#include #include #include #include #include #include #include #include #include #include const char *argp_program_version = "mpd_control 0.3.0"; const char *argp_program_bug_address = ""; static char doc[] = "MPD blocket for i3blocks."; static char args_doc[] = "[OPTION]..."; static struct argp_option options[] = { { "interval", 'i', "interval", 0, "How frequently to update the status line (in seconds). Default: 1"}, { "length", 'l', "length", 0, "The length of the shown song label (in characters). Default: 25"}, { "step", 's', "step", 0, "How many characters to step the label while scrolling. Default: 3"}, { 0 } }; struct arguments { float interval; int length; int step; }; static struct arguments arguments; static error_t parse_opt(int key, char *arg, struct argp_state *state) { struct arguments *arguments = state->input; switch (key) { case 'i': if (!arg) break; float i = strtof(arg, NULL); if (!i || i < 0) { return EINVAL; } arguments->interval = i; break; case 'l': if (!arg) break; long l = strtol(arg, NULL, 10); if (!l || l < 0) { return EINVAL; } arguments->length = l; break; case 's': if (!arg) break; long s = strtol(arg, NULL, 10); if (!s || s < 0) { return EINVAL; } arguments->step = s; break; case ARGP_KEY_ARG: return 0; default: return ARGP_ERR_UNKNOWN; } return 0; } static struct argp argp = { options, parse_opt, args_doc, doc, 0, 0, 0 }; struct worker_state { int scroll_index; char* artist; char* album; char* title; char* full_label; size_t full_label_length; char* padded_label; size_t padded_label_length; }; static long long current_timestamp() { struct timeval te; gettimeofday(&te, NULL); return te.tv_sec*1000LL + te.tv_usec/1000; } static void scroll_text(const char *text_to_scroll, const size_t text_len, char *buffer, int *index, const int max_length) { if (*index - text_len > 0) *index %= text_len; char* first_char = g_utf8_offset_to_pointer(text_to_scroll, *index); const int overflow = text_len - *index - max_length; if (overflow <= 0) { g_utf8_strncpy(buffer, first_char, text_len-*index); g_utf8_strncpy(g_utf8_offset_to_pointer(buffer, text_len-*index), text_to_scroll, max_length-(text_len-*index)); } else { g_utf8_strncpy(buffer, first_char, max_length); } } static int handle_error(struct mpd_connection *conn, bool renew) { if (mpd_connection_get_error(conn) != MPD_ERROR_SUCCESS) { if (!renew) { fprintf(stderr, "%s\n", mpd_connection_get_error_message(conn)); } if (!mpd_connection_clear_error(conn)) { if (renew) { mpd_connection_free(conn); conn = mpd_connection_new(NULL, 0, 0); return handle_error(conn, false); } return EXIT_FAILURE; } else { return 0; } } return 0; } static void get_tag(struct mpd_song *song, char *tag, enum mpd_tag_type type) { const char *value; unsigned i = 0; while ((value = mpd_song_get_tag(song, type, i++)) != NULL) { strcpy(tag, value); break; } } static int print_status(struct mpd_connection *conn, struct worker_state *state) { struct mpd_status *status = mpd_run_status(conn); if (status == NULL) return handle_error(conn, false); char *play_icon = NULL; switch (mpd_status_get_state(status)) { case MPD_STATE_PLAY: play_icon = ""; break; case MPD_STATE_PAUSE: play_icon = ""; break; default: state->scroll_index = 0; printf("\n"); mpd_status_free(status); fflush(stdout); return 1; } const bool repeat = mpd_status_get_repeat(status); const bool random = mpd_status_get_random(status); char state_icon[16]; strcpy(state_icon, ""); if (repeat) strcat(state_icon, " "); if (random) strcat(state_icon, " "); const unsigned queue_pos = mpd_status_get_song_pos(status); const unsigned queue_length = mpd_status_get_queue_length(status); const unsigned elapsed = mpd_status_get_elapsed_time(status); const unsigned remaining = mpd_status_get_total_time(status) - elapsed; const unsigned remaining_mins = remaining / 60; const unsigned remaining_secs = remaining % 60; mpd_status_free(status); if (mpd_connection_get_error(conn) != MPD_ERROR_SUCCESS) return handle_error(conn, false); char artist[256]; char album[256]; char title[256]; struct mpd_song *song = mpd_run_current_song(conn); get_tag(song, artist, MPD_TAG_ARTIST); get_tag(song, album, MPD_TAG_ALBUM); get_tag(song, title, MPD_TAG_TITLE); mpd_song_free(song); if (mpd_connection_get_error(conn) != MPD_ERROR_SUCCESS) return handle_error(conn, false); if (strcmp(state->title, title) != 0 || strcmp(state->album, album) != 0 || strcmp(state->artist, artist) != 0) { strcpy(state->title, title); strcpy(state->album, album); strcpy(state->artist, artist); // The song changed, so let's update the full label... sprintf(state->full_label, "%s - %s", title, artist); state->full_label_length = g_utf8_strlen(state->full_label, -1); // ... and the padded label (if the full label is long enough) ... if (state->full_label_length > arguments.length) { sprintf(state->padded_label, "%s | ", state->full_label); state->padded_label_length = g_utf8_strlen(state->padded_label, -1); } // ... and reset the scroll index state->scroll_index = 0; } // The label we'll actually print char *label = NULL; if (state->full_label_length > arguments.length) { // If length of full label > scroll length, we'll scroll it // Allocate enough space for the buffer // Up to 4 bytes per character because utf8. label = alloca((arguments.length*4)+1); label[0] = '\0'; scroll_text(state->padded_label, state->padded_label_length, label, &state->scroll_index, arguments.length); } else { // Else we'll just point label directly to the full label label = state->full_label; } printf("%s%s %s (-%u:%02u) [%u/%u]\n", play_icon, state_icon, label, remaining_mins, remaining_secs, queue_pos+1, queue_length); fflush(stdout); return 0; } static inline long long max(int a, int b) { return a >= b? a : b; } void* status_loop(void* worker_state) { struct worker_state *state = (struct worker_state*)worker_state; struct mpd_connection *conn = mpd_connection_new(NULL, 0, 0); for (;;) { long long start = current_timestamp(); if (handle_error(conn, true) == 0 && print_status(conn, state) == 0) { state->scroll_index += arguments.step; } long long elapsed = current_timestamp() - start; usleep(max(0, ((arguments.interval*1000) - elapsed) * 1000)); } mpd_connection_free(conn); return NULL; } enum click_command { TOGGLE_PAUSE, NEXT, PREVIOUS, SEEK_FWD, SEEK_BCKWD }; void mpd_run_command(struct worker_state *state, enum click_command command) { struct mpd_connection *conn = mpd_connection_new(NULL, 0, 0); switch (command) { case TOGGLE_PAUSE: mpd_run_toggle_pause(conn); break; case NEXT: mpd_run_next(conn); break; case PREVIOUS: mpd_run_previous(conn); break; case SEEK_FWD: mpd_run_seek_current(conn, 3, true); break; case SEEK_BCKWD: mpd_run_seek_current(conn, -3, true); break; } print_status(conn, state); mpd_connection_free(conn); } int main(int argc, char *argv[]) { arguments.interval = 1.0f; arguments.length = 25; arguments.step = 3; argp_parse(&argp, argc, argv, 0, 0, &arguments); struct worker_state state = {0, malloc(256), malloc(256), malloc(256), malloc(1024), 0, malloc(1024), 0}; struct sigaction new_actn, old_actn; new_actn.sa_handler = SIG_IGN; sigemptyset(&new_actn.sa_mask); new_actn.sa_flags = 0; sigaction(SIGPIPE, &new_actn, &old_actn); pthread_t update_thread; if(pthread_create(&update_thread, NULL, status_loop, &state)) { fprintf(stderr, "Error creating thread\n"); return 1; } for (;;) { char *line = NULL; size_t size; if (getline(&line, &size, stdin) != -1) { if (strcmp(line, "1\n") == 0) { mpd_run_command(&state, PREVIOUS); } else if (strcmp(line, "2\n") == 0) { mpd_run_command(&state, TOGGLE_PAUSE); } else if (strcmp(line, "3\n") == 0) { mpd_run_command(&state, NEXT); } else if (strcmp(line, "4\n") == 0) { mpd_run_command(&state, SEEK_FWD); } else if (strcmp(line, "5\n") == 0) { mpd_run_command(&state, SEEK_BCKWD); } free(line); } } if(pthread_join(update_thread, NULL)) { fprintf(stderr, "Error joining thread\n"); return 2; } return 0; }