/* * Copyright (C) 1999-2016 Paul Davis * Copyright (C) 2005-2008 Doug McLain * Copyright (C) 2010-2012 Carl Hetherington * Copyright (C) 2011-2015 David Robillard * Copyright (C) 2014-2016 John Emmas * Copyright (C) 2014-2019 Robin Gareus * Copyright (C) 2016 Julien "_FrnchFrgg_" RIVAUD * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "gtkmm2ext/utils.h" #include "gtkmm2ext/persistent_tooltip.h" #include "pbd/i18n.h" using namespace std; void Gtkmm2ext::init (const char* localedir) { #if ENABLE_NLS (void) bindtextdomain(PACKAGE, localedir); (void) bind_textdomain_codeset (PACKAGE, "UTF-8"); #endif } void Gtkmm2ext::get_ink_pixel_size (Glib::RefPtr layout, int& width, int& height) { Pango::Rectangle ink_rect = layout->get_ink_extents (); std::string s = layout->get_text (); width = PANGO_PIXELS(ink_rect.get_width()); height = PANGO_PIXELS(ink_rect.get_height()); } void Gtkmm2ext::get_ink_pixel_size_with_descent (Glib::RefPtr layout, int& width, int& height, int& descent) { Pango::Rectangle ink_rect = layout->get_ink_extents (); std::string s = layout->get_text (); width = PANGO_PIXELS(ink_rect.get_width()); height = PANGO_PIXELS(ink_rect.get_height()); descent = PANGO_PIXELS(ink_rect.get_descent()); } static void _set_size_request_to_display_given_text (Glib::RefPtr const& sty, Gtk::Widget* w, std::string const& text, gint hpadding, gint vpadding) { w->ensure_style (); if (sty && sty->get_font() == w->get_style()->get_font()) { return; } int width, height; w->create_pango_layout (text)->get_pixel_size (width, height); w->set_size_request(width + hpadding, height + vpadding); } void Gtkmm2ext::set_size_request_to_display_given_text (Gtk::Widget &w, std::string const& text, gint hpadding, gint vpadding) { w.signal_style_changed().connect (sigc::bind (sigc::ptr_fun (_set_size_request_to_display_given_text), &w, text, hpadding, vpadding)); _set_size_request_to_display_given_text (Glib::RefPtr(), &w, text, hpadding, vpadding); } static inline guint8 demultiply_alpha (guint8 src, guint8 alpha) { /* cairo pixel buffer data contains RGB values with the alpha * values premultiplied. * * GdkPixbuf pixel buffer data contains RGB values without the * alpha value applied. * * this removes the alpha component from the cairo version and * returns the GdkPixbuf version. */ return alpha ? ((guint (src) << 8) - src) / alpha : 0; } void Gtkmm2ext::convert_bgra_to_rgba (guint8 const* src, guint8* dst, int width, int height) { guint8 const* src_pixel = src; guint8* dst_pixel = dst; /* cairo pixel data is endian-dependent ARGB with A in the most significant 8 bits, * with premultipled alpha values (see preceding function) * * GdkPixbuf pixel data is non-endian-dependent RGBA with R in the lowest addressable * 8 bits, and non-premultiplied alpha values. * * convert from the cairo values to the GdkPixbuf ones. */ for (int y = 0; y < height; y++) { for (int x = 0; x < width; x++) { #if G_BYTE_ORDER == G_LITTLE_ENDIAN /* Cairo [ B G R A ] is actually [ B G R A ] in memory SOURCE 0 1 2 3 Pixbuf [ R G B A ] is actually [ R G B A ] in memory DEST */ dst_pixel[0] = demultiply_alpha (src_pixel[2], src_pixel[3]); // R [0] <= [ 2 ] dst_pixel[1] = demultiply_alpha (src_pixel[1], src_pixel[3]); // G [1] <= [ 1 ] dst_pixel[2] = demultiply_alpha (src_pixel[0], src_pixel[3]); // B [2] <= [ 0 ] dst_pixel[3] = src_pixel[3]; // alpha #elif G_BYTE_ORDER == G_BIG_ENDIAN /* Cairo [ B G R A ] is actually [ A R G B ] in memory SOURCE 0 1 2 3 Pixbuf [ R G B A ] is actually [ R G B A ] in memory DEST */ dst_pixel[0] = demultiply_alpha (src_pixel[1], src_pixel[0]); // R [0] <= [ 1 ] dst_pixel[1] = demultiply_alpha (src_pixel[2], src_pixel[0]); // G [1] <= [ 2 ] dst_pixel[2] = demultiply_alpha (src_pixel[3], src_pixel[0]); // B [2] <= [ 3 ] dst_pixel[3] = src_pixel[0]; // alpha #else #error ardour does not currently support PDP-endianess #endif dst_pixel += 4; src_pixel += 4; } } } Glib::RefPtr Gtkmm2ext::pixbuf_from_string(const string& name, const Pango::FontDescription& font, int clip_width, int clip_height, Gdk::Color fg) { static Glib::RefPtr* empty_pixbuf = 0; if (name.empty()) { if (empty_pixbuf == 0) { empty_pixbuf = new Glib::RefPtr; *empty_pixbuf = Gdk::Pixbuf::create(Gdk::COLORSPACE_RGB, true, 8, clip_width, clip_height); } return *empty_pixbuf; } if (clip_width <= 0 || clip_height <= 0) { /* negative values mean padding around natural size */ int width, height; pixel_size (name, font, width, height); if (clip_width <= 0) { clip_width = width - clip_width; } if (clip_height <= 0) { clip_height = height - clip_height; } } Glib::RefPtr buf = Gdk::Pixbuf::create(Gdk::COLORSPACE_RGB, true, 8, clip_width, clip_height); cairo_surface_t* surface = cairo_image_surface_create(CAIRO_FORMAT_ARGB32, clip_width, clip_height); cairo_t* cr = cairo_create (surface); cairo_text_extents_t te; cairo_set_source_rgba (cr, fg.get_red_p(), fg.get_green_p(), fg.get_blue_p(), 1.0); cairo_select_font_face (cr, font.get_family().c_str(), CAIRO_FONT_SLANT_NORMAL, CAIRO_FONT_WEIGHT_NORMAL); cairo_set_font_size (cr, font.get_size() / Pango::SCALE); cairo_text_extents (cr, name.c_str(), &te); cairo_move_to (cr, 0.5, int (0.5 - te.height / 2 - te.y_bearing + clip_height / 2)); cairo_show_text (cr, name.c_str()); convert_bgra_to_rgba(cairo_image_surface_get_data (surface), buf->get_pixels(), clip_width, clip_height); cairo_destroy(cr); cairo_surface_destroy(surface); return buf; } static void _position_menu_anchored (int& x, int& y, bool& push_in, Gtk::Menu* const menu, Gtk::Widget* const anchor, const std::string& selected) { using namespace Gtk; using namespace Gtk::Menu_Helpers; /* TODO: lacks support for rotated dropdown buttons */ if (!anchor->has_screen () || !anchor->get_has_window ()) { return; } Gdk::Rectangle monitor; { const int monitor_num = anchor->get_screen ()->get_monitor_at_window ( anchor->get_window ()); anchor->get_screen ()->get_monitor_geometry ( (monitor_num < 0) ? 0 : monitor_num, monitor); } const Requisition menu_req = menu->size_request(); const Gdk::Rectangle allocation = anchor->get_allocation(); /* The x and y position are handled separately. * * For the x position if the direction is LTR (or RTL), then we try in order: * a) align the left (right) of the menu with the left (right) of the button * if there's enough room until the right (left) border of the screen; * b) align the right (left) of the menu with the right (left) of the button * if there's enough room until the left (right) border of the screen; * c) align the right (left) border of the menu with the right (left) border * of the screen if there's enough space; * d) align the left (right) border of the menu with the left (right) border * of the screen, with the rightmost (leftmost) part of the menu that * overflows the screen. * XXX We always align left regardless of the direction because if x is * left of the current monitor, the menu popup code after us notices it * and enforces that the menu stays in the monitor that's at the left...*/ anchor->get_window ()->get_origin (x, y); if (anchor->get_direction() == TEXT_DIR_RTL) { if (monitor.get_x() <= x + allocation.get_width() - menu_req.width) { /* a) align menu right and button right */ x += allocation.get_width() - menu_req.width; } else if (x + menu_req.width <= monitor.get_x() + monitor.get_width()) { /* b) align menu left and button left: nothing to do*/ } else if (menu_req.width <= monitor.get_width()) { /* c) align menu left and screen left, guaranteed to fit */ x = monitor.get_x(); } else { /* d) XXX align left or the menu might change monitors */ x = monitor.get_x(); } } else { /* LTR */ if (x + menu_req.width <= monitor.get_x() + monitor.get_width()) { /* a) align menu left and button left: nothing to do*/ } else if (monitor.get_x() <= x + allocation.get_width() - menu_req.width) { /* b) align menu right and button right */ x += allocation.get_width() - menu_req.width; } else if (menu_req.width <= monitor.get_width()) { /* c) align menu right and screen right, guaranteed to fit */ x = monitor.get_x() + monitor.get_width() - menu_req.width; } else { /* d) align left */ x = monitor.get_x(); } } /* For the y position, try in order: * a) if there is a menu item with the same text as the button, align it * with the button, unless that makes the menu overflow the monitor. * b) align the top of the menu with the bottom of the button if there is * enough room below the button; * c) align the bottom of the menu with the top of the button if there is * enough room above the button; * d) try aligning the selected menu item again, this time with scrollbars; * e) if there is no selected menu item, align the menu above the button or * below the button, depending on where there is more space. * For the d) and e) cases, the menu contents will be aligned as told, but * the menu itself will be bigger than that to accommodate the menu items * that are scrolled out of view, thanks to |push_in = true|. */ const MenuList& items = menu->items (); int offset = 0; MenuList::const_iterator i = items.begin(); for ( ; i != items.end(); ++i) { const Label* label_widget = dynamic_cast(i->get_child()); if (label_widget && selected == ((std::string) label_widget->get_label())) { offset += (i->size_request().height - allocation.get_height()) / 2; menu->select_item(*i); break; } offset += i->size_request().height; } if (i != items.end() && y - offset >= monitor.get_y() && y - offset + menu_req.height <= monitor.get_y() + monitor.get_height()) { y -= offset; /* a) */ } else if (y + allocation.get_height() + menu_req.height <= monitor.get_y() + monitor.get_height()) { y += allocation.get_height(); /* b) */ } else if ((y - menu_req.height) >= monitor.get_y()) { y -= menu_req.height; /* c) */ } else if (i != items.end()) { y -= offset; /* d) */ menu->gobj()->upper_arrow_visible = 1; /* work around a gtk bug for the first show */ } else if (monitor.get_height() - allocation.get_height() >= 2*(y - monitor.get_y())) { y += allocation.get_height(); /* e), more space below */ menu->gobj()->upper_arrow_visible = 1; /* work around a gtk bug for the first show */ } else { y -= menu_req.height; /* e), more space above */ menu->gobj()->upper_arrow_visible = 1; /* work around a gtk bug for the first show */ } /* Workaround a bug in GTK where they don't tweak the scroll offset by the arrow height * if the scroll offset is negative. See the condition at: * https://gitlab.gnome.org/GNOME/gtk/blob/2.24.32/gtk/gtkmenu.c#L4395 * and the computation of scroll_offset at: * https://gitlab.gnome.org/GNOME/gtk/blob/2.24.32/gtk/gtkmenu.c#L4360 * */ int arrow_height; GtkArrowPlacement arrow_placement; gtk_widget_style_get (GTK_WIDGET (menu->gobj()), "scroll-arrow-vlength", &arrow_height, "arrow_placement", &arrow_placement, NULL); int scroll_tweak = menu_req.height - monitor.get_height(); int scroll_offset = scroll_tweak + monitor.get_y() + monitor.get_height() - y - menu_req.height; if (arrow_placement != GTK_ARROWS_END && scroll_tweak > 0 && scroll_offset < 0) { y -= arrow_height; } push_in = true; } void Gtkmm2ext::anchored_menu_popup (Gtk::Menu* const menu, Gtk::Widget* const anchor, const std::string& selected, guint button, guint32 time) { menu->popup( sigc::bind (sigc::ptr_fun(&_position_menu_anchored), menu, anchor, selected), button, time); } void Gtkmm2ext::set_popdown_strings (Gtk::ComboBoxText& cr, const vector& strings) { vector::const_iterator i; cr.clear (); for (i = strings.begin(); i != strings.end(); ++i) { cr.append (*i); } } void Gtkmm2ext::get_popdown_strings (Gtk::ComboBoxText& cr, std::vector& strings) { strings.clear (); Glib::RefPtr m = cr.get_model(); if (!m) { return; } for(Gtk::TreeModel::iterator i = m->children().begin(); i != m->children().end(); ++i) { Glib::ustring txt; (*i)->get_value(0, txt); strings.push_back (txt); } } size_t Gtkmm2ext::get_popdown_string_count (Gtk::ComboBoxText& cr) { Glib::RefPtr m = cr.get_model(); if (!m) { return 0; } return m->children().size(); } bool Gtkmm2ext::contains_value (Gtk::ComboBoxText& cr, const std::string text) { std::vector s; get_popdown_strings (cr, s); return (std::find (s.begin(), s.end(), text) != s.end()); } bool Gtkmm2ext::set_active_text_if_present (Gtk::ComboBoxText& cr, const std::string text) { if (contains_value(cr, text)) { cr.set_active_text (text); return true; } return false; } GdkWindow* Gtkmm2ext::get_paned_handle (Gtk::Paned& paned) { return GTK_PANED(paned.gobj())->handle; } void Gtkmm2ext::set_decoration (Gtk::Window* win, Gdk::WMDecoration decor) { win->get_window()->set_decorations (decor); } void Gtkmm2ext::set_treeview_header_as_default_label(Gtk::TreeViewColumn* c) { gtk_tree_view_column_set_widget( c->gobj(), GTK_WIDGET(0) ); } void Gtkmm2ext::detach_menu (Gtk::Menu& menu) { /* its possible for a Gtk::Menu to have no gobj() because it has not yet been instantiated. Catch this and provide a safe detach method. */ if (menu.gobj()) { if (menu.get_attach_widget()) { menu.detach (); } } } bool Gtkmm2ext::possibly_translate_keyval_to_make_legal_accelerator (uint32_t& keyval) { int fakekey = GDK_VoidSymbol; switch (keyval) { case GDK_Tab: case GDK_ISO_Left_Tab: fakekey = GDK_nabla; break; case GDK_Up: fakekey = GDK_uparrow; break; case GDK_Down: fakekey = GDK_downarrow; break; case GDK_Right: fakekey = GDK_rightarrow; break; case GDK_Left: fakekey = GDK_leftarrow; break; case GDK_Return: fakekey = GDK_3270_Enter; break; case GDK_KP_Enter: fakekey = GDK_F35; break; default: break; } if (fakekey != GDK_VoidSymbol) { keyval = fakekey; return true; } return false; } uint32_t Gtkmm2ext::possibly_translate_legal_accelerator_to_real_key (uint32_t keyval) { switch (keyval) { case GDK_nabla: return GDK_Tab; break; case GDK_uparrow: return GDK_Up; break; case GDK_downarrow: return GDK_Down; break; case GDK_rightarrow: return GDK_Right; break; case GDK_leftarrow: return GDK_Left; break; case GDK_3270_Enter: return GDK_Return; case GDK_F35: return GDK_KP_Enter; break; } return keyval; } int Gtkmm2ext::physical_screen_height (Glib::RefPtr win) { GdkScreen* scr = gdk_screen_get_default(); if (win) { GdkRectangle r; gint monitor = gdk_screen_get_monitor_at_window (scr, win->gobj()); gdk_screen_get_monitor_geometry (scr, monitor, &r); return r.height; } else { return gdk_screen_get_height (scr); } } int Gtkmm2ext::physical_screen_width (Glib::RefPtr win) { GdkScreen* scr = gdk_screen_get_default(); if (win) { GdkRectangle r; gint monitor = gdk_screen_get_monitor_at_window (scr, win->gobj()); gdk_screen_get_monitor_geometry (scr, monitor, &r); return r.width; } else { return gdk_screen_get_width (scr); } } void Gtkmm2ext::container_clear (Gtk::Container& c, bool and_delete) { list children = c.get_children(); for (list::iterator child = children.begin(); child != children.end(); ++child) { (*child)->hide (); c.remove (**child); if (and_delete) { delete *child; } } } void Gtkmm2ext::rectangle (Cairo::RefPtr context, double x, double y, double w, double h, double /*r*/) { cairo_rectangle (context->cobj(), x, y, w, h); } void Gtkmm2ext::rounded_rectangle (Cairo::RefPtr context, double x, double y, double w, double h, double r) { rounded_rectangle (context->cobj(), x, y, w, h, r); } void Gtkmm2ext::rounded_top_rectangle (Cairo::RefPtr context, double x, double y, double w, double h, double r) { rounded_top_rectangle (context->cobj(), x, y, w, h, r); } void Gtkmm2ext::rounded_top_left_rectangle (Cairo::RefPtr context, double x, double y, double w, double h, double r) { rounded_top_left_rectangle (context->cobj(), x, y, w, h, r); } void Gtkmm2ext::rounded_top_right_rectangle (Cairo::RefPtr context, double x, double y, double w, double h, double r) { rounded_top_right_rectangle (context->cobj(), x, y, w, h, r); } void Gtkmm2ext::rounded_top_half_rectangle (Cairo::RefPtr context, double x, double y, double w, double h, double r) { rounded_top_half_rectangle (context->cobj(), x, y, w, h, r); } void Gtkmm2ext::rounded_bottom_half_rectangle (Cairo::RefPtr context, double x, double y, double w, double h, double r) { rounded_bottom_half_rectangle (context->cobj(), x, y, w, h, r); } void Gtkmm2ext::rounded_left_half_rectangle (Cairo::RefPtr context, double x, double y, double w, double h, double r) { rounded_left_half_rectangle (context->cobj(), x, y, w, h, r); } void Gtkmm2ext::rounded_right_half_rectangle (Cairo::RefPtr context, double x, double y, double w, double h, double r) { rounded_right_half_rectangle (context->cobj(), x, y, w, h, r); } void Gtkmm2ext::rectangle (cairo_t* cr, double x, double y, double w, double h, double /*r*/) { cairo_rectangle (cr, x, y, w, h); } void Gtkmm2ext::rounded_rectangle (cairo_t* cr, double x, double y, double w, double h, double r) { static const double degrees = M_PI / 180.0; if (r < 1) { cairo_rectangle (cr, x, y, w, h); return; } cairo_new_sub_path (cr); cairo_arc (cr, x + w - r, y + r, r, -90 * degrees, 0 * degrees); //tr cairo_arc (cr, x + w - r, y + h - r, r, 0 * degrees, 90 * degrees); //br cairo_arc (cr, x + r, y + h - r, r, 90 * degrees, 180 * degrees); //bl cairo_arc (cr, x + r, y + r, r, 180 * degrees, 270 * degrees); //tl cairo_close_path (cr); } void Gtkmm2ext::rounded_left_half_rectangle (cairo_t* cr, double x, double y, double w, double h, double r) { static const double degrees = M_PI / 180.0; cairo_new_sub_path (cr); cairo_line_to (cr, x+w, y); // tr cairo_line_to (cr, x+w, y + h); // br cairo_arc (cr, x + r, y + h - r, r, 90 * degrees, 180 * degrees); //bl cairo_arc (cr, x + r, y + r, r, 180 * degrees, 270 * degrees); //tl cairo_close_path (cr); } void Gtkmm2ext::rounded_right_half_rectangle (cairo_t* cr, double x, double y, double w, double h, double r) { static const double degrees = M_PI / 180.0; cairo_new_sub_path (cr); cairo_arc (cr, x + w - r, y + r, r, -90 * degrees, 0 * degrees); //tr cairo_arc (cr, x + w - r, y + h - r, r, 0 * degrees, 90 * degrees); //br cairo_line_to (cr, x, y + h); // bl cairo_line_to (cr, x, y); // tl cairo_close_path (cr); } void Gtkmm2ext::rounded_top_half_rectangle (cairo_t* cr, double x, double y, double w, double h, double r) { static const double degrees = M_PI / 180.0; cairo_new_sub_path (cr); cairo_move_to (cr, x+w, y+h); cairo_line_to (cr, x, y+h); cairo_arc (cr, x + r, y + r, r, 180 * degrees, 270 * degrees); //tl cairo_arc (cr, x + w - r, y + r, r, -90 * degrees, 0 * degrees); //tr cairo_close_path (cr); } void Gtkmm2ext::rounded_bottom_half_rectangle (cairo_t* cr, double x, double y, double w, double h, double r) { static const double degrees = M_PI / 180.0; cairo_new_sub_path (cr); cairo_move_to (cr, x, y); cairo_line_to (cr, x+w, y); cairo_arc (cr, x + w - r, y + h - r, r, 0 * degrees, 90 * degrees); //br cairo_arc (cr, x + r, y + h - r, r, 90 * degrees, 180 * degrees); //bl cairo_close_path (cr); } void Gtkmm2ext::rounded_top_rectangle (cairo_t* cr, double x, double y, double w, double h, double r) { static const double degrees = M_PI / 180.0; cairo_new_sub_path (cr); cairo_move_to (cr, x+w, y+h); cairo_line_to (cr, x, y+h); cairo_arc (cr, x + r, y + r, r, 180 * degrees, 270 * degrees); //tl cairo_arc (cr, x + w - r, y + r, r, -90 * degrees, 0 * degrees); //tr cairo_close_path (cr); } void Gtkmm2ext::rounded_top_left_rectangle (cairo_t* cr, double x, double y, double w, double h, double r) { /* A****B H * * * * * F****E */ cairo_move_to (cr, x+r,y); // Move to A cairo_line_to (cr, x+w,y); // Straight line to B cairo_line_to (cr, x+w,y+h); // Move to E cairo_line_to (cr, x,y+h); // Line to F cairo_line_to (cr, x,y+r); // Line to H cairo_curve_to (cr, x,y,x,y,x+r,y); // Curve to A } void Gtkmm2ext::rounded_top_right_rectangle (cairo_t* cr, double x, double y, double w, double h, double r) { /* A****BQ * C * * * * F****E */ cairo_move_to (cr, x,y); // Move to A cairo_line_to (cr, x+w-r,y); // Straight line to B cairo_curve_to (cr, x+w,y,x+w,y,x+w,y+r); // Curve to C, Control points are both at Q cairo_line_to (cr, x+w,y+h); // Move to E cairo_line_to (cr, x,y+h); // Line to F cairo_line_to (cr, x,y); // Line to A } void Gtkmm2ext::add_reflection (cairo_t* cr, double w, double h) { cairo_pattern_t* convex_pattern = cairo_pattern_create_linear (0.0, 0, 0.3, h * 0.7); cairo_pattern_add_color_stop_rgba (convex_pattern, 0.0, 1, 1, 1, 0.10); cairo_pattern_add_color_stop_rgba (convex_pattern, 0.79, 1, 1, 1, 0.03); cairo_pattern_add_color_stop_rgba (convex_pattern, 1.0, 1, 1, 1, 0.0); cairo_set_source (cr, convex_pattern); Gtkmm2ext::rounded_rectangle (cr, 2, 2, w - 4, h - 4, 4); cairo_fill (cr); cairo_pattern_destroy(convex_pattern); } Glib::RefPtr Gtkmm2ext::window_to_draw_on (Gtk::Widget& w, Gtk::Widget** parent) { if (w.get_has_window()) { return w.get_window(); } (*parent) = w.get_parent(); while (*parent) { if ((*parent)->get_has_window()) { return (*parent)->get_window (); } (*parent) = (*parent)->get_parent (); } return Glib::RefPtr (); } int Gtkmm2ext::pixel_width (const string& str, const Pango::FontDescription& font) { Glib::RefPtr context = Glib::wrap (gdk_pango_context_get()); Glib::RefPtr layout = Pango::Layout::create (context); layout->set_font_description (font); layout->set_text (str); int width, height; Gtkmm2ext::get_ink_pixel_size (layout, width, height); #ifdef __APPLE__ // Pango returns incorrect text width on some OS X // So we have to make a correction // To determine the correct indent take the largest symbol for which the width is correct // and make the calculation // // see also libs/canvas/text.cc int cor_width; layout->set_text ("H"); layout->get_pixel_size (cor_width, height); width += cor_width * 1.5; #endif return width; } void Gtkmm2ext::pixel_size (const string& str, const Pango::FontDescription& font, int& width, int& height) { Gtk::Label foo; Glib::RefPtr layout = foo.create_pango_layout (""); layout->set_font_description (font); layout->set_text (str); Gtkmm2ext::get_ink_pixel_size (layout, width, height); } #if 0 string Gtkmm2ext::fit_to_pixels (const string& str, int pixel_width, Pango::FontDescription& font, int& actual_width, bool with_ellipses) { /* DECEMBER 2011: THIS PROTOTYPE OF fit_to_pixels() IS NOT USED ANYWHERE AND HAS NOT BEEN TESTED. */ Gtk::Label foo; Glib::RefPtr layout = foo.create_pango_layout (str); Glib::RefPtr line; layout->set_font_description (font); layout->set_width (pixel_width * PANGO_SCALE); if (with_ellipses) { layout->set_ellipsize (Pango::ELLIPSIZE_END); } else { layout->set_wrap (Pango::WRAP_CHAR); } line = layout->get_line (0); /* XXX: might need special care to get the ellipsis character, not sure * how that works */ string s = string (layout->get_text ().substr(line->get_start_index(), line->get_length())); cerr << "fit to pixels of " << str << " returns " << s << endl; return s; } #endif /** Try to fit a string into a given horizontal space by ellipsizing it. * @param cr Cairo context in which the text will be plotted. * @param name Text. * @param avail Available horizontal space. * @return (Text, possibly ellipsized) and (horizontal size of text) */ std::pair Gtkmm2ext::fit_to_pixels (cairo_t* cr, std::string name, double avail) { /* XXX hopefully there exists a more efficient way of doing this */ bool abbreviated = false; uint32_t width = 0; while (1) { cairo_text_extents_t ext; cairo_text_extents (cr, name.c_str(), &ext); if (ext.width < avail || name.length() <= 4) { width = ext.width; break; } if (abbreviated) { name = name.substr (0, name.length() - 4) + "..."; } else { name = name.substr (0, name.length() - 3) + "..."; abbreviated = true; } } return std::make_pair (name, width); } Gtk::Label * Gtkmm2ext::left_aligned_label (string const & t) { Gtk::Label* l = new Gtk::Label (t); l->set_alignment (0, 0.5); return l; } Gtk::Label * Gtkmm2ext::right_aligned_label (string const & t) { Gtk::Label* l = new Gtk::Label (t); l->set_alignment (1, 0.5); return l; } static bool make_null_tooltip (int, int, bool, const Glib::RefPtr& t) { t->set_tip_area (Gdk::Rectangle (0, 0, 0, 0)); return true; } /** Hackily arrange for the provided widget to have no tooltip, * and also to stop any other widget from providing one while * the mouse is over w. */ void Gtkmm2ext::set_no_tooltip_whatsoever (Gtk::Widget& w) { w.property_has_tooltip() = true; w.signal_query_tooltip().connect (sigc::ptr_fun (make_null_tooltip)); } void Gtkmm2ext::enable_tooltips () { gtk_rc_parse_string ("gtk-enable-tooltips = 1"); PersistentTooltip::set_tooltips_enabled (true); } void Gtkmm2ext::disable_tooltips () { gtk_rc_parse_string ("gtk-enable-tooltips = 0"); PersistentTooltip::set_tooltips_enabled (false); } bool Gtkmm2ext::event_inside_widget_window (Gtk::Widget& widget, GdkEvent* ev) { gdouble evx, evy; if (!gdk_event_get_root_coords (ev, &evx, &evy)) { return false; } gint x, y; gint wx, wy; gint width, height, depth; Glib::RefPtr widget_window = widget.get_window(); widget_window->get_geometry (x, y, width, height, depth); widget_window->get_origin (wx, wy); if ((evx >= wx && evx < wx + width) && (evy >= wy && evy < wy + height)) { return true; } return false; } const char* Gtkmm2ext::event_type_string (int event_type) { switch (event_type) { case GDK_NOTHING: return "nothing"; case GDK_DELETE: return "delete"; case GDK_DESTROY: return "destroy"; case GDK_EXPOSE: return "expose"; case GDK_MOTION_NOTIFY: return "motion_notify"; case GDK_BUTTON_PRESS: return "button_press"; case GDK_2BUTTON_PRESS: return "2button_press"; case GDK_3BUTTON_PRESS: return "3button_press"; case GDK_BUTTON_RELEASE: return "button_release"; case GDK_KEY_PRESS: return "key_press"; case GDK_KEY_RELEASE: return "key_release"; case GDK_ENTER_NOTIFY: return "enter_notify"; case GDK_LEAVE_NOTIFY: return "leave_notify"; case GDK_FOCUS_CHANGE: return "focus_change"; case GDK_CONFIGURE: return "configure"; case GDK_MAP: return "map"; case GDK_UNMAP: return "unmap"; case GDK_PROPERTY_NOTIFY: return "property_notify"; case GDK_SELECTION_CLEAR: return "selection_clear"; case GDK_SELECTION_REQUEST: return "selection_request"; case GDK_SELECTION_NOTIFY: return "selection_notify"; case GDK_PROXIMITY_IN: return "proximity_in"; case GDK_PROXIMITY_OUT: return "proximity_out"; case GDK_DRAG_ENTER: return "drag_enter"; case GDK_DRAG_LEAVE: return "drag_leave"; case GDK_DRAG_MOTION: return "drag_motion"; case GDK_DRAG_STATUS: return "drag_status"; case GDK_DROP_START: return "drop_start"; case GDK_DROP_FINISHED: return "drop_finished"; case GDK_CLIENT_EVENT: return "client_event"; case GDK_VISIBILITY_NOTIFY: return "visibility_notify"; case GDK_NO_EXPOSE: return "no_expose"; case GDK_SCROLL: return "scroll"; case GDK_WINDOW_STATE: return "window_state"; case GDK_SETTING: return "setting"; case GDK_OWNER_CHANGE: return "owner_change"; case GDK_GRAB_BROKEN: return "grab_broken"; case GDK_DAMAGE: return "damage"; } return "unknown"; } std::string Gtkmm2ext::markup_escape_text (std::string const& s) { return Glib::Markup::escape_text (s); } void Gtkmm2ext::add_volume_shortcuts (Gtk::FileChooser& c) { #ifdef __APPLE__ try { /* This is a first order approach, listing all mounted volumes (incl network). * One could use `diskutil` or `mount` to query local disks only, or * something even fancier if deemed appropriate. */ Glib::Dir dir("/Volumes"); for (Glib::DirIterator di = dir.begin(); di != dir.end(); di++) { string fullpath = Glib::build_filename ("/Volumes", *di); if (!Glib::file_test (fullpath, Glib::FILE_TEST_IS_DIR)) continue; try { /* add_shortcut_folder throws an exception if the folder being added already has a shortcut */ c.add_shortcut_folder (fullpath); } catch (Glib::Error& e) { std::cerr << "add_shortcut_folder() threw Glib::Error: " << e.what() << std::endl; } } } catch (Glib::FileError const& e) { std::cerr << "listing /Volumnes failed: " << e.what() << std::endl; } #endif } float Gtkmm2ext::paned_position_as_fraction (Gtk::Paned& paned, bool h) { const guint pos = gtk_paned_get_position (const_cast(static_cast(&paned)->gobj())); return (double) pos / (h ? paned.get_allocation().get_height() : paned.get_allocation().get_width()); } void Gtkmm2ext::paned_set_position_as_fraction (Gtk::Paned& paned, float fraction, bool h) { gint v = (h ? paned.get_allocation().get_height() : paned.get_allocation().get_width()); if (v < 1) { return; } paned.set_position ((guint) floor (fraction * v)); } string Gtkmm2ext::show_gdk_event_state (int state) { string s; if (state & GDK_SHIFT_MASK) { s += "+SHIFT"; } if (state & GDK_LOCK_MASK) { s += "+LOCK"; } if (state & GDK_CONTROL_MASK) { s += "+CONTROL"; } if (state & GDK_MOD1_MASK) { s += "+MOD1"; } if (state & GDK_MOD2_MASK) { s += "+MOD2"; } if (state & GDK_MOD3_MASK) { s += "+MOD3"; } if (state & GDK_MOD4_MASK) { s += "+MOD4"; } if (state & GDK_MOD5_MASK) { s += "+MOD5"; } if (state & GDK_BUTTON1_MASK) { s += "+BUTTON1"; } if (state & GDK_BUTTON2_MASK) { s += "+BUTTON2"; } if (state & GDK_BUTTON3_MASK) { s += "+BUTTON3"; } if (state & GDK_BUTTON4_MASK) { s += "+BUTTON4"; } if (state & GDK_BUTTON5_MASK) { s += "+BUTTON5"; } if (state & GDK_SUPER_MASK) { s += "+SUPER"; } if (state & GDK_HYPER_MASK) { s += "+HYPER"; } if (state & GDK_META_MASK) { s += "+META"; } if (state & GDK_RELEASE_MASK) { s += "+RELEASE"; } return s; }