/* * Copyright (c) 2023, Bastiaan van der Plaat * Copyright (c) 2023, Jelle Raaijmakers * * SPDX-License-Identifier: BSD-2-Clause */ #include "MapWidget.h" #include #include #include #include #include #include #include #include #include namespace Maps { // Math helpers // https://wiki.openstreetmap.org/wiki/Slippy_map_tilenames#Pseudo-code static double longitude_to_tile_x(double longitude, int zoom) { return pow(2, zoom) * ((longitude + 180.0) / 360.0); } static double latitude_to_tile_y(double latitude, int zoom) { return pow(2, zoom) * (1.0 - (log(tan(AK::to_radians(latitude)) + (1.0 / cos(AK::to_radians(latitude)))) / M_PI)) / 2.0; } static double tile_x_to_longitude(double x, int zoom) { return x / pow(2, zoom) * 360.0 - 180.0; } static double tile_y_to_latitude(double y, int zoom) { return AK::to_degrees(atan(sinh(M_PI * (1.0 - 2.0 * y / pow(2, zoom))))); } static double nice_round_number(double number) { double pow10 = pow(10, floor(log10(floor(number)))); double d = number / pow10; return pow10 * (d >= 10 ? 10 : (d >= 5 ? 5 : (d >= 3 ? 3 : (d >= 2 ? 2 : 1)))); } double MapWidget::LatLng::distance_to(LatLng const& other) const { return EARTH_RADIUS * 2.0 * asin(sqrt(pow(sin((AK::to_radians(other.latitude) - AK::to_radians(latitude)) / 2.0), 2.0) + cos(AK::to_radians(latitude)) * cos(AK::to_radians(other.latitude)) * pow(sin((AK::to_radians(other.longitude) - AK::to_radians(longitude)) / 2.0), 2.0))); } int MapWidget::LatLngBounds::get_zoom() const { double distance_meters = north_west.distance_to(south_east); int zoom = ZOOM_MIN; while (distance_meters < EARTH_RADIUS / pow(2, zoom - 1) && zoom != ZOOM_MAX) ++zoom; return min(zoom + 1, ZOOM_MAX); } // MapWidget class MapWidget::MapWidget(Options const& options) : m_tile_provider(options.tile_provider) , m_center(options.center) , m_zoom(options.zoom) , m_context_menu_enabled(options.context_menu_enabled) , m_scale_enabled(options.scale_enabled) , m_scale_max_width(options.scale_max_width) , m_attribution_enabled(options.attribution_enabled) { m_request_client = Protocol::RequestClient::try_create().release_value_but_fixme_should_propagate_errors(); if (options.attribution_enabled) { auto attribution_text = options.attribution_text.value_or(MUST(String::from_byte_string(Config::read_string("Maps"sv, "MapWidget"sv, "TileProviderAttributionText"sv, Maps::default_tile_provider_attribution_text)))); URL attribution_url = options.attribution_url.value_or(URL(Config::read_string("Maps"sv, "MapWidget"sv, "TileProviderAttributionUrl"sv, Maps::default_tile_provider_attribution_url))); add_panel({ attribution_text, Panel::Position::BottomRight, attribution_url, "attribution"_string }); } m_marker_image = Gfx::Bitmap::load_from_file("/res/graphics/maps/marker-blue.png"sv).release_value_but_fixme_should_propagate_errors(); m_default_tile_provider = MUST(String::from_byte_string(Config::read_string("Maps"sv, "MapWidget"sv, "TileProviderUrlFormat"sv, Maps::default_tile_provider_url_format))); } void MapWidget::set_zoom(int zoom) { m_zoom = min(max(zoom, ZOOM_MIN), ZOOM_MAX); clear_tile_queue(); update(); } void MapWidget::config_string_did_change(StringView domain, StringView group, StringView key, StringView value) { if (domain != "Maps" || group != "MapWidget") return; if (key == "TileProviderUrlFormat") { // When config tile provider changes clear all active requests and loaded tiles m_default_tile_provider = MUST(String::from_utf8(value)); m_first_image_loaded = false; m_active_requests.clear(); m_tiles.clear(); update(); } if (key == "TileProviderAttributionText") { // Update attribution panel text when it exists for (auto& panel : m_panels) { if (panel.name == "attribution") { panel.text = MUST(String::from_utf8(value)); return; } } update(); } if (key == "TileProviderAttributionUrl") { // Update attribution panel url when it exists for (auto& panel : m_panels) { if (panel.name == "attribution") { panel.url = URL(value); return; } } } } void MapWidget::doubleclick_event(GUI::MouseEvent& event) { int new_zoom = event.shift() ? m_zoom - 1 : m_zoom + 1; set_zoom_for_mouse_event(new_zoom, event); } void MapWidget::mousedown_event(GUI::MouseEvent& event) { if (m_connection_failed) return; if (event.button() == GUI::MouseButton::Primary) { // Ignore panels click for (auto& panel : m_panels) if (panel.rect.contains(event.x(), event.y())) return; // Start map tiles dragging m_dragging = true; m_last_mouse_x = event.x(); m_last_mouse_y = event.y(); set_override_cursor(Gfx::StandardCursor::Drag); } } void MapWidget::mousemove_event(GUI::MouseEvent& event) { if (m_connection_failed) return; if (m_dragging) { // Adjust map center by mouse delta double delta_x = event.x() - m_last_mouse_x; double delta_y = event.y() - m_last_mouse_y; set_center({ tile_y_to_latitude(latitude_to_tile_y(m_center.latitude, m_zoom) - delta_y / TILE_SIZE, m_zoom), tile_x_to_longitude(longitude_to_tile_x(m_center.longitude, m_zoom) - delta_x / TILE_SIZE, m_zoom) }); m_last_mouse_x = event.x(); m_last_mouse_y = event.y(); return; } // Handle panels hover for (auto& panel : m_panels) if (panel.url.has_value() && panel.rect.contains(event.x(), event.y())) return set_override_cursor(Gfx::StandardCursor::Hand); set_override_cursor(Gfx::StandardCursor::Arrow); // Handle marker tooltip hover int center_tile_x = longitude_to_tile_x(m_center.longitude, m_zoom); int center_tile_y = latitude_to_tile_y(m_center.latitude, m_zoom); double offset_x = (longitude_to_tile_x(m_center.longitude, m_zoom) - center_tile_x) * TILE_SIZE; double offset_y = (latitude_to_tile_y(m_center.latitude, m_zoom) - center_tile_y) * TILE_SIZE; for (auto const& marker : m_markers) { if (!marker.tooltip.has_value()) continue; RefPtr marker_image = marker.image ? marker.image : m_marker_image; Gfx::IntRect marker_rect = { static_cast(width() / 2 + (longitude_to_tile_x(marker.latlng.longitude, m_zoom) - center_tile_x) * TILE_SIZE - offset_x) - marker_image->width() / 2, static_cast(height() / 2 + (latitude_to_tile_y(marker.latlng.latitude, m_zoom) - center_tile_y) * TILE_SIZE - offset_y) - marker_image->height(), marker_image->width(), marker_image->height() }; if (marker_rect.contains(event.x(), event.y())) { GUI::Application::the()->show_tooltip(marker.tooltip.value(), this); return; } } GUI::Application::the()->hide_tooltip(); } void MapWidget::mouseup_event(GUI::MouseEvent& event) { if (m_connection_failed) return; // Stop map tiles dragging if (m_dragging) { m_dragging = false; set_override_cursor(Gfx::StandardCursor::Arrow); return; } if (event.button() == GUI::MouseButton::Primary) { // Handle panels click for (auto& panel : m_panels) { if (panel.url.has_value() && panel.rect.contains(event.x(), event.y())) { Desktop::Launcher::open(panel.url.value()); return; } } } } void MapWidget::mousewheel_event(GUI::MouseEvent& event) { if (m_connection_failed) return; int new_zoom = event.wheel_delta_y() > 0 ? m_zoom - 1 : m_zoom + 1; set_zoom_for_mouse_event(new_zoom, event); } void MapWidget::context_menu_event(GUI::ContextMenuEvent& event) { if (!m_context_menu_enabled) return; m_context_menu_latlng = { tile_y_to_latitude(latitude_to_tile_y(m_center.latitude, m_zoom) + static_cast(event.position().y() - height() / 2) / TILE_SIZE, m_zoom), tile_x_to_longitude(longitude_to_tile_x(m_center.longitude, m_zoom) + static_cast(event.position().x() - width() / 2) / TILE_SIZE, m_zoom) }; m_context_menu = GUI::Menu::construct(); m_context_menu->add_action(GUI::Action::create( "&Copy Coordinates to Clipboard", MUST(Gfx::Bitmap::load_from_file("/res/icons/16x16/edit-copy.png"sv)), [this](auto&) { GUI::Clipboard::the().set_plain_text(MUST(String::formatted("{}, {}", m_context_menu_latlng.latitude, m_context_menu_latlng.longitude)).bytes_as_string_view()); })); m_context_menu->add_separator(); if (!m_context_menu_actions.is_empty()) { for (auto& action : m_context_menu_actions) m_context_menu->add_action(action); m_context_menu->add_separator(); } auto link_icon = MUST(Gfx::Bitmap::load_from_file("/res/icons/16x16/filetype-symlink.png"sv)); m_context_menu->add_action(GUI::Action::create( "Open in &OpenStreetMap", link_icon, [this](auto&) { Desktop::Launcher::open(URL(MUST(String::formatted("https://www.openstreetmap.org/#map={}/{}/{}", m_zoom, m_context_menu_latlng.latitude, m_context_menu_latlng.longitude)))); })); m_context_menu->add_action(GUI::Action::create( "Open in &Google Maps", link_icon, [this](auto&) { Desktop::Launcher::open(URL(MUST(String::formatted("https://www.google.com/maps/@{},{},{}z", m_context_menu_latlng.latitude, m_context_menu_latlng.longitude, m_zoom)))); })); m_context_menu->add_action(GUI::Action::create( "Open in &Bing Maps", link_icon, [this](auto&) { Desktop::Launcher::open(URL(MUST(String::formatted("https://www.bing.com/maps/?cp={}~{}&lvl={}", m_context_menu_latlng.latitude, m_context_menu_latlng.longitude, m_zoom)))); })); m_context_menu->add_action(GUI::Action::create( "Open in &DuckDuckGo Maps", link_icon, [this](auto&) { Desktop::Launcher::open(URL(MUST(String::formatted("https://duckduckgo.com/?q={},+{}&ia=web&iaxm=maps", m_context_menu_latlng.latitude, m_context_menu_latlng.longitude)))); })); m_context_menu->add_separator(); m_context_menu->add_action(GUI::Action::create( "Center &map here", MUST(Gfx::Bitmap::load_from_file("/res/icons/16x16/scale.png"sv)), [this](auto&) { set_center(m_context_menu_latlng); })); m_context_menu->popup(event.screen_position()); } void MapWidget::set_zoom_for_mouse_event(int zoom, GUI::MouseEvent& event) { if (zoom == m_zoom || zoom < ZOOM_MIN || zoom > ZOOM_MAX) return; if (zoom < m_zoom) { set_center({ tile_y_to_latitude(latitude_to_tile_y(m_center.latitude, m_zoom) - static_cast(event.y() - height() / 2) / TILE_SIZE, m_zoom), tile_x_to_longitude(longitude_to_tile_x(m_center.longitude, m_zoom) - static_cast(event.x() - width() / 2) / TILE_SIZE, m_zoom) }); } else { set_center({ tile_y_to_latitude(latitude_to_tile_y(m_center.latitude, zoom) + static_cast(event.y() - height() / 2) / TILE_SIZE, zoom), tile_x_to_longitude(longitude_to_tile_x(m_center.longitude, zoom) + static_cast(event.x() - width() / 2) / TILE_SIZE, zoom) }); } set_zoom(zoom); } Optional> MapWidget::get_tile_image(int x, int y, int zoom, TileDownloadBehavior download_behavior) { // Get the tile from tiles cache TileKey const key = { x, y, zoom }; if (auto it = m_tiles.find(key); it != m_tiles.end()) { if (it->value) return it->value; return {}; } if (download_behavior == TileDownloadBehavior::DoNotDownload) return {}; // Register an empty tile so we don't send requests multiple times if (m_tiles.size() >= TILES_CACHE_MAX) m_tiles.remove(m_tiles.begin()); m_tiles.set(key, nullptr); // Schedule the tile download m_tile_queue.enqueue(key); process_tile_queue(); return {}; } void MapWidget::process_tile_queue() { if (m_active_requests.size() >= TILES_DOWNLOAD_PARALLEL_MAX) return; if (m_tile_queue.is_empty()) return; auto tile_key = m_tile_queue.dequeue(); // Start HTTP GET request to load image HashMap headers; headers.set("User-Agent", "SerenityOS Maps"); headers.set("Accept", "image/png"); URL url(MUST(String::formatted(m_tile_provider.value_or(m_default_tile_provider), tile_key.zoom, tile_key.x, tile_key.y))); auto request = m_request_client->start_request("GET", url, headers, {}); VERIFY(!request.is_null()); m_active_requests.append(request); request->on_buffered_request_finish = [this, request, url, tile_key](bool success, auto, auto&, auto, ReadonlyBytes payload) { auto was_active = m_active_requests.remove_first_matching([request](auto const& other_request) { return other_request->id() == request->id(); }); if (!was_active) return; deferred_invoke([this]() { this->process_tile_queue(); }); // When first image load fails set connection failed if (!success) { if (!m_first_image_loaded) { m_first_image_loaded = true; m_connection_failed = true; } dbgln("Maps: Can't load image: {}", url); return; } m_first_image_loaded = true; // Decode loaded PNG image data auto decoder = Gfx::ImageDecoder::try_create_for_raw_bytes(payload, "image/png"); if (!decoder || (decoder->frame_count() == 0)) { dbgln("Maps: Can't decode image: {}", url); return; } m_tiles.set(tile_key, decoder->frame(0).release_value_but_fixme_should_propagate_errors().image); // FIXME: only update the part of the screen that this tile covers update(); }; request->set_should_buffer_all_input(true); request->on_certificate_requested = []() -> Protocol::Request::CertificateAndKey { return {}; }; } void MapWidget::clear_tile_queue() { m_tile_queue.clear(); // FIXME: ideally we would like to abort all active requests here, but invoking `->stop()` // often causes hangs for me for some reason. m_active_requests.clear_with_capacity(); m_tiles.remove_all_matching([](auto, auto const& value) -> bool { return !value; }); } // Iterates from the center (0,0) outwards, towards a certain width or height (inclusive). // The current iteration algorithm is a basic generator-like spiral algorithm adapted for C++ iterators. template class CenterOutwardsIterable { public: using ElementType = T; constexpr CenterOutwardsIterable(T width, T height) : m_width(move(width)) , m_height(move(height)) { } struct Iterator { T width; T height; T index { 0 }; Gfx::Point position { 0, 0 }; constexpr Iterator(T width, T height) : width(move(width)) , height(move(height)) { } constexpr Iterator end() const { auto end = *this; end.index = AK::max(width, height) * AK::max(width, height); return end; } constexpr bool is_end() const { return *this == end(); } constexpr bool operator==(Iterator const& other) const { return index == other.index; } constexpr bool operator!=(Iterator const& other) const { return index != other.index; } constexpr Gfx::Point operator*() const { return position; } constexpr Iterator operator++() { while (!is_end()) { // Figure out in which of the four squares we are. if (AK::abs(position.x()) <= AK::abs(position.y()) && (position.x() != position.y() || position.x() >= 0)) position.translate_by(position.y() >= 0 ? 1 : -1, 0); else position.translate_by(0, position.x() >= 0 ? -1 : 1); ++index; // Translating the coordinates makes the range check simpler: T xp = position.x() + width / 2; T yp = position.y() + height / 2; if (xp >= 0 && xp <= width && yp >= 0 && yp <= height) { break; } } return *this; } }; constexpr Iterator begin() { return Iterator { m_width, m_height }; } constexpr Iterator end() { return begin().end(); } private: T m_width; T m_height; }; void MapWidget::paint_map(GUI::Painter& painter) { int center_tile_x = longitude_to_tile_x(m_center.longitude, m_zoom); int center_tile_y = latitude_to_tile_y(m_center.latitude, m_zoom); double offset_x = (longitude_to_tile_x(m_center.longitude, m_zoom) - center_tile_x) * TILE_SIZE; double offset_y = (latitude_to_tile_y(m_center.latitude, m_zoom) - center_tile_y) * TILE_SIZE; // Draw grid around center tile; always pad the dimensions with 2 tiles for left/right and top/bottom edges // plus one additional tile to account for the width() / 2 in CenterOutwardsIterable. int grid_width = width() / TILE_SIZE + 3; int grid_height = height() / TILE_SIZE + 3; for (auto const delta : CenterOutwardsIterable { grid_width, grid_height }) { int tile_x = center_tile_x + delta.x(); int tile_y = center_tile_y + delta.y(); // Only draw tiles that exist if (tile_x < 0 || tile_y < 0 || tile_x > pow(2, m_zoom) - 1 || tile_y > pow(2, m_zoom) - 1) continue; auto tile_rect = Gfx::IntRect { static_cast(width() / 2 + delta.x() * TILE_SIZE - offset_x), static_cast(height() / 2 + delta.y() * TILE_SIZE - offset_y), TILE_SIZE, TILE_SIZE, }; if (!tile_rect.intersects(frame_inner_rect())) continue; // Get tile, when it has a loaded image draw it at the right position auto tile_image = get_tile_image(tile_x, tile_y, m_zoom, TileDownloadBehavior::Download); auto const tile_source = Gfx::IntRect { 0, 0, TILE_SIZE, TILE_SIZE }; if (tile_image.has_value()) { painter.blit(tile_rect.location(), *tile_image.release_value(), tile_source, 1); continue; } // Fallback: try to compose the tile from already cached tiles from a higher zoom level auto cached_tiles_used = 0; if (m_zoom < ZOOM_MAX) { auto const child_top_left_tile_x = tile_x * 2; auto const child_top_left_tile_y = tile_y * 2; for (auto child_tile_x = child_top_left_tile_x; child_tile_x <= child_top_left_tile_x + 1; ++child_tile_x) { for (auto child_tile_y = child_top_left_tile_y; child_tile_y <= child_top_left_tile_y + 1; ++child_tile_y) { auto child_tile = get_tile_image(child_tile_x, child_tile_y, m_zoom + 1, TileDownloadBehavior::DoNotDownload); if (!child_tile.has_value()) continue; auto target_rect = tile_rect; target_rect.set_size(TILE_SIZE / 2, TILE_SIZE / 2); if ((child_tile_x & 1) > 0) target_rect.translate_by(TILE_SIZE / 2, 0); if ((child_tile_y & 1) > 0) target_rect.translate_by(0, TILE_SIZE / 2); painter.draw_scaled_bitmap(target_rect, *child_tile.release_value(), tile_source, 1.f, Gfx::Painter::ScalingMode::BilinearBlend); ++cached_tiles_used; } } } // Fallback: try to use an already cached tile from a lower zoom level // Note: we only want to try this if we did not find exactly 4 cached child tiles in the previous fallback (i.e. there are gaps) if (m_zoom > ZOOM_MIN && cached_tiles_used < 4) { auto const parent_tile_x = tile_x / 2; auto const parent_tile_y = tile_y / 2; auto larger_tile = get_tile_image(parent_tile_x, parent_tile_y, m_zoom - 1, TileDownloadBehavior::DoNotDownload); if (larger_tile.has_value()) { auto source_rect = Gfx::IntRect { 0, 0, TILE_SIZE / 2, TILE_SIZE / 2 }; if ((tile_x & 1) > 0) source_rect.translate_by(TILE_SIZE / 2, 0); if ((tile_y & 1) > 0) source_rect.translate_by(0, TILE_SIZE / 2); painter.draw_scaled_bitmap(tile_rect, *larger_tile.release_value(), source_rect, 1.f, Gfx::Painter::ScalingMode::BilinearBlend); } } } // Draw markers for (auto const& marker : m_markers) { RefPtr marker_image = marker.image ? marker.image : m_marker_image; Gfx::IntRect marker_rect = { static_cast(width() / 2 + (longitude_to_tile_x(marker.latlng.longitude, m_zoom) - center_tile_x) * TILE_SIZE - offset_x) - marker_image->width() / 2, static_cast(height() / 2 + (latitude_to_tile_y(marker.latlng.latitude, m_zoom) - center_tile_y) * TILE_SIZE - offset_y) - marker_image->height(), marker_image->width(), marker_image->height() }; if (marker_rect.intersects(frame_inner_rect())) painter.blit(marker_rect.location(), *marker_image, { 0, 0, marker_image->width(), marker_image->height() }, 1); } } void MapWidget::paint_scale_line(GUI::Painter& painter, String label, Gfx::IntRect rect) { painter.fill_rect(rect, panel_background_color); painter.fill_rect({ rect.x(), rect.y(), 1, rect.height() }, panel_foreground_color); painter.fill_rect({ rect.x() + rect.width() - 1, rect.y(), 1, rect.height() }, panel_foreground_color); Gfx::FloatRect label_rect { rect.x() + PANEL_PADDING_X, rect.y() + PANEL_PADDING_Y, rect.width() - PANEL_PADDING_X * 2, rect.height() - PANEL_PADDING_Y * 2 }; painter.draw_text(label_rect, label, Gfx::TextAlignment::TopLeft, panel_foreground_color); } void MapWidget::paint_scale(GUI::Painter& painter) { double max_meters = m_center.distance_to({ m_center.latitude, tile_x_to_longitude(longitude_to_tile_x(m_center.longitude, m_zoom) + static_cast(m_scale_max_width) / TILE_SIZE, m_zoom) }); float margin_x = 8; float margin_y = 8; float line_height = PANEL_PADDING_Y + painter.font().pixel_size() + PANEL_PADDING_Y; // Metric line double meters = nice_round_number(max_meters); float metric_width = m_scale_max_width * (meters / max_meters); Gfx::IntRect metric_rect = { frame_inner_rect().x() + margin_x, frame_inner_rect().bottom() - margin_y - line_height * 2, metric_width, line_height }; if (meters < 1000) { paint_scale_line(painter, MUST(String::formatted("{} m", meters)), metric_rect); } else { paint_scale_line(painter, MUST(String::formatted("{} km", meters / 1000)), metric_rect); } // Imperial line double max_feet = max_meters * 3.28084; double feet = nice_round_number(max_feet); double max_miles = max_feet / 5280; double miles = nice_round_number(max_miles); float imperial_width = m_scale_max_width * (feet < 5280 ? feet / max_feet : miles / max_miles); Gfx::IntRect imperial_rect = { frame_inner_rect().x() + margin_x, frame_inner_rect().bottom() - margin_y - line_height, imperial_width, line_height }; if (feet < 5280) { paint_scale_line(painter, MUST(String::formatted("{} ft", feet)), imperial_rect); } else { paint_scale_line(painter, MUST(String::formatted("{} mi", miles)), imperial_rect); } // Border between painter.fill_rect({ frame_inner_rect().x() + margin_x, frame_inner_rect().bottom() - margin_y - line_height, max(metric_width, imperial_width), 1.0f }, panel_foreground_color); } void MapWidget::paint_panels(GUI::Painter& painter) { for (auto& panel : m_panels) { int panel_width = PANEL_PADDING_X + painter.font().width(panel.text) + PANEL_PADDING_X; int panel_height = PANEL_PADDING_Y + painter.font().pixel_size() + PANEL_PADDING_Y; if (panel.position == Panel::Position::TopLeft) panel.rect = { frame_inner_rect().x(), frame_inner_rect().y(), panel_width, panel_height }; if (panel.position == Panel::Position::TopRight) panel.rect = { frame_inner_rect().right() - panel_width, frame_inner_rect().y(), panel_width, panel_height }; if (panel.position == Panel::Position::BottomLeft) panel.rect = { frame_inner_rect().x(), frame_inner_rect().bottom() - panel_height, panel_width, panel_height }; if (panel.position == Panel::Position::BottomRight) panel.rect = { frame_inner_rect().right() - panel_width, frame_inner_rect().bottom() - panel_height, panel_width, panel_height }; painter.fill_rect(panel.rect, panel_background_color); Gfx::FloatRect text_rect = { panel.rect.x() + PANEL_PADDING_X, panel.rect.y() + PANEL_PADDING_Y, panel.rect.width(), panel.rect.height() }; painter.draw_text(text_rect, panel.text, Gfx::TextAlignment::TopLeft, panel_foreground_color); } } void MapWidget::paint_event(GUI::PaintEvent& event) { Frame::paint_event(event); GUI::Painter painter(*this); painter.add_clip_rect(event.rect()); painter.add_clip_rect(frame_inner_rect()); painter.fill_rect(frame_inner_rect(), map_background_color); if (m_connection_failed) return painter.draw_text(frame_inner_rect(), "Failed to fetch map tiles :^("sv, Gfx::TextAlignment::Center, panel_foreground_color); paint_map(painter); if (m_scale_enabled) paint_scale(painter); paint_panels(painter); } }