#pragma once #include #include #include "common.hpp" #include "components/config.hpp" #include "components/logger.hpp" #include "components/parser.hpp" #include "components/signals.hpp" #include "components/types.hpp" #include "components/x11/connection.hpp" #include "components/x11/draw.hpp" #include "components/x11/fontmanager.hpp" #include "components/x11/randr.hpp" #include "components/x11/tray.hpp" #include "components/x11/types.hpp" #include "components/x11/window.hpp" #include "components/x11/xlib.hpp" #include "components/x11/xutils.hpp" #include "utils/bspwm.hpp" #include "utils/math.hpp" #include "utils/string.hpp" #include "utils/threading.hpp" #if ENABLE_I3 #include "utils/i3.hpp" #endif LEMONBUDDY_NS class bar : public xpp::event::sink { public: /** * Construct bar */ explicit bar(connection& conn, const config& config, const logger& logger, unique_ptr fontmanager) : m_connection(conn) , m_conf(config) , m_log(logger) , m_fontmanager(forward(fontmanager)) {} /** * Cleanup signal handlers and destroy the bar window */ ~bar() { std::lock_guard lck(m_lock); g_signals::parser::alignment_change.disconnect(this, &bar::on_alignment_change); g_signals::parser::attribute_set.disconnect(this, &bar::on_attribute_set); g_signals::parser::attribute_unset.disconnect(this, &bar::on_attribute_unset); g_signals::parser::attribute_toggle.disconnect(this, &bar::on_attribute_toggle); g_signals::parser::action_block_open.disconnect(this, &bar::on_action_block_open); g_signals::parser::action_block_close.disconnect(this, &bar::on_action_block_close); g_signals::parser::color_change.disconnect(this, &bar::on_color_change); g_signals::parser::font_change.disconnect(this, &bar::on_font_change); g_signals::parser::pixel_offset.disconnect(this, &bar::on_pixel_offset); g_signals::parser::ascii_text_write.disconnect(this, &bar::draw_character); g_signals::parser::unicode_text_write.disconnect(this, &bar::draw_character); if (m_tray.align != alignment::NONE) g_signals::tray::report_slotcount.disconnect(this, &bar::on_tray_report); if (m_sinkattached) m_connection.detach_sink(this, 1); m_window.destroy(); } /** * Configure injection module */ template > static di::injector configure() { // clang-format off return di::make_injector( connection::configure(), config::configure(), logger::configure(), fontmanager::configure()); // clang-format on } /** * Create required components * * This is done outside the constructor due to boost::di noexcept */ void bootstrap(bool nodraw = false) { //{{{ m_screen = m_connection.screen(); m_visual = m_connection.visual_type(m_screen, 32).get(); auto monitors = randr_util::get_monitors(m_connection, m_connection.screen()->root); auto bs = m_conf.bar_section(); // Look for the defined monitor {{{ if (monitors.empty()) throw application_error("No monitors found"); auto monitor_name = m_conf.get(bs, "monitor", ""); if (monitor_name.empty()) monitor_name = monitors[0]->name; for (auto&& monitor : monitors) { if (monitor_name.compare(monitor->name) == 0) { m_bar.monitor = std::move(monitor); break; } } if (m_bar.monitor) m_log.trace("bar: Found matching monitor %s (%ix%i+%i+%i)", m_bar.monitor->name, m_bar.monitor->w, m_bar.monitor->h, m_bar.monitor->x, m_bar.monitor->y); else throw application_error("Could not find monitor: " + monitor_name); // }}} // Set bar colors {{{ m_bar.background = color::parse(m_conf.get(bs, "background", m_bar.background.hex())); m_bar.foreground = color::parse(m_conf.get(bs, "foreground", m_bar.foreground.hex())); m_bar.linecolor = color::parse(m_conf.get(bs, "linecolor", m_bar.linecolor.hex())); // }}} // Set border values {{{ auto bsize = m_conf.get(bs, "border-size", 0); auto bcolor = m_conf.get(bs, "border-color", ""); m_borders.emplace(border::TOP, border_settings{}); m_borders[border::TOP].size = m_conf.get(bs, "border-top", bsize); m_borders[border::TOP].color = color::parse(m_conf.get(bs, "border-top-color", bcolor)); m_borders.emplace(border::BOTTOM, border_settings{}); m_borders[border::BOTTOM].size = m_conf.get(bs, "border-bottom", bsize); m_borders[border::BOTTOM].color = color::parse(m_conf.get(bs, "border-bottom-color", bcolor)); m_borders.emplace(border::LEFT, border_settings{}); m_borders[border::LEFT].size = m_conf.get(bs, "border-left", bsize); m_borders[border::LEFT].color = color::parse(m_conf.get(bs, "border-left-color", bcolor)); m_borders.emplace(border::RIGHT, border_settings{}); m_borders[border::RIGHT].size = m_conf.get(bs, "border-right", bsize); m_borders[border::RIGHT].color = color::parse(m_conf.get(bs, "border-right-color", bcolor)); // }}} // Set size and position {{{ GET_CONFIG_VALUE(bs, m_bar.dock, "dock"); GET_CONFIG_VALUE(bs, m_bar.bottom, "bottom"); GET_CONFIG_VALUE(bs, m_bar.spacing, "spacing"); GET_CONFIG_VALUE(bs, m_bar.lineheight, "lineheight"); GET_CONFIG_VALUE(bs, m_bar.offset_x, "offset-x"); GET_CONFIG_VALUE(bs, m_bar.offset_y, "offset-y"); GET_CONFIG_VALUE(bs, m_bar.padding_left, "padding-left"); GET_CONFIG_VALUE(bs, m_bar.padding_right, "padding-right"); GET_CONFIG_VALUE(bs, m_bar.module_margin_left, "module-margin-left"); GET_CONFIG_VALUE(bs, m_bar.module_margin_right, "module-margin-right"); auto w = m_conf.get(bs, "width", "100%"); auto h = m_conf.get(bs, "height", "24"); m_bar.width = std::atoi(w.c_str()); if (w.find("%") != string::npos) m_bar.width = m_bar.monitor->w * (m_bar.width / 100.0) + 0.5f; m_bar.height = std::atoi(h.c_str()); if (h.find("%") != string::npos) m_bar.height = m_bar.monitor->h * (m_bar.height / 100.0) + 0.5f; // apply offsets m_bar.x = m_bar.offset_x + m_bar.monitor->x; m_bar.y = m_bar.offset_y + m_bar.monitor->y; // apply borders m_bar.height += m_borders[border::TOP].size; m_bar.height += m_borders[border::BOTTOM].size; if (m_bar.bottom) m_bar.y = m_bar.monitor->y + m_bar.monitor->h - m_bar.height - m_bar.offset_y; if (m_bar.width <= 0 || m_bar.width > m_bar.monitor->w) throw application_error("Resulting bar width is out of bounds"); if (m_bar.height <= 0 || m_bar.height > m_bar.monitor->h) throw application_error("Resulting bar height is out of bounds"); m_bar.width = math_util::cap(m_bar.width, 0, m_bar.monitor->w); m_bar.height = math_util::cap(m_bar.height, 0, m_bar.monitor->h); m_bar.vertical_mid = (m_bar.height + m_borders[border::TOP].size - m_borders[border::BOTTOM].size) / 2; m_log.trace("bar: Resulting bar geom %ix%i+%i+%i", m_bar.width, m_bar.height, m_bar.x, m_bar.y); // }}} // Set the WM_NAME value {{{ m_bar.wmname = "lemonbuddy-" + bs.substr(4) + "_" + m_bar.monitor->name; m_bar.wmname = m_conf.get(bs, "wm-name", m_bar.wmname); m_bar.wmname = string_util::replace(m_bar.wmname, " ", "-"); // }}} // Set misc parameters {{{ m_bar.separator = string_util::trim(m_conf.get(bs, "separator", ""), '"'); m_bar.locale = m_conf.get(bs, "locale", ""); // }}} // Checking nodraw {{{ if (nodraw) { m_log.trace("bar: Abort bootstrap routine (reason: nodraw)"); return; } // }}} // Setup graphic components and create the window {{{ m_log.trace("bar: Create colormap"); { m_connection.create_colormap_checked( XCB_COLORMAP_ALLOC_NONE, m_colormap, m_screen->root, m_visual->visual_id); } m_log.trace("bar: Create window %s", m_connection.id(m_window)); { uint32_t mask = 0; xcb_params_cw_t params; // clang-format off XCB_AUX_ADD_PARAM(&mask, ¶ms, back_pixel, m_bar.background.value()); XCB_AUX_ADD_PARAM(&mask, ¶ms, border_pixel, m_bar.background.value()); XCB_AUX_ADD_PARAM(&mask, ¶ms, colormap, m_colormap); XCB_AUX_ADD_PARAM(&mask, ¶ms, override_redirect, m_bar.dock); XCB_AUX_ADD_PARAM(&mask, ¶ms, event_mask, XCB_EVENT_MASK_PROPERTY_CHANGE | XCB_EVENT_MASK_EXPOSURE | XCB_EVENT_MASK_BUTTON_PRESS); // clang-format on m_window.create_checked(m_bar.x, m_bar.y, m_bar.width, m_bar.height, mask, ¶ms); } m_log.trace("bar: Set WM_NAME"); { xcb_icccm_set_wm_name( m_connection, m_window, XCB_ATOM_STRING, 8, m_bar.wmname.length(), m_bar.wmname.c_str()); xcb_icccm_set_wm_class(m_connection, m_window, 21, "lemonbuddy\0Lemonbuddy"); } m_log.trace("bar: Set _NET_WM_WINDOW_TYPE"); { const uint32_t win_types[1] = {_NET_WM_WINDOW_TYPE_DOCK}; m_connection.change_property_checked( XCB_PROP_MODE_REPLACE, m_window, _NET_WM_WINDOW_TYPE, XCB_ATOM_ATOM, 32, 1, win_types); } m_log.trace("bar: Set _NET_WM_STATE"); { const uint32_t win_states[2] = {_NET_WM_STATE_STICKY, _NET_WM_STATE_ABOVE}; m_connection.change_property_checked( XCB_PROP_MODE_REPLACE, m_window, _NET_WM_STATE, XCB_ATOM_ATOM, 32, 2, win_states); } m_log.trace("bar: Set _NET_WM_STRUT_PARTIAL"); { uint32_t none{0}; uint32_t value_list[12]{none}; if (m_bar.bottom) { value_list[3] = m_bar.height; value_list[10] = m_bar.x; value_list[11] = m_bar.x + m_bar.width; } else { value_list[2] = m_bar.height; value_list[8] = m_bar.x; value_list[9] = m_bar.x + m_bar.width; } m_connection.change_property_checked(XCB_PROP_MODE_REPLACE, m_window, _NET_WM_STRUT_PARTIAL, XCB_ATOM_CARDINAL, 32, 12, value_list); } m_log.trace("bar: Set _NET_WM_DESKTOP"); { const uint32_t value_list[1]{-1u}; m_connection.change_property_checked( XCB_PROP_MODE_REPLACE, m_window, _NET_WM_DESKTOP, XCB_ATOM_CARDINAL, 32, 1, value_list); } m_log.trace("bar: Set _NET_WM_PID"); { const uint32_t value_list[1]{uint32_t(getpid())}; m_connection.change_property_checked( XCB_PROP_MODE_REPLACE, m_window, _NET_WM_PID, XCB_ATOM_CARDINAL, 32, 1, value_list); } m_log.trace("bar: Create pixmap"); { m_connection.create_pixmap_checked( m_visual->visual_id == m_screen->root_visual ? XCB_COPY_FROM_PARENT : 32, m_pixmap, m_window, m_bar.width, m_bar.height); } m_log.trace("bar: Map window"); { m_connection.flush(); m_connection.map_window_checked(m_window); } // }}} // Restack window and put it above defined WM's root {{{ try { auto wm_restack = m_conf.get(bs, "wm-restack"); auto restacked = false; if (wm_restack == "bspwm") { restacked = bspwm_util::restack_above_root(m_connection, m_bar.monitor, m_window); } else if (wm_restack == "i3" && m_bar.dock && ENABLE_I3) { #if ENABLE_I3 restacked = i3_util::restack_above_root(m_connection, m_bar.monitor, m_window); #endif } else if (wm_restack == "i3" && !m_bar.dock) { m_log.warn("Ignoring restack of i3 window (not needed when dock = false)"); wm_restack.clear(); } else { m_log.warn("Ignoring unsupported wm-restack option '%s'", wm_restack); wm_restack.clear(); } if (restacked) { m_log.info("Successfully restacked bar window"); } else if (!wm_restack.empty()) { m_log.err("Failed to restack bar window"); } } catch (const key_error& err) { } // }}} // Create graphic contexts {{{ m_log.trace("bar: Create graphic contexts"); { // clang-format off vector colors { m_bar.background.value(), m_bar.foreground.value(), m_bar.linecolor.value(), m_bar.linecolor.value(), m_borders[border::TOP].color.value(), m_borders[border::BOTTOM].color.value(), m_borders[border::LEFT].color.value(), m_borders[border::RIGHT].color.value(), }; // clang-format on for (int i = 1; i <= 8; i++) { uint32_t mask = 0; uint32_t value_list[32]; xcb_params_gc_t params; XCB_AUX_ADD_PARAM(&mask, ¶ms, foreground, colors[i - 1]); XCB_AUX_ADD_PARAM(&mask, ¶ms, graphics_exposures, 0); xutils::pack_values(mask, ¶ms, value_list); m_gcontexts.emplace(gc(i), gcontext{m_connection, m_connection.generate_id()}); m_connection.create_gc_checked(m_gcontexts.at(gc(i)), m_pixmap, mask, value_list); } } // }}} // Load fonts {{{ auto fonts_loaded = false; auto fontindex = 0; auto fonts = m_conf.get_list(bs, "font"); for (auto f : fonts) { fontindex++; vector fd = string_util::split(f, ';'); string pattern{fd[0]}; int offset{0}; if (fd.size() > 1) offset = std::stoi(fd[1], 0, 10); if (m_fontmanager->load(pattern, fontindex, offset)) fonts_loaded = true; else m_log.warn("Unable to load font '%s'", fd[0]); } if (!fonts_loaded) { m_log.warn("Loading fallback font"); if (!m_fontmanager->load("fixed")) throw application_error("Unable to load fonts"); } m_fontmanager->allocate_color(m_bar.foreground); // }}} // Set tray settings {{{ try { auto tray_position = m_conf.get(bs, "tray-position"); if (tray_position == "left") m_tray.align = alignment::LEFT; else if (tray_position == "right") m_tray.align = alignment::RIGHT; else m_tray.align = alignment::NONE; } catch (const key_error& err) { m_tray.align = alignment::NONE; } if (m_tray.align != alignment::NONE) { m_tray.background = m_bar.background.value(); m_tray.height = m_bar.height; m_tray.height -= m_borders.at(border::BOTTOM).size; m_tray.height -= m_borders.at(border::TOP).size; if (m_tray.height % 2 != 0) { m_tray.height--; } if (m_tray.height > 24) { m_tray.spacing = (m_tray.height - 24) / 2; m_tray.height = 24; } m_tray.width = m_tray.height; m_tray.orig_y = m_bar.y + m_borders.at(border::TOP).size; if (m_tray.align == alignment::RIGHT) m_tray.orig_x = m_bar.x + m_bar.width - m_borders.at(border::RIGHT).size; else m_tray.orig_x = m_bar.x + m_borders.at(border::LEFT).size; } m_tray.sibling = m_window; // }}} // Connect signal handlers {{{ g_signals::parser::alignment_change.connect(this, &bar::on_alignment_change); g_signals::parser::attribute_set.connect(this, &bar::on_attribute_set); g_signals::parser::attribute_unset.connect(this, &bar::on_attribute_unset); g_signals::parser::attribute_toggle.connect(this, &bar::on_attribute_toggle); g_signals::parser::action_block_open.connect(this, &bar::on_action_block_open); g_signals::parser::action_block_close.connect(this, &bar::on_action_block_close); g_signals::parser::color_change.connect(this, &bar::on_color_change); g_signals::parser::font_change.connect(this, &bar::on_font_change); g_signals::parser::pixel_offset.connect(this, &bar::on_pixel_offset); g_signals::parser::ascii_text_write.connect(this, &bar::draw_character); g_signals::parser::unicode_text_write.connect(this, &bar::draw_character); if (m_tray.align != alignment::NONE) g_signals::tray::report_slotcount.connect(this, &bar::on_tray_report); // }}} m_connection.attach_sink(this, 1); m_sinkattached = true; m_connection.flush(); } //}}} /** * Parse input string and redraw the bar window * * @param data Input string * @param force Unless true, do not parse unchanged data */ void parse(string data, bool force = false) { //{{{ std::lock_guard lck(m_lock); { if (data == m_prevdata && !force) return; m_prevdata = data; // TODO: move to fontmanager m_xftdraw = XftDrawCreate(xlib::get_display(), m_pixmap, xlib::get_visual(), m_colormap); m_bar.align = alignment::LEFT; m_xpos = m_borders[border::LEFT].size; m_attributes = 0; #if DEBUG and DRAW_CLICKABLE_AREA_HINTS for (auto&& action : m_actions) { m_connection.destroy_window(action.clickable_area); } #endif m_actions.clear(); draw_background(); if (m_tray.align == alignment::LEFT && m_tray.slots) m_xpos += ((m_tray.width + m_tray.spacing) * m_tray.slots) + m_tray.spacing; try { parser parser(m_bar); parser(data); } catch (const unrecognized_token& err) { m_log.err("Unrecognized syntax token '%s'", err.what()); } if (m_tray.align == alignment::RIGHT && m_tray.slots) draw_shift(m_xpos, ((m_tray.width + m_tray.spacing) * m_tray.slots) + m_tray.spacing); draw_border(border::ALL); flush(); XftDrawDestroy(m_xftdraw); } } //}}} /** * Copy the contents of the pixmap's onto the bar window */ void flush() { //{{{ m_connection.copy_area( m_pixmap, m_window, m_gcontexts.at(gc::FG), 0, 0, 0, 0, m_bar.width, m_bar.height); m_connection.copy_area( m_pixmap, m_window, m_gcontexts.at(gc::BT), 0, 0, 0, 0, m_bar.width, m_bar.height); m_connection.copy_area( m_pixmap, m_window, m_gcontexts.at(gc::BB), 0, 0, 0, 0, m_bar.width, m_bar.height); m_connection.copy_area( m_pixmap, m_window, m_gcontexts.at(gc::BL), 0, 0, 0, 0, m_bar.width, m_bar.height); m_connection.copy_area( m_pixmap, m_window, m_gcontexts.at(gc::BR), 0, 0, 0, 0, m_bar.width, m_bar.height); #if DEBUG and DRAW_CLICKABLE_AREA_HINTS map hint_num{ { {alignment::LEFT, 0}, {alignment::CENTER, 0}, {alignment::RIGHT, 0}, }}; #endif for (auto&& action : m_actions) { if (action.active) { m_log.warn("Action block not closed"); m_log.warn("action.command = %s", action.command); } else { m_log.trace("bar: Action details"); m_log.trace("action.command = %s", action.command); m_log.trace("action.button = %i", static_cast(action.button)); m_log.trace("action.start_x = %i", action.start_x); m_log.trace("action.end_x = %i", action.end_x); #if DEBUG and DRAW_CLICKABLE_AREA_HINTS m_log.info("Drawing clickable area hints"); hint_num[action.align]++; auto x = action.start_x; auto y = m_bar.y + hint_num[action.align]++ * DRAW_CLICKABLE_AREA_HINTS_OFFSET_Y; auto w = action.end_x - action.start_x - 2; auto h = m_bar.height - 2; const uint32_t mask = XCB_CW_BORDER_PIXEL | XCB_CW_OVERRIDE_REDIRECT; const uint32_t border_color = hint_num[action.align] % 2 ? 0xff0000 : 0x00ff00; const uint32_t values[2]{border_color, true}; auto scr = m_connection.screen(); action.clickable_area = m_connection.generate_id(); m_connection.create_window_checked(scr->root_depth, action.clickable_area, scr->root, x, y, w, h, 1, XCB_WINDOW_CLASS_INPUT_OUTPUT, scr->root_visual, mask, values); m_connection.map_window_checked(action.clickable_area); #else m_log.trace("bar: Visual hints for clickable area's disabled"); #endif } } } //}}} /** * Get the bar settings container */ const bar_settings settings() const { // {{{ return m_bar; } // }}} /** * Get the tray settings container */ const tray_settings tray() const { // {{{ return m_tray; } // }}} /** * Mouse button event handler */ void handle(const evt::button_press& evt) { // {{{ std::lock_guard lck(m_lock); { m_log.trace("bar: Received button press event: %i at pos(%i, %i)", static_cast(evt->detail), evt->event_x, evt->event_y); mousebtn button = static_cast(evt->detail); for (auto&& action : m_actions) { if (action.active) { m_log.trace("bar: Ignoring action: unclosed)"); continue; } else if (action.button != button) { m_log.trace("bar: Ignoring action: button mismatch"); continue; } else if (action.start_x > evt->event_x) { m_log.trace( "bar: Ignoring action: start_x(%i) > event_x(%i)", action.start_x, evt->event_x); continue; } else if (action.end_x < evt->event_x) { m_log.trace("bar: Ignoring action: end_x(%i) < event_x(%i)", action.end_x, evt->event_x); continue; } m_log.info("Found matching input area"); m_log.trace("action.command = %s", action.command); m_log.trace("action.button = %i", static_cast(action.button)); m_log.trace("action.start_x = %i", action.start_x); m_log.trace("action.end_x = %i", action.end_x); if (!g_signals::bar::action_click.empty()) g_signals::bar::action_click.emit(action.command); else m_log.warn("No signal handler's connected to 'action_click'"); return; } m_log.warn("No matching input area found"); } } // }}} /** * Event handler for XCB_EXPOSE events */ void handle(const evt::expose& evt) { // {{{ if (evt->window != m_window) return; m_log.trace("bar: Received expose event"); flush(); } // }}} /** * Event handler for XCB_PROPERTY_NOTIFY events * * Used to emit events whenever the bar window's * visibility gets changes. This allows us to toggle the * state of the tray container even though the tray * window restacking failed. * * This is used as a fallback for tedious WM's, like i3. * * Some might call it a dirty hack, others a crappy * solution... I choose to call it a masterpiece! Plus * it's not really any overhead worth talking about. */ void handle(const evt::property_notify& evt) { // {{{ if (evt->window == m_window && evt->atom == WM_STATE) { if (g_signals::bar::visibility_change.empty()) { return; } try { auto attr = m_connection.get_window_attributes(m_window); if (attr->map_state == XCB_MAP_STATE_VIEWABLE) g_signals::bar::visibility_change.emit(true); else if (attr->map_state == XCB_MAP_STATE_UNVIEWABLE) g_signals::bar::visibility_change.emit(false); else if (attr->map_state == XCB_MAP_STATE_UNMAPPED) g_signals::bar::visibility_change.emit(false); else g_signals::bar::visibility_change.emit(true); } catch (const std::exception& err) { m_log.warn("Failed to emit bar window's visibility change event"); } } } // }}} protected: /** * Handle alignment update */ void on_alignment_change(alignment align) { //{{{ if (align == m_bar.align) return; m_log.trace("bar: alignment_change(%i)", static_cast(align)); m_bar.align = align; if (align == alignment::LEFT) { m_xpos = m_borders[border::LEFT].size; } else if (align == alignment::RIGHT) { m_xpos = m_borders[border::RIGHT].size; } else { m_xpos = 0; } } //}}} /** * Handle attribute on state */ void on_attribute_set(attribute attr) { //{{{ int val{static_cast(attr)}; if ((m_attributes & val) != 0) return; m_log.trace("bar: attribute_set(%i)", val); m_attributes |= val; } //}}} /** * Handle attribute off state */ void on_attribute_unset(attribute attr) { //{{{ int val{static_cast(attr)}; if ((m_attributes & val) == 0) return; m_log.trace("bar: attribute_unset(%i)", val); m_attributes ^= val; } //}}} /** * Handle attribute toggle state */ void on_attribute_toggle(attribute attr) { //{{{ int val{static_cast(attr)}; m_log.trace("bar: attribute_toggle(%i)", val); m_attributes ^= val; } //}}} /** * Handle action block start */ void on_action_block_open(mousebtn btn, string cmd) { //{{{ if (btn == mousebtn::NONE) btn = mousebtn::LEFT; m_log.trace("bar: action_block_open(%i, %s)", static_cast(btn), cmd); action_block action; action.active = true; action.align = m_bar.align; action.button = btn; action.start_x = m_xpos; action.command = string_util::replace_all(cmd, ":", "\\:"); m_actions.emplace_back(action); } //}}} /** * Handle action block end */ void on_action_block_close(mousebtn btn) { //{{{ m_log.trace("bar: action_block_close(%i)", static_cast(btn)); for (auto i = m_actions.size(); i > 0; i--) { auto& action = m_actions[i - 1]; if (!action.active || action.button != btn) continue; action.active = false; if (action.align == alignment::LEFT) { action.end_x = m_xpos; } else if (action.align == alignment::CENTER) { int base_x = m_bar.width; base_x -= m_borders[border::RIGHT].size; base_x /= 2; base_x += m_borders[border::LEFT].size; int clickable_width = m_xpos - action.start_x; action.start_x = base_x - clickable_width / 2 + action.start_x / 2; action.end_x = action.start_x + clickable_width; } else if (action.align == alignment::RIGHT) { int base_x = m_bar.width - m_borders[border::RIGHT].size; action.start_x = base_x - m_xpos + action.start_x; action.end_x = base_x; } return; } } //}}} /** * Handle color change */ void on_color_change(gc gc_, color color_) { //{{{ m_log.trace( "bar: color_change(%i, %s -> %s)", static_cast(gc_), color_.hex(), color_.rgb()); const uint32_t value_list[32]{color_.value()}; m_connection.change_gc(m_gcontexts.at(gc_), XCB_GC_FOREGROUND, value_list); if (gc_ == gc::FG) m_fontmanager->allocate_color(color_); } //}}} /** * Handle font change */ void on_font_change(int index) { //{{{ m_log.trace("bar: font_change(%i)", index); m_fontmanager->set_preferred_font(index); } //}}} /** * Handle pixel offsetting */ void on_pixel_offset(int px) { //{{{ m_log.trace("bar: pixel_offset(%i)", px); draw_shift(m_xpos, px); m_xpos += px; } //}}} /** * Proess systray report */ void on_tray_report(uint16_t slots) { // {{{ if (m_tray.slots == slots) return; m_log.trace("bar: tray_report(%lu)", slots); m_tray.slots = slots; if (!m_prevdata.empty()) parse(m_prevdata, true); } // }}} /** * Draw background onto the pixmap */ void draw_background() { //{{{ draw_util::fill( m_connection, m_pixmap, m_gcontexts.at(gc::BG), 0, 0, m_bar.width, m_bar.height); } //}}} /** * Draw borders onto the pixmap */ void draw_border(border border_) { //{{{ switch (border_) { case border::NONE: break; case border::TOP: if (m_borders[border::TOP].size > 0) { draw_util::fill(m_connection, m_pixmap, m_gcontexts.at(gc::BT), m_borders[border::LEFT].size, 0, m_bar.width - m_borders[border::LEFT].size - m_borders[border::RIGHT].size, m_borders[border::TOP].size); } break; case border::BOTTOM: if (m_borders[border::BOTTOM].size > 0) { draw_util::fill(m_connection, m_pixmap, m_gcontexts.at(gc::BB), m_borders[border::LEFT].size, m_bar.height - m_borders[border::BOTTOM].size, m_bar.width - m_borders[border::LEFT].size - m_borders[border::RIGHT].size, m_borders[border::BOTTOM].size); } break; case border::LEFT: if (m_borders[border::LEFT].size > 0) { draw_util::fill(m_connection, m_pixmap, m_gcontexts.at(gc::BL), 0, 0, m_borders[border::LEFT].size, m_bar.height); } break; case border::RIGHT: if (m_borders[border::RIGHT].size > 0) { draw_util::fill(m_connection, m_pixmap, m_gcontexts.at(gc::BR), m_bar.width - m_borders[border::RIGHT].size, 0, m_borders[border::RIGHT].size, m_bar.height); } break; case border::ALL: draw_border(border::TOP); draw_border(border::BOTTOM); draw_border(border::LEFT); draw_border(border::RIGHT); break; } } //}}} /** * Draw over- and underline onto the pixmap */ void draw_lines(int x, int w) { //{{{ if (!m_bar.lineheight) return; if (m_attributes & static_cast(attribute::o)) draw_util::fill(m_connection, m_pixmap, m_gcontexts.at(gc::OL), x, m_borders[border::TOP].size, w, m_bar.lineheight); if (m_attributes & static_cast(attribute::u)) draw_util::fill(m_connection, m_pixmap, m_gcontexts.at(gc::UL), x, m_bar.height - m_borders[border::BOTTOM].size - m_bar.lineheight, w, m_bar.lineheight); } //}}} /** * Shift the contents of the pixmap horizontally */ int draw_shift(int x, int chr_width) { //{{{ int delta = chr_width; if (m_bar.align == alignment::CENTER) { int base_x = m_bar.width; base_x -= m_borders[border::RIGHT].size; base_x /= 2; base_x += m_borders[border::LEFT].size; m_connection.copy_area(m_pixmap, m_pixmap, m_gcontexts.at(gc::FG), base_x - x / 2, 0, base_x - (x + chr_width) / 2, 0, x, m_bar.height); x = base_x - (x + chr_width) / 2 + x; delta /= 2; } else if (m_bar.align == alignment::RIGHT) { m_connection.copy_area(m_pixmap, m_pixmap, m_gcontexts.at(gc::FG), m_bar.width - x, 0, m_bar.width - x - chr_width, 0, x, m_bar.height); x = m_bar.width - chr_width - m_borders[border::RIGHT].size; } draw_util::fill( m_connection, m_pixmap, m_gcontexts.at(gc::BG), x, 0, m_bar.width - x, m_bar.height); // Translate pos of clickable areas if (m_bar.align != alignment::LEFT) for (auto&& action : m_actions) { if (action.active || action.align != m_bar.align) continue; action.start_x -= delta; action.end_x -= delta; } return x; } //}}} /** * Draw text contents */ void draw_character(uint16_t character) { // {{{ // TODO: cache auto& font = m_fontmanager->match_char(character); if (!font) { m_log.warn("No suitable font found for character at index %i", character); return; } if (font->ptr && font->ptr != m_gcfont) { m_gcfont = font->ptr; m_fontmanager->set_gcontext_font(m_gcontexts.at(gc::FG), m_gcfont); } // TODO: cache auto chr_width = m_fontmanager->char_width(font, character); // Avoid odd glyph width's for center-aligned text // since it breaks the positioning of clickable area's if (m_bar.align == alignment::CENTER && chr_width % 2) chr_width++; auto x = draw_shift(m_xpos, chr_width); auto y = m_bar.vertical_mid + font->height / 2 - font->descent + font->offset_y; // m_log.trace("Draw char(%c, width: %i) at pos(%i,%i)", character, chr_width, x, y); if (font->xft != nullptr) { auto color = m_fontmanager->xftcolor(); XftDrawString16(m_xftdraw, &color, font->xft, x, y, &character, 1); } else { character = (character >> 8) | (character << 8); draw_util::xcb_poly_text_16_patched( m_connection, m_pixmap, m_gcontexts.at(gc::FG), x, y, 1, &character); } draw_lines(x, chr_width); m_xpos += chr_width; } // }}} private: connection& m_connection; const config& m_conf; const logger& m_log; unique_ptr m_fontmanager; threading_util::spin_lock m_lock; xcb_screen_t* m_screen; xcb_visualtype_t* m_visual; window m_window{m_connection}; colormap m_colormap{m_connection, m_connection.generate_id()}; pixmap m_pixmap{m_connection, m_connection.generate_id()}; bar_settings m_bar; tray_settings m_tray; map m_borders; map m_gcontexts; vector m_actions; stateflag m_sinkattached{false}; string m_prevdata; int m_xpos{0}; int m_attributes{0}; xcb_font_t m_gcfont{0}; XftDraw* m_xftdraw; }; LEMONBUDDY_NS_END