#include #include "components/types.hpp" #include "utils/string.hpp" #include "x11/atoms.hpp" #include "x11/connection.hpp" #include "x11/randr.hpp" POLYBAR_NS /** * Workaround for the inconsistent naming * of outputs between my intel and nvidia * drivers (xf86-video-intel drops the dash) */ bool randr_output::match(const string& o, bool strict) const { if (strict && name != o) { return false; } return name == o || name == string_util::replace(o, "-", ""); } /** * Match position */ bool randr_output::match(const position& p) const { return p.x == x && p.y == y; } namespace randr_util { /** * Define monitor */ monitor_t make_monitor(xcb_randr_output_t randr, string name, uint16_t w, uint16_t h, int16_t x, int16_t y) { monitor_t mon{new monitor_t::element_type{}}; mon->output = randr; mon->name = move(name); mon->x = x; mon->y = y; mon->h = h; mon->w = w; return mon; } /** * Create a list of all available randr outputs */ vector get_monitors(connection& conn, xcb_window_t root, bool connected_only) { vector monitors; auto outputs = conn.get_screen_resources(root).outputs(); for (auto it = outputs.begin(); it != outputs.end(); it++) { try { auto info = conn.get_output_info(*it); if (info->crtc == XCB_NONE) { continue; } if (connected_only && info->connection != XCB_RANDR_CONNECTION_CONNECTED) { continue; } auto crtc = conn.get_crtc_info(info->crtc); string name{info.name().begin(), info.name().end()}; monitors.emplace_back(make_monitor(*it, name, crtc->width, crtc->height, crtc->x, crtc->y)); } catch (const xpp::randr::error::bad_crtc&) { } catch (const xpp::randr::error::bad_output&) { } } // clang-format off const auto remove_monitor = [&](const monitor_t& monitor) { monitors.erase(find(monitors.begin(), monitors.end(), monitor)); }; // clang-format on for (auto m = monitors.rbegin(); m != monitors.rend(); m++) { if ((*m)->w == 0) { remove_monitor(*m); continue; } // Test if there are any clones in the set for (auto& monitor : monitors) { if ((*m) == monitor || monitor->w == 0) { continue; } // clang-format off if (monitor->x >= (*m)->x && monitor->x + monitor->w <= (*m)->x + (*m)->w && monitor->y >= (*m)->y && monitor->y + monitor->h <= (*m)->y + (*m)->h) { // Reset width so that the output gets // removed in the base loop monitor->w = 0; } // clang-format on } } sort(monitors.begin(), monitors.end(), [](monitor_t& m1, monitor_t& m2) -> bool { if (m1->x < m2->x || m1->y + m1->h <= m2->y) { return true; } if (m1->x > m2->x || m1->y + m1->h > m2->y) { return -1; } return false; }); return monitors; } /** * Get backlight value range for given output */ void get_backlight_range(connection& conn, const monitor_t& mon, backlight_values& dst) { auto atom = Backlight; auto reply = conn.query_output_property(mon->output, atom); dst.min = 0; dst.max = 0; if (!reply->range || reply->length != 2) { atom = BACKLIGHT; reply = conn.query_output_property(mon->output, atom); } if (!reply->range || reply->length != 2) { return; } auto range = reply.valid_values().begin(); dst.min = static_cast(*range++); dst.max = static_cast(*range); dst.atom = atom; } /** * Get backlight value for given output */ void get_backlight_value(connection& conn, const monitor_t& mon, backlight_values& dst) { dst.val = 0; if (!dst.atom) { return; } auto reply = conn.get_output_property(mon->output, dst.atom, XCB_ATOM_NONE, 0, 4, 0, 0); if (reply->num_items == 1 && reply->format == 32 && reply->type == XCB_ATOM_INTEGER) { dst.val = *reinterpret_cast(xcb_randr_get_output_property_data(reply.get().get())); } } } POLYBAR_NS_END