#ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include #include #define VERSION "0.2.2" #define SAMPLERATE 48000 #define BUFFER_SIZE 250000 static char *note_name[] = { "C ", "C#", "D ", "D#", "E ", "F ", "F#", "G ", "G#", "A ", "A#", "B " }; void updateTrack(char* name, char* type); void renderRows(WINDOW* win, xmp_module_info *mi, xmp_frame_info *fi); char getEffectType(int i); static char *device = "default"; int chanOffset = 0; int detail = 1; int vol = 100; bool looper = false, is_stopped = false; int main(int argc, char *argv[]) { printf("Trakker %s (with libxmp %s)\n", VERSION, xmp_version); int time, key, err, row, pos; bool fupdate = false; snd_pcm_t *handle; snd_pcm_sframes_t frames; if ((err = snd_pcm_open(&handle, device, SND_PCM_STREAM_PLAYBACK, 0)) < 0) { printf("Playback open error: %s\n", snd_strerror(err)); exit(EXIT_FAILURE); } if ((err = snd_pcm_set_params(handle, SND_PCM_FORMAT_S16, SND_PCM_ACCESS_RW_INTERLEAVED, 2, SAMPLERATE, 1, BUFFER_SIZE)) < 0) { printf("Playback open error: %s\n", snd_strerror(err)); exit(EXIT_FAILURE); } printf("Using Audio Driver: %s\n", "ALSA"); xmp_context c; c = xmp_create_context(); if (xmp_load_module(c, argv[1]) != 0) { fprintf(stderr, "Failed to load Module: %s\n", argv[1]); exit(EXIT_FAILURE); } struct xmp_module_info mi; struct xmp_frame_info fi; printf("Loaded module: %s\n", argv[1]); WINDOW *win; initscr(); if (LINES < 5 || COLS < 5) { endwin(); fprintf(stderr, "ncurses failed: Display is too small.\n"); exit(EXIT_FAILURE); } if(has_colors() == FALSE) { endwin(); fprintf(stderr, "ncurses failed: No color support.\n"); exit(EXIT_FAILURE); } start_color(); if (can_change_color() == TRUE) { init_color(COLOR_BLACK, 0, 0, 0); } else { printf("Color changing not supported!\n"); } init_pair(1, COLOR_WHITE, COLOR_BLUE); // PLAYHEAD init_pair(2, COLOR_WHITE, COLOR_RED); // PAUSED cbreak(); noecho(); curs_set(0); win = newwin(LINES-2, COLS-2, 1, 1); keypad(win, TRUE); wmove(win, 0, 0); wprintw(win, ""); printf("Loaded ncurses display.\n"); refresh(); xmp_get_module_info(c, &mi); row = pos = -1; chanOffset = 0; xmp_start_player(c, SAMPLERATE, 0); updateTrack(mi.mod->name, mi.mod->type); while (true) { xmp_get_frame_info(c, &fi); if (xmp_play_frame(c) != 0 && !is_stopped) break; if (!looper && fi.loop_count > 0) break; mvprintw( 0, COLS-11, "%02u:%02u/%02u:%02u", ((fi.time / 1000) / 60) % 60, (fi.time / 1000) % 60, ((fi.total_time / 1000) / 60) % 60, (fi.total_time / 1000) % 60 ); keys: wtimeout(win, is_stopped?-1:0); if ((key = wgetch(win)) != 0) { vol = xmp_get_player(c, XMP_PLAYER_VOLUME); switch (key) { case ' ': // Pause/Play time = fi.time; is_stopped = !is_stopped; break; case KEY_LEFT: // Move Channels Left if (chanOffset > 0) chanOffset--; break; case KEY_RIGHT: // Move Channels Right if (chanOffset < mi.mod->chn-1) chanOffset++; break; case KEY_UP: // Seek Up if (is_stopped) fi.row--; else xmp_set_position(c, fi.pos-1); break; case KEY_DOWN: // Seek Down if (is_stopped) fi.row++; else xmp_set_position(c, fi.pos+1); break; case '+': if (vol < 100) xmp_set_player(c, XMP_PLAYER_VOLUME, vol+=5); break; case '-': if (vol > 0) xmp_set_player(c, XMP_PLAYER_VOLUME, vol-=5); break; case 'l': looper = !looper; break; case '0': detail = 0; break; case '1': detail = 1; break; case '2': detail = 2; break; case '3': detail = 3; break; case '4': detail = 4; break; }; renderRows(win, &mi, &fi); } if (!is_stopped) { frames = snd_pcm_bytes_to_frames(handle, fi.buffer_size); if (snd_pcm_writei(handle, fi.buffer, frames) < 0) { snd_pcm_prepare(handle); } if (fi.pos != pos) { pos = fi.pos; row = -1; } if (fi.row != row) { renderRows(win, &mi, &fi); row = fi.row; fupdate = false; } } else goto keys; } printf("Closing ncurses...\n"); clrtoeol(); refresh(); endwin(); printf("Releasing libxmp...\n"); xmp_end_player(c); xmp_release_module(c); xmp_free_context(c); printf("Shutting down audio driver...\n"); err = snd_pcm_drain(handle); if (err < 0) printf("snd_pcm_drain failed: %s\n", snd_strerror(err)); snd_pcm_close(handle); return 0; } void updateTrack(char* name, char* type) { mvprintw( 0, 0, "%s (%s)", name, type ); } void renderRows(WINDOW* win, xmp_module_info *mi, xmp_frame_info *fi) { werase(win); move(LINES-1, 0); wclrtoeol(stdscr); mvprintw( LINES-1, 0, "[%c] PAT:%02x:%02x/%02x BPM:%02u SPD:%02u CHAN:%02u/%02u VOL:%03u d%i %s", is_stopped?'x':'>', fi->pos, fi->pattern, mi->mod->pat, fi->bpm, fi->speed, chanOffset+1, mi->mod->chn, vol, detail+1, looper?"LOOP ":"" ); int view_chanOffset = chanOffset; int view_detail = detail; int dlvl; if (detail == 4) dlvl = 19; else if (detail == 3) dlvl = 15; else if (detail == 2) dlvl = 11; else if (detail == 1) dlvl = 7; else dlvl = 2; for (int y = 0; y < LINES - 2; y++) { int trow = (fi->row - ((LINES - 2) / 2))+y; if (trow > fi->num_rows-1 || trow < 0) { continue;} if (trow == fi->row) { wattron(win, COLOR_PAIR(is_stopped?2:1)); wattron(win, A_BOLD); } else { wattroff(win, COLOR_PAIR(is_stopped?2:1)); wattroff(win, A_BOLD); } wmove(win, y, 0); wprintw(win, "%02X", trow); int coff = ((COLS - 2) % dlvl); int maxcol = -1; for (int i = chanOffset; i < mi->mod->chn; i++) { if (coff+(((i-chanOffset)+1)*dlvl)+dlvl > COLS) { maxcol = i; break; } wmove(win, y, coff+((i-chanOffset)*dlvl)+2); int track = mi->mod->xxp[fi->pattern]->index[i]; struct xmp_event event = mi->mod->xxt[track]->event[trow]; if (i > 0 && i == chanOffset) wprintw(win, "<"); else wprintw(win, "|"); if (detail >= 1) { if (event.note > 0x80) { wprintw(win, "=== "); } else if (event.note > 0) { int note = event.note - 1; wprintw(win, "%s%d ", note_name[note % 12], note / 12); } else { wprintw(win, "--- "); } if (event.ins > 0) { wprintw(win, "%02X", event.ins); } else { wprintw(win, "--"); } if (detail >= 2) { int vol; if ((vol = event.vol) != 0) { // I made this wall... // Then I realized libxmp does not give this wall purpose... /* char v = '?'; if (vol <= 0x50) { v = 'v'; vol--; } else if (vol >= 0x60 && vol <= 0x6F) { v = 'd'; vol - 0x50; } else if (vol >= 0x70 && vol <= 0x7F) { v = 'c'; vol - 0x60; } else if (vol >= 0x80 && vol <= 0x8F) { v = 'b'; vol - 0x70; } else if (vol >= 0x90 && vol <= 0x9F) { v = 'a'; vol - 0x80; } else if (vol >= 0xA0 && vol <= 0xAF) { v = 'u'; vol - 0x90; } else if (vol >= 0xB0 && vol <= 0xBF) { v = 'h'; vol - 0xA0; } else if (vol >= 0xC0 && vol <= 0xCF) { v = 'p'; vol - 0xB0; } else if (vol >= 0xD0 && vol <= 0xDF) { v = 'l'; vol - 0xC0; } else if (vol >= 0xE0 && vol <= 0xEF) { v = 'r'; vol - 0xD0; } else if (vol >= 0xF0 && vol <= 0xFF) { v = 'g'; vol - 0xE0; } */ char v = 'v'; wprintw(win, " %c%02i", v, vol); } else { wprintw(win, " ---"); } if (detail >= 3) { char f1; if ((f1 = getEffectType(event.fxt)) != 0) wprintw(win, " %c%02X", f1, event.fxp); else wprintw(win, " ---"); if (detail >= 4) { char f2; if ((f2 = getEffectType(event.fxt)) != 0) wprintw(win, " %c%02X", f2, event.f2p); else wprintw(win, " ---"); } } } } else { if (event.note > 0x80) { wprintw(win, "-"); } else if (event.note > 0) { wprintw(win, "#"); } else { wprintw(win, " "); } } view_chanOffset = chanOffset; view_detail = detail; } if (maxcol < mi->mod->chn && maxcol > 0) wprintw(win, ">"); else wprintw(win, "|"); } refresh(); wrefresh(win); } char getEffectType(int i) { // The effect type characters are so strange to me. // They make absolutely no sense in why it's setup this way. // Maybe I'm mega stupid right now but this is all of the IT // formats effects, so maybe this will cover everything enough. // Broken, but not crashy-broken anymore. switch(i) { case 1: return 'F'; case 2: return 'E'; case 3: return 'G'; case 4: return 'H'; case 5: return 'L'; case 6: return 'K'; case 7: return 'R'; case 8: return 'X'; case 9: return 'O'; case 10: return 'D'; case 11: return 'B'; case 16: return 'V'; case 17: return 'W'; case 27: return 'Q'; case 29: return 'I'; case 128: return 'M'; case 129: return 'N'; case 132: return 'Z'; case 135: return 'T'; case 137: return 'P'; case 138: return 'Y'; case 142: return 'C'; case 163: return 'A'; case 172: return 'U'; case 180: return 'J'; default: return 0x00; } }