom::Affine)_d2w ); gdouble x_to; if (p[X] < dbox.min()[X]) x_to = dbox.min()[X]; else if (p[X] > dbox.max()[X]) x_to = dbox.max()[X]; else x_to = p[X]; gdouble y_to; if (p[Y] < dbox.min()[Y]) y_to = dbox.min()[Y]; else if (p[Y] > dbox.max()[Y]) y_to = dbox.max()[Y]; else y_to = p[Y]; Geom::Point const d_dt(x_to, y_to); Geom::Point const d_w( d_dt * _d2w ); Geom::Point const moved_w( d_w - s_w ); if (autoscrollspeed == 0) autoscrollspeed = prefs->getDoubleLimited("/options/autoscrollspeed/value", 1, 0, 10); if (autoscrollspeed != 0) scroll_world (autoscrollspeed * moved_w); return true; } return false; } bool SPDesktop::is_iconified() { return 0!=(window_state & GDK_WINDOW_STATE_ICONIFIED); } void SPDesktop::iconify() { _widget->setIconified(); } bool SPDesktop::is_maximized() { return 0!=(window_state & GDK_WINDOW_STATE_MAXIMIZED); } void SPDesktop::maximize() { _widget->setMaximized(); } bool SPDesktop::is_fullscreen() { return 0!=(window_state & GDK_WINDOW_STATE_FULLSCREEN); } void SPDesktop::fullscreen() { _widget->setFullscreen(); } /** * Checks to see if the user is working in focused mode. * * @return the value of \c _focusMode. */ bool SPDesktop::is_focusMode() { return _focusMode; } /** * Changes whether the user is in focus mode or not. * * @param mode Which mode the view should be in. */ void SPDesktop::focusMode(bool mode) { if (mode == _focusMode) { return; } _focusMode = mode; layoutWidget(); //sp_desktop_widget_layout(SPDesktopWidget); return; } void SPDesktop::getWindowGeometry (gint &x, gint &y, gint &w, gint &h) { _widget->getGeometry (x, y, w, h); } void SPDesktop::setWindowPosition (Geom::Point p) { _widget->setPosition (p); } void SPDesktop::setWindowSize (gint w, gint h) { _widget->setSize (w, h); } void SPDesktop::setWindowTransient (void *p, int transient_policy) { _widget->setTransient (p, transient_policy); } Gtk::Window* SPDesktop::getToplevel( ) { return _widget->getWindow(); } void SPDesktop::presentWindow() { _widget->present(); } bool SPDesktop::showInfoDialog( Glib::ustring const & message ) { return _widget->showInfoDialog( message ); } bool SPDesktop::warnDialog (Glib::ustring const &text) { return _widget->warnDialog (text); } void SPDesktop::toggleRulers() { _widget->toggleRulers(); } void SPDesktop::toggleScrollbars() { _widget->toggleScrollbars(); } void SPDesktop::toggleToolbar(gchar const *toolbar_name) { Glib::ustring pref_path = getLayoutPrefPath(this) + toolbar_name + "/state"; Inkscape::Preferences *prefs = Inkscape::Preferences::get(); gboolean visible = prefs->getBool(pref_path, true); prefs->setBool(pref_path, !visible); layoutWidget(); } void SPDesktop::layoutWidget() { _widget->layout(); } void SPDesktop::destroyWidget() { _widget->destroy(); } bool SPDesktop::shutdown() { return _widget->shutdown(); } bool SPDesktop::onDeleteUI (GdkEventAny*) { if(shutdown()) return true; destroyWidget(); return false; } /** * onWindowStateEvent * * Called when the window changes its maximize/fullscreen/iconify/pinned state. * Since GTK doesn't have a way to query this state information directly, we * record it for the desktop here, and also possibly trigger a layout. */ bool SPDesktop::onWindowStateEvent (GdkEventWindowState* event) { // Record the desktop window's state window_state = event->new_window_state; // Layout may differ depending on full-screen mode or not GdkWindowState changed = event->changed_mask; if (changed & (GDK_WINDOW_STATE_FULLSCREEN|GDK_WINDOW_STATE_MAXIMIZED)) { layoutWidget(); } return false; } void SPDesktop::setToolboxFocusTo (gchar const *label) { _widget->setToolboxFocusTo (label); } void SPDesktop::setToolboxAdjustmentValue (gchar const* id, double val) { _widget->setToolboxAdjustmentValue (id, val); } void SPDesktop::setToolboxSelectOneValue (gchar const* id, gint val) { _widget->setToolboxSelectOneValue (id, val); } bool SPDesktop::isToolboxButtonActive (gchar const *id) { return _widget->isToolboxButtonActive (id); } void SPDesktop::emitToolSubselectionChanged(gpointer data) { _tool_subselection_changed.emit(data); INKSCAPE.subselection_changed (this); } void SPDesktop::updateNow() { canvas->updateNow(); } void SPDesktop::enableInteraction() { _widget->enableInteraction(); } void SPDesktop::disableInteraction() { _widget->disableInteraction(); } void SPDesktop::setWaitingCursor() { GdkCursor *waiting = gdk_cursor_new(GDK_WATCH); gdk_window_set_cursor(gtk_widget_get_window(GTK_WIDGET(getCanvas())), waiting); #if GTK_CHECK_VERSION(3,0,0) g_object_unref(waiting); #else gdk_cursor_unref(waiting); #endif // GDK needs the flush for the cursor change to take effect gdk_flush(); waiting_cursor = true; } void SPDesktop::clearWaitingCursor() { if (waiting_cursor) { this->event_context->sp_event_context_update_cursor(); } } void SPDesktop::toggleColorProfAdjust() { _widget->toggleColorProfAdjust(); } bool SPDesktop::colorProfAdjustEnabled() { return _widget->colorProfAdjustEnabled(); } void SPDesktop::toggleGrids() { if (namedview->grids) { if(gridgroup) { showGrids(!grids_visible); } } else { //there is no grid present at the moment. add a rectangular grid and make it visible namedview->writeNewGrid(this->getDocument(), Inkscape::GRID_RECTANGULAR); showGrids(true); } } void SPDesktop::showGrids(bool show, bool dirty_document) { grids_visible = show; sp_namedview_show_grids(namedview, grids_visible, dirty_document); if (show) { sp_canvas_item_show(SP_CANVAS_ITEM(gridgroup)); } else { sp_canvas_item_hide(SP_CANVAS_ITEM(gridgroup)); } } void SPDesktop::toggleSnapGlobal() { bool v = namedview->getSnapGlobal(); namedview->setSnapGlobal(!v); } //---------------------------------------------------------------------- // Callback implementations. The virtual ones are connected by the view. void SPDesktop::onResized (double /*x*/, double /*y*/) { // Nothing called here } /** * Redraw callback; queues Gtk redraw; connected by View. */ void SPDesktop::onRedrawRequested () { if (main) { _widget->requestCanvasUpdate(); } } void SPDesktop::updateCanvasNow() { _widget->requestCanvasUpdateAndWait(); } /** * Associate document with desktop. */ void SPDesktop::setDocument (SPDocument *doc) { if (!doc) return; if (this->doc()) { namedview->hide(this); this->doc()->getRoot()->invoke_hide(dkey); } layers->setDocument(doc); // remove old EventLog if it exists (see also: bug #1071082) if (event_log) { doc->removeUndoObserver(*event_log); delete event_log; event_log = 0; } /* setup EventLog */ event_log = new Inkscape::EventLog(doc); doc->addUndoObserver(*event_log); _commit_connection.disconnect(); _commit_connection = doc->connectCommit(sigc::mem_fun(*this, &SPDesktop::updateNow)); /// \todo fixme: This condition exists to make sure the code /// inside is NOT called on initialization, only on replacement. But there /// are surely more safe methods to accomplish this. // TODO since the comment had reversed logic, check the intent of this block of code: if (drawing) { Inkscape::DrawingItem *ai = 0; namedview = sp_document_namedview (doc, NULL); _modified_connection = namedview->connectModified(sigc::bind<2>(sigc::ptr_fun(&_namedview_modified), this)); number = namedview->getViewCount(); ai = doc->getRoot()->invoke_show( SP_CANVAS_ARENA (drawing)->drawing, dkey, SP_ITEM_SHOW_DISPLAY); if (ai) { SP_CANVAS_ARENA (drawing)->drawing.root()->prependChild(ai); } namedview->show(this); /* Ugly hack */ activate_guides (true); /* Ugly hack */ _namedview_modified (namedview, SP_OBJECT_MODIFIED_FLAG, this); } _document_replaced_signal.emit (this, doc); View::setDocument (doc); } void SPDesktop::onStatusMessage (Inkscape::MessageType type, gchar const *message) { if (_widget) { _widget->setMessage(type, message); } } void SPDesktop::onDocumentURISet (gchar const* uri) { _widget->setTitle(uri); } /** * Resized callback. */ void SPDesktop::onDocumentResized (gdouble width, gdouble height) { _doc2dt[5] = height; sp_canvas_item_affine_absolute (SP_CANVAS_ITEM (drawing), _doc2dt); Geom::Rect const a(Geom::Point(0, 0), Geom::Point(width, height)); SP_CTRLRECT(page)->setRectangle(a); SP_CTRLRECT(page_border)->setRectangle(a); } void SPDesktop::_onActivate (SPDesktop* dt) { if (!dt->_widget) return; dt->_widget->activateDesktop(); } void SPDesktop::_onDeactivate (SPDesktop* dt) { if (!dt->_widget) return; dt->_widget->deactivateDesktop(); } void SPDesktop::_onSelectionModified (Inkscape::Selection */*selection*/, guint /*flags*/, SPDesktop *dt) { if (!dt->_widget) return; dt->_widget->updateScrollbars (dt->_d2w.descrim()); } static void _onSelectionChanged (Inkscape::Selection *selection, SPDesktop *desktop) { /** \todo * only change the layer for single selections, or what? * This seems reasonable -- for multiple selections there can be many * different layers involved. */ SPItem *item=selection->singleItem(); if (item) { SPObject *layer=desktop->layers->layerForObject(item); if ( layer && layer != desktop->currentLayer() ) { desktop->layers->setCurrentLayer(layer); } } } /** * Calls event handler of current event context. * \param arena Unused * \todo fixme */ static gint _arena_handler (SPCanvasArena */*arena*/, Inkscape::DrawingItem *ai, GdkEvent *event, SPDesktop *desktop) { if (ai) { SPItem *spi = (SPItem*) ai->data(); return sp_event_context_item_handler (desktop->event_context, spi, event); } else { return sp_event_context_root_handler (desktop->event_context, event); } } static void _layer_activated(SPObject *layer, SPDesktop *desktop) { g_return_if_fail(SP_IS_GROUP(layer)); SP_GROUP(layer)->setLayerDisplayMode(desktop->dkey, SPGroup::LAYER); } /// Callback static void _layer_deactivated(SPObject *layer, SPDesktop *desktop) { g_return_if_fail(SP_IS_GROUP(layer)); SP_GROUP(layer)->setLayerDisplayMode(desktop->dkey, SPGroup::GROUP); } /// Callback static void _layer_hierarchy_changed(SPObject */*top*/, SPObject *bottom, SPDesktop *desktop) { desktop->_layer_changed_signal.emit (bottom); } /// Called when document is starting to be rebuilt. static void _reconstruction_start(SPDesktop * desktop) { desktop->_reconstruction_old_layer_id = desktop->currentLayer()->getId() ? desktop->currentLayer()->getId() : ""; desktop->layers->reset(); /* GSList const * selection_objs = desktop->selection->list(); for (; selection_objs != NULL; selection_objs = selection_objs->next) { } */ desktop->selection->clear(); } /// Called when document rebuild is finished. static void _reconstruction_finish(SPDesktop * desktop) { g_debug("Desktop, finishing reconstruction\n"); if ( !desktop->_reconstruction_old_layer_id.empty() ) { SPObject * newLayer = desktop->namedview->document->getObjectById(desktop->_reconstruction_old_layer_id); if (newLayer != NULL) { desktop->layers->setCurrentLayer(newLayer); } desktop->_reconstruction_old_layer_id.clear(); } g_debug("Desktop, finishing reconstruction end\n"); } /** * Namedview_modified callback. */ static void _namedview_modified (SPObject *obj, guint flags, SPDesktop *desktop) { SPNamedView *nv=SP_NAMEDVIEW(obj); if (flags & SP_OBJECT_MODIFIED_FLAG) { /* Show/hide page background */ if (nv->pagecolor | (0xff != 0xffffffff)) { sp_canvas_item_show (desktop->table); ((CtrlRect *) desktop->table)->setColor(0x00000000, true, nv->pagecolor | 0xff); sp_canvas_item_move_to_z (desktop->table, 0); } else { sp_canvas_item_hide (desktop->table); } /* Show/hide page border */ if (nv->showborder) { // show sp_canvas_item_show (desktop->page_border); // set color and shadow ((CtrlRect *) desktop->page_border)->setColor(nv->bordercolor, false, 0x00000000); if (nv->pageshadow) { ((CtrlRect *) desktop->page_border)->setShadow(nv->pageshadow, nv->bordercolor); } // place in the z-order stack if (nv->borderlayer == SP_BORDER_LAYER_BOTTOM) { sp_canvas_item_move_to_z (desktop->page_border, 2); } else { int order = sp_canvas_item_order (desktop->page_border); int morder = sp_canvas_item_order (desktop->drawing); if (morder > order) sp_canvas_item_raise (desktop->page_border, morder - order); } } else { sp_canvas_item_hide (desktop->page_border); if (nv->pageshadow) { ((CtrlRect *) desktop->page)->setShadow(0, 0x00000000); } } /* Show/hide page shadow */ if (nv->showpageshadow && nv->pageshadow) { ((CtrlRect *) desktop->page_border)->setShadow(nv->pageshadow, nv->bordercolor); } else { ((CtrlRect *) desktop->page_border)->setShadow(0, 0x00000000); } Inkscape::Preferences *prefs = Inkscape::Preferences::get(); if (SP_RGBA32_R_U(nv->pagecolor) + SP_RGBA32_G_U(nv->pagecolor) + SP_RGBA32_B_U(nv->pagecolor) >= 384) { // the background color is light, use black outline SP_CANVAS_ARENA (desktop->drawing)->drawing.outlinecolor = prefs->getInt("/options/wireframecolors/onlight", 0xff); } else { // use white outline SP_CANVAS_ARENA (desktop->drawing)->drawing.outlinecolor = prefs->getInt("/options/wireframecolors/ondark", 0xffffffff); } } } Geom::Affine SPDesktop::w2d() const { return _w2d; } Geom::Point SPDesktop::w2d(Geom::Point const &p) const { return p * _w2d; } Geom::Point SPDesktop::d2w(Geom::Point const &p) const { return p * _d2w; } Geom::Affine SPDesktop::doc2dt() const { return _doc2dt; } Geom::Affine SPDesktop::dt2doc() const { return _doc2dt.inverse(); } Geom::Point SPDesktop::doc2dt(Geom::Point const &p) const { return p * _doc2dt; } Geom::Point SPDesktop::dt2doc(Geom::Point const &p) const { return p * dt2doc(); } void SPDesktop::show_dialogs() { Inkscape::Preferences *prefs = Inkscape::Preferences::get(); if (prefs == NULL) { return; } int active = prefs->getInt("/options/savedialogposition/value", 1); if (active == 0) { // User has turned off this feature in preferences return; } if (showing_dialogs) { return; } showing_dialogs = TRUE; /* * Get each dialogs previous state from preferences and reopen on startup if needed, without grabbing focus (canvas retains focus). * Map dialog manager's dialog IDs to dialog last visible state preference. FIXME: store this correspondence in dialogs themselves! */ std::map mapVerbPreference; mapVerbPreference.insert(std::make_pair ("LayersPanel", "/dialogs/layers") ); mapVerbPreference.insert(std::make_pair ("FillAndStroke", "/dialogs/fillstroke") ); mapVerbPreference.insert(std::make_pair ("ExtensionEditor", "/dialogs/extensioneditor") ); mapVerbPreference.insert(std::make_pair ("AlignAndDistribute", "/dialogs/align") ); mapVerbPreference.insert(std::make_pair ("DocumentMetadata", "/dialogs/documentmetadata") ); mapVerbPreference.insert(std::make_pair ("DocumentProperties", "/dialogs/documentoptions") ); mapVerbPreference.insert(std::make_pair ("FilterEffectsDialog", "/dialogs/filtereffects") ); mapVerbPreference.insert(std::make_pair ("Find", "/dialogs/find") ); mapVerbPreference.insert(std::make_pair ("Glyphs", "/dialogs/glyphs") ); mapVerbPreference.insert(std::make_pair ("Messages", "/dialogs/messages") ); mapVerbPreference.insert(std::make_pair ("Memory", "/dialogs/memory") ); mapVerbPreference.insert(std::make_pair ("LivePathEffect", "/dialogs/livepatheffect") ); mapVerbPreference.insert(std::make_pair ("UndoHistory", "/dialogs/undo-history") ); mapVerbPreference.insert(std::make_pair ("Transformation", "/dialogs/transformation") ); mapVerbPreference.insert(std::make_pair ("Swatches", "/dialogs/swatches") ); mapVerbPreference.insert(std::make_pair ("IconPreviewPanel", "/dialogs/iconpreview") ); mapVerbPreference.insert(std::make_pair ("SvgFontsDialog", "/dialogs/svgfonts") ); mapVerbPreference.insert(std::make_pair ("InputDevices", "/dialogs/inputdevices") ); mapVerbPreference.insert(std::make_pair ("InkscapePreferences", "/dialogs/preferences") ); mapVerbPreference.insert(std::make_pair ("TileDialog", "/dialogs/gridtiler") ); mapVerbPreference.insert(std::make_pair ("Trace", "/dialogs/trace") ); mapVerbPreference.insert(std::make_pair ("PixelArt", "/dialogs/pixelart") ); mapVerbPreference.insert(std::make_pair ("TextFont", "/dialogs/textandfont") ); mapVerbPreference.insert(std::make_pair ("Export", "/dialogs/export") ); mapVerbPreference.insert(std::make_pair ("XmlTree", "/dialogs/xml") ); mapVerbPreference.insert(std::make_pair ("CloneTiler", "/dialogs/clonetiler") ); mapVerbPreference.insert(std::make_pair ("ObjectProperties", "/dialogs/object") ); mapVerbPreference.insert(std::make_pair ("SpellCheck", "/dialogs/spellcheck") ); mapVerbPreference.insert(std::make_pair ("Symbols", "/dialogs/symbols") ); for (std::map::const_iterator iter = mapVerbPreference.begin(); iter != mapVerbPreference.end(); ++iter) { Glib::ustring pref = iter->second; int visible = prefs->getInt(pref + "/visible", 0); if (visible) { _dlg_mgr->showDialog(iter->first.c_str(), false); // without grabbing focus, we need focus to remain on the canvas } } } /* * Pop event context from desktop's context stack. Never used. */ // void // SPDesktop::pop_event_context (unsigned int key) // { // ToolBase *ec = NULL; // // if (event_context && event_context->key == key) { // g_return_if_fail (event_context); // g_return_if_fail (event_context->next); // ec = event_context; // sp_event_context_deactivate (ec); // event_context = ec->next; // sp_event_context_activate (event_context); // _event_context_changed_signal.emit (this, ec); // } // // ToolBase *ref = event_context; // while (ref && ref->next && ref->next->key != key) // ref = ref->next; // // if (ref && ref->next) { // ec = ref->next; // ref->next = ec->next; // } // // if (ec) { // sp_event_context_finish (ec); // g_object_unref (G_OBJECT (ec)); // } // } /* 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:fileencoding=utf-8:textwidth=99 :