/* * * audacious.c: conky support for audacious music player * * Copyright (C) 2005-2007 Philip Kovacs pkovacs@users.sourceforge.net * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 * USA. * */ #include #include #include #include "audacious.h" #include "conky.h" #include "logging.h" #include "update-cb.hh" #include #ifdef NEW_AUDACIOUS_FOUND #include #include #include #else /* NEW_AUDACIOUS_FOUND */ #include #define audacious_remote_is_running(x) xmms_remote_is_running(x) #define audacious_remote_is_paused(x) xmms_remote_is_paused(x) #define audacious_remote_is_playing(x) xmms_remote_is_playing(x) #define audacious_remote_get_playlist_pos(x) xmms_remote_get_playlist_pos(x) #define audacious_remote_get_playlist_title(x, y) \ xmms_remote_get_playlist_title(x, y) #define audacious_remote_get_playlist_time(x, y) \ xmms_remote_get_playlist_time(x, y) #define audacious_remote_get_output_time(x) xmms_remote_get_output_time(x) #define audacious_remote_get_info(w, x, y, z) xmms_remote_get_info(w, x, y, z) #define audacious_remote_get_playlist_file(x, y) \ xmms_remote_get_playlist_file(x, y) #define audacious_remote_get_playlist_length(x) \ xmms_remote_get_playlist_length(x) #endif /* NEW_AUDACIOUS_FOUND */ namespace { enum aud_status { AS_NOT_RUNNING, AS_PAUSED, AS_PLAYING, AS_STOPPED }; const char *const as_message[] = {"Not running", "Paused", "Playing", "Stopped"}; struct aud_result { std::string title; std::string filename; int length; // in ms int position; // in ms int bitrate; int frequency; int channels; int playlist_length; int playlist_position; int main_volume; aud_status status; aud_result() : length(0), position(0), bitrate(0), frequency(0), channels(0), playlist_length(0), playlist_position(0), main_volume(0), status(AS_NOT_RUNNING) {} }; class audacious_cb : public conky::callback { typedef conky::callback Base; #ifdef NEW_AUDACIOUS_FOUND DBusGProxy *session; #else gint session; #endif protected: virtual void work(); public: audacious_cb(uint32_t period) : Base(period, false, Tuple()) { #ifdef NEW_AUDACIOUS_FOUND DBusGConnection *connection = dbus_g_bus_get(DBUS_BUS_SESSION, nullptr); if (!connection) throw std::runtime_error("unable to establish dbus connection"); session = dbus_g_proxy_new_for_name(connection, AUDACIOUS_DBUS_SERVICE, AUDACIOUS_DBUS_PATH, AUDACIOUS_DBUS_INTERFACE); if (!session) throw std::runtime_error("unable to create dbus proxy"); #else session = 0; #endif /* NEW_AUDACIOUS_FOUND */ } #ifdef NEW_AUDACIOUS_FOUND ~audacious_cb() { /* release reference to dbus proxy */ g_object_unref(session); } #endif }; /* --------------------------------------------------- * Worker thread function for audacious data sampling. * --------------------------------------------------- */ void audacious_cb::work() { aud_result tmp; gchar *psong, *pfilename; psong = nullptr; pfilename = nullptr; do { if (!audacious_remote_is_running(session)) { tmp.status = AS_NOT_RUNNING; break; } /* Player status */ if (audacious_remote_is_paused(session)) { tmp.status = AS_PAUSED; } else if (audacious_remote_is_playing(session)) { tmp.status = AS_PLAYING; } else { tmp.status = AS_STOPPED; } /* Current song title */ tmp.playlist_position = audacious_remote_get_playlist_pos(session); psong = audacious_remote_get_playlist_title(session, tmp.playlist_position); if (psong) { tmp.title = psong; g_free(psong); } /* Current song length */ tmp.length = audacious_remote_get_playlist_time(session, tmp.playlist_position); /* Current song position */ tmp.position = audacious_remote_get_output_time(session); /* Current song bitrate, frequency, channels */ audacious_remote_get_info(session, &tmp.bitrate, &tmp.frequency, &tmp.channels); /* Current song filename */ pfilename = audacious_remote_get_playlist_file(session, tmp.playlist_position); if (pfilename) { tmp.filename = pfilename; g_free(pfilename); } /* Length of the Playlist (number of songs) */ tmp.playlist_length = audacious_remote_get_playlist_length(session); /* Main volume */ tmp.main_volume = audacious_remote_get_main_volume(session); } while (0); { /* Deliver the refreshed items array to audacious_items. */ std::lock_guard lock(result_mutex); result = tmp; } } aud_result get_res() { uint32_t period = std::max( lround(music_player_interval.get(*state) / active_update_interval()), 1l); return conky::register_cb(period)->get_result_copy(); } } // namespace void print_audacious_status(struct text_object *, char *p, unsigned int p_max_size) { const aud_result &res = get_res(); snprintf(p, p_max_size, "%s", as_message[res.status]); } void print_audacious_title(struct text_object *obj, char *p, unsigned int p_max_size) { snprintf(p, std::min((unsigned int)obj->data.i, p_max_size), "%s", get_res().title.c_str()); } void print_audacious_filename(struct text_object *obj, char *p, unsigned int p_max_size) { snprintf(p, std::min((unsigned int)obj->data.i, p_max_size), "%s", get_res().filename.c_str()); } double audacious_barval(struct text_object *) { const aud_result &res = get_res(); return (double)res.position / res.length; } void print_audacious_length(struct text_object *, char *p, unsigned int p_max_size) { const aud_result &res = get_res(); int sec = res.length / 1000; snprintf(p, p_max_size, "%d:%.2d", sec / 60, sec % 60); } void print_audacious_length_seconds(struct text_object *, char *p, unsigned int p_max_size) { snprintf(p, p_max_size, "%d", get_res().length); } void print_audacious_position(struct text_object *, char *p, unsigned int p_max_size) { const aud_result &res = get_res(); int sec = res.position / 1000; snprintf(p, p_max_size, "%d:%.2d", sec / 60, sec % 60); } void print_audacious_position_seconds(struct text_object *, char *p, unsigned int p_max_size) { snprintf(p, p_max_size, "%d", get_res().position); } void print_audacious_bitrate(struct text_object *, char *p, unsigned int p_max_size) { snprintf(p, p_max_size, "%d", get_res().bitrate); } void print_audacious_frequency(struct text_object *, char *p, unsigned int p_max_size) { snprintf(p, p_max_size, "%d", get_res().frequency); } void print_audacious_channels(struct text_object *, char *p, unsigned int p_max_size) { snprintf(p, p_max_size, "%d", get_res().channels); } void print_audacious_playlist_length(struct text_object *, char *p, unsigned int p_max_size) { snprintf(p, p_max_size, "%d", get_res().playlist_length); } void print_audacious_playlist_position(struct text_object *, char *p, unsigned int p_max_size) { snprintf(p, p_max_size, "%d", get_res().playlist_position + 1); } void print_audacious_main_volume(struct text_object *, char *p, unsigned int p_max_size) { snprintf(p, p_max_size, "%d", get_res().main_volume); }