void Ut_TrackedVariantTests::trackerSignalEmited ()
{
      testClass tv("");
	QObject::connect(&tv, SIGNAL(changed()), this, SLOT(catchsignal()));
	tv.emitTestSignal();
	QVERIFY(cnt != 0);
}
void
Ut_ProfileValueTests::profilevalueNotifyValue()
{
#ifdef HAVE_LIBPROFILE
      cnt = 0;
      QProfileValue  pv("ringing.alert.volume");
      QObject::connect(&pv, SIGNAL(changed()), this, SLOT( catchsignal() ));
      QStringList list;
      list << "general" << "silent";
      QString profile = profile_get_profile();

      QProfileValue::notifyValue( profile.toAscii(), "ringing.alert.volume", 0, 0, &pv);
      QVERIFY( cnt );

      cnt = 0;
      QProfileValue::notifyValue( profile.toAscii(), "system.sound.level", 0, 0, &pv);

      QVERIFY( !cnt );

      if (profile == list.at(0))
            profile = list.at(1);
      else
            profile = list.at(0);

      QProfileValue::notifyValue( profile.toAscii(), "system.sound.level", 0, 0, &pv);
      QVERIFY( !cnt );
#endif
}
Beispiel #3
0
int
main(int argc, char **argv)
{
	int i = 0;
	int fp;

#ifdef f32c
	setup_f32c();
	maxfiles = MAXFILES;
#else
	catchsignal();
#endif
	startfp();              /* start up the floating point hardware */

	setup_fb();		/* video framebuffer */
#ifndef f32c
	setupfiles(argc,argv);
	setupmyterm();		/* set up files after processing files */
#endif
	program = 0;
	clear();
	prints("Rabbit BASIC version 2.1.3 (built " __DATE__ ")\n");
	if(setexit() == ERR_RESET){
		drop_fns();
		execute();	/* execute the line */
	}
	drop_fns();
	docont();
	stocurlin=0;            /* say we are in immeadiate mode */
	if(cursor)              /* put cursor on a blank line */
		prints( (char *)nl);
	
	if (firstrun && (
#ifdef f32c
	    (fp = open("d:autoexec.bas",0)) > 0 ||
#endif
	    (fp = open("autoexec.bas",0)) > 0)) {
		firstrun = 0;
		readfi(fp, 0, 0);
		close(fp);
        	clear();
        	if (program) {
        		stocurlin=program;
        		point= program->lin;
        		elsecount=0;
        		execute();
		}
	}
	firstrun = 0;

	prints("Ready\n");

	for(;;){
		do{
			trapped=0;
			line[0] = '>';
			line[1] = 0;
			VOID edit( (ival)1, (ival)1, (ival)0);
		}while( trapped || ( !(i=compile(1, nline, 0)) && !linenumber));
		if(!linenumber)
			break;
		insert(i);
	}
	if(inserted){
		inserted=0;
		clear();
		closeall();
	}

#ifdef MSDOS
	lcount = 0;
#endif
	clr_stack(bstack);	/* reset the gosub stack */
	bstack = estack = 0;
	if(str_used)		/* free any spare strings */
		FREE_STR(str_used);

	trap_env.e_stolin = 0;	/* disable error traps */
	intrap=0;               /* say we are not in the error trap */
	trapped=0;              /* say we haven't got a cntrl-c */
	cursor=0;               /* cursor is at start of line */
	elsecount=0;            /* disallow elses as terminators */
	point=nline;            /* start executing at start of input line */
	stocurlin=0;            /* start of current line is null- see 'next' */
	execute();              /* execute the line */
	return(-1);             /* see note below */
}
Beispiel #4
0
void buffer_loop(audio_output_t *ao, sigset_t *oldsigset)
{
	int bytes, outbytes;
	int my_fd = buffermem->fd[XF_READER];
	txfermem *xf = buffermem;
	int done = FALSE;
	int preload;

	catchsignal (SIGINT, catch_interrupt);
	catchsignal (SIGUSR1, catch_usr1);
	sigprocmask (SIG_SETMASK, oldsigset, NULL);

	xfermem_putcmd(my_fd, XF_CMD_WAKEUP);

	debug("audio output: waiting for cap requests");
	/* wait for audio setup queries */
	while(1)
	{
		int cmd;
		cmd = xfermem_block(XF_READER, xf);
		if(cmd == XF_CMD_AUDIOCAP)
		{
			ao->rate     = xf->rate;
			ao->channels = xf->channels;
			ao->format   = ao->get_formats(ao);
			debug3("formats for %liHz/%ich: 0x%x", ao->rate, ao->channels, ao->format);
			xf->format = ao->format;
			xfermem_putcmd(my_fd, XF_CMD_AUDIOCAP);
		}
		else if(cmd == XF_CMD_WAKEUP)
		{
			debug("got wakeup... leaving config mode");
			xfermem_putcmd(buffermem->fd[XF_READER], XF_CMD_WAKEUP);
			break;
		}
		else
		{
			error1("unexpected command %i", cmd);
			return;
		}
	}

	/* Fill complete buffer on first run before starting to play.
	 * Live mp3 streams constantly approach buffer underrun otherwise. [dk]
	 */
	preload = (int)(param.preload*xf->size);
	if(preload > xf->size) preload = xf->size;
	if(preload < 0) preload = 0;

	for (;;) {
		if (intflag) {
			debug("handle intflag... flushing");
			intflag = FALSE;
			ao->flush(ao);
			/* Either prepare for waiting or empty buffer now. */
			if(!xf->justwait) xf->readindex = xf->freeindex;
			else
			{
				int cmd;
				debug("Prepare for waiting; draining command queue. (There's a lot of wakeup commands pending, usually.)");
				do
				{
					cmd = xfermem_getcmd(my_fd, FALSE);
					/* debug1("drain: %i",  cmd); */
				} while(cmd > 0);
			}
			if(xf->wakeme[XF_WRITER]) xfermem_putcmd(my_fd, XF_CMD_WAKEUP);
		}
		if (usr1flag) {
			debug("handling usr1flag");
			usr1flag = FALSE;
			/*   close and re-open in order to flush
			 *   the device's internal buffer before
			 *   changing the sample rate.   [OF]
			 */
			/* writer must block when sending SIGUSR1
			 * or we will lose all data processed 
			 * in the meantime! [dk]
			 */
			xf->readindex = xf->freeindex;
			/* We've nailed down the new starting location -
			 * writer is now safe to go on. [dk]
			 */
			if (xf->wakeme[XF_WRITER])
				xfermem_putcmd(my_fd, XF_CMD_WAKEUP);
			ao->rate = xf->rate; 
			ao->channels = xf->channels; 
			ao->format = xf->format;
			if (reset_output(ao) < 0) {
				error1("failed to reset audio: %s", strerror(errno));
				exit(1);
			}
		}
		if ( (bytes = xfermem_get_usedspace(xf)) < outburst ) {
			/* if we got a buffer underrun we first
			 * fill 1/8 of the buffer before continue/start
			 * playing */
			if (preload < xf->size>>3)
				preload = xf->size>>3;
			if(preload < outburst)
				preload = outburst;
		}
		debug1("bytes: %i", bytes);
		if(xf->justwait || bytes < preload) {
			int cmd;
			if (done && !bytes) { 
				break;
			}
			
			if(xf->justwait || !done) {

				/* Don't spill into errno check below. */
				errno = 0;
				cmd = xfermem_block(XF_READER, xf);
				debug1("got %i", cmd);
				switch(cmd) {

					/* More input pending. */
					case XF_CMD_WAKEUP_INFO:
						continue;
					/* Yes, we know buffer is low but
					 * know we don't care.
					 */
					case XF_CMD_WAKEUP:
						break;	/* Proceed playing. */
					case XF_CMD_ABORT: /* Immediate end, discard buffer contents. */
						return; /* Cleanup happens outside of buffer_loop()*/
					case XF_CMD_TERMINATE: /* Graceful end, playing stuff in buffer and then return. */
						debug("going to terminate");
						done = TRUE;
						break;
					case XF_CMD_RESYNC:
						debug("ordered resync");
						if (param.outmode == DECODE_AUDIO) ao->flush(ao);

						xf->readindex = xf->freeindex;
						if (xf->wakeme[XF_WRITER]) xfermem_putcmd(my_fd, XF_CMD_WAKEUP);
						continue;
						break;
					case -1:
						if(intflag || usr1flag) /* Got signal, handle it at top of loop... */
						{
							debug("buffer interrupted");
							continue;
						}
						if(errno)
							error1("Yuck! Error in buffer handling... or somewhere unexpected: %s", strerror(errno));
						done = TRUE;
						xf->readindex = xf->freeindex;
						xfermem_putcmd(xf->fd[XF_READER], XF_CMD_TERMINATE);
						break;
					default:
						fprintf(stderr, "\nEh!? Received unknown command 0x%x in buffer process.\n", cmd);
				}
			}
		}
		/* Hack! The writer issues XF_CMD_WAKEUP when first adjust 
		 * audio settings. We do not want to lower the preload mark
		 * just yet!
		 */
		if (xf->justwait || !bytes)
			continue;
		preload = outburst; /* set preload to lower mark */
		if (bytes > xf->size - xf->readindex)
			bytes = xf->size - xf->readindex;
		if (bytes > outburst)
			bytes = outburst;

		/* The output can only take multiples of framesize. */
		bytes -= bytes % ao->framesize;

		debug("write");
		outbytes = flush_output(ao, (unsigned char*) xf->data + xf->readindex, bytes);

		if(outbytes < bytes)
		{
			if(outbytes < 0) outbytes = 0;
			if(!intflag && !usr1flag) {
				error1("Ouch ... error while writing audio data: %s", strerror(errno));
				/*
				 * done==TRUE tells writer process to stop
				 * sending data. There might be some latency
				 * involved when resetting readindex to 
				 * freeindex so we might need more than one
				 * cycle to terminate. (The number of cycles
				 * should be finite unless I managed to mess
				 * up something. ;-) [dk]
				 */
				done = TRUE;	
				xf->readindex = xf->freeindex;
				xfermem_putcmd(xf->fd[XF_READER], XF_CMD_TERMINATE);
			}
			else debug("buffer interrupted");
		}
		bytes = outbytes;

		xf->readindex = (xf->readindex + bytes) % xf->size;
		if (xf->wakeme[XF_WRITER])
			xfermem_putcmd(my_fd, XF_CMD_WAKEUP);
	}
}
Beispiel #5
0
int main(int sys_argc, char ** sys_argv)
{
	int result;
	char end_of_files = FALSE;
	long parr;
	char *fname;
	int libpar = 0;
	mpg123_pars *mp;
#if !defined(WIN32) && !defined(GENERIC)
	struct timeval start_time;
#endif
	aux_out = stdout; /* Need to initialize here because stdout is not a constant?! */
#if defined (WANT_WIN32_UNICODE)
	if(win32_cmdline_utf8(&argc, &argv) != 0)
	{
		error("Cannot convert command line to UTF8!");
		safe_exit(76);
	}
#else
	argv = sys_argv;
	argc = sys_argc;
#endif
#if defined (WANT_WIN32_SOCKETS)
	win32_net_init();
#endif

	/* Extract binary and path, take stuff before/after last / or \ . */
	if((prgName = strrchr(argv[0], '/')) || (prgName = strrchr(argv[0], '\\')))
	{
		/* There is some explicit path. */
		prgName[0] = 0; /* End byte for path. */
		prgName++;
		binpath = argv[0];
	}
	else
	{
		prgName = argv[0]; /* No path separators there. */
		binpath = NULL; /* No path at all. */
	}

	/* Need to initialize mpg123 lib here for default parameter values. */

	result = mpg123_init();
	if(result != MPG123_OK)
	{
		error1("Cannot initialize mpg123 library: %s", mpg123_plain_strerror(result));
		safe_exit(77);
	}
	cleanup_mpg123 = TRUE;

	mp = mpg123_new_pars(&result); /* This may get leaked on premature exit(), which is mainly a cosmetic issue... */
	if(mp == NULL)
	{
		error1("Crap! Cannot get mpg123 parameters: %s", mpg123_plain_strerror(result));
		safe_exit(78);
	}

	/* get default values */
	mpg123_getpar(mp, MPG123_DOWN_SAMPLE, &parr, NULL);
	param.down_sample = (int) parr;
	mpg123_getpar(mp, MPG123_RVA, &param.rva, NULL);
	mpg123_getpar(mp, MPG123_DOWNSPEED, &param.halfspeed, NULL);
	mpg123_getpar(mp, MPG123_UPSPEED, &param.doublespeed, NULL);
	mpg123_getpar(mp, MPG123_OUTSCALE, &param.outscale, NULL);
	mpg123_getpar(mp, MPG123_FLAGS, &parr, NULL);
	mpg123_getpar(mp, MPG123_INDEX_SIZE, &param.index_size, NULL);
	param.flags = (int) parr;
	param.flags |= MPG123_SEEKBUFFER; /* Default on, for HTTP streams. */
	mpg123_getpar(mp, MPG123_RESYNC_LIMIT, &param.resync_limit, NULL);
	mpg123_getpar(mp, MPG123_PREFRAMES, &param.preframes, NULL);

#ifdef OS2
        _wildcard(&argc,&argv);
#endif

	while ((result = getlopt(argc, argv, opts)))
	switch (result) {
		case GLO_UNKNOWN:
			fprintf (stderr, "%s: Unknown option \"%s\".\n", 
				prgName, loptarg);
			usage(1);
		case GLO_NOARG:
			fprintf (stderr, "%s: Missing argument for option \"%s\".\n",
				prgName, loptarg);
			usage(1);
	}
	/* Do this _after_ parameter parsing. */
	check_locale(); /* Check/set locale; store if it uses UTF-8. */

	if(param.list_cpu)
	{
		const char **all_dec = mpg123_decoders();
		printf("Builtin decoders:");
		while(*all_dec != NULL){ printf(" %s", *all_dec); ++all_dec; }
		printf("\n");
		mpg123_delete_pars(mp);
		return 0;
	}
	if(param.test_cpu)
	{
		const char **all_dec = mpg123_supported_decoders();
		printf("Supported decoders:");
		while(*all_dec != NULL){ printf(" %s", *all_dec); ++all_dec; }
		printf("\n");
		mpg123_delete_pars(mp);
		return 0;
	}
	if(param.gain != -1)
	{
	    warning("The parameter -g is deprecated and may be removed in the future.");
	}

	if (loptind >= argc && !param.listname && !param.remote) usage(1);
	/* Init audio as early as possible.
	   If there is the buffer process to be spawned, it shouldn't carry the mpg123_handle with it. */
	bufferblock = mpg123_safe_buffer(); /* Can call that before mpg123_init(), it's stateless. */
	if(init_output(&ao) < 0)
	{
		error("Failed to initialize output, goodbye.");
		mpg123_delete_pars(mp);
		return 99; /* It's safe here... nothing nasty happened yet. */
	}
	have_output = TRUE;

	/* ========================================================================================================= */
	/* Enterning the leaking zone... we start messing with stuff here that should be taken care of when leaving. */
	/* Don't just exit() or return out...                                                                        */
	/* ========================================================================================================= */

	httpdata_init(&htd);

#if !defined(WIN32) && !defined(GENERIC)
	if (param.remote)
	{
		param.verbose = 0;
		param.quiet = 1;
		param.flags |= MPG123_QUIET;
	}
#endif

	/* Set the frame parameters from command line options */
	if(param.quiet) param.flags |= MPG123_QUIET;

#ifdef OPT_3DNOW
	if(dnow != 0) param.cpu = (dnow == SET_3DNOW) ? "3dnow" : "i586";
#endif
	if(param.cpu != NULL && (!strcmp(param.cpu, "auto") || !strcmp(param.cpu, ""))) param.cpu = NULL;
	if(!(  MPG123_OK == (result = mpg123_par(mp, MPG123_VERBOSE, param.verbose, 0))
	    && ++libpar
	    && MPG123_OK == (result = mpg123_par(mp, MPG123_FLAGS, param.flags, 0))
	    && ++libpar
	    && MPG123_OK == (result = mpg123_par(mp, MPG123_DOWN_SAMPLE, param.down_sample, 0))
	    && ++libpar
	    && MPG123_OK == (result = mpg123_par(mp, MPG123_RVA, param.rva, 0))
	    && ++libpar
	    && MPG123_OK == (result = mpg123_par(mp, MPG123_FORCE_RATE, param.force_rate, 0))
	    && ++libpar
	    && MPG123_OK == (result = mpg123_par(mp, MPG123_DOWNSPEED, param.halfspeed, 0))
	    && ++libpar
	    && MPG123_OK == (result = mpg123_par(mp, MPG123_UPSPEED, param.doublespeed, 0))
	    && ++libpar
	    && MPG123_OK == (result = mpg123_par(mp, MPG123_ICY_INTERVAL, 0, 0))
	    && ++libpar
	    && MPG123_OK == (result = mpg123_par(mp, MPG123_RESYNC_LIMIT, param.resync_limit, 0))
	    && ++libpar
	    && MPG123_OK == (result = mpg123_par(mp, MPG123_TIMEOUT, param.timeout, 0))
	    && ++libpar
	    && MPG123_OK == (result = mpg123_par(mp, MPG123_OUTSCALE, param.outscale, 0))
	    && ++libpar
	    && MPG123_OK == (result = mpg123_par(mp, MPG123_PREFRAMES, param.preframes, 0))
			))
	{
		error2("Cannot set library parameter %i: %s", libpar, mpg123_plain_strerror(result));
		safe_exit(45);
	}
	if (!(param.listentry < 0) && !param.quiet) print_title(stderr); /* do not pollute stdout! */

	{
		long default_index;
		mpg123_getpar(mp, MPG123_INDEX_SIZE, &default_index, NULL);
		if( param.index_size != default_index && (result = mpg123_par(mp, MPG123_INDEX_SIZE, param.index_size, 0.)) != MPG123_OK )
		error1("Setting of frame index size failed: %s", mpg123_plain_strerror(result));
	}

	if(param.force_rate && param.down_sample)
	{
		error("Down sampling and fixed rate options not allowed together!");
		safe_exit(1);
	}

	/* Now actually get an mpg123_handle. */
	mh = mpg123_parnew(mp, param.cpu, &result);
	if(mh == NULL)
	{
		error1("Crap! Cannot get a mpg123 handle: %s", mpg123_plain_strerror(result));
		safe_exit(77);
	}
	mpg123_delete_pars(mp); /* Don't need the parameters anymore ,they're in the handle now. */

	/* Prepare stream dumping, possibly replacing mpg123 reader. */
	if(dump_open(mh) != 0) safe_exit(78);

	/* Now either check caps myself or query buffer for that. */
	audio_capabilities(ao, mh);

	load_equalizer(mh);

#ifdef HAVE_SETPRIORITY
	if(param.aggressive) { /* tst */
		int mypid = getpid();
		setpriority(PRIO_PROCESS,mypid,-20);
	}
#endif

#if defined (HAVE_SCHED_SETSCHEDULER) && !defined (__CYGWIN__) && !defined (HAVE_WINDOWS_H)
/* Cygwin --realtime seems to fail when accessing network, using win32 set priority instead */
/* MinGW may have pthread installed, we prefer win32API */
	if (param.realtime) {  /* Get real-time priority */
	  struct sched_param sp;
	  fprintf(stderr,"Getting real-time priority\n");
	  memset(&sp, 0, sizeof(struct sched_param));
	  sp.sched_priority = sched_get_priority_min(SCHED_FIFO);
	  if (sched_setscheduler(0, SCHED_RR, &sp) == -1)
	    fprintf(stderr,"Can't get real-time priority\n");
	}
#endif

#ifdef HAVE_WINDOWS_H
	/* argument "3" is equivalent to realtime priority class */
	win32_set_priority( param.realtime ? 3 : param.w32_priority);
#endif

	if(!param.remote) prepare_playlist(argc, argv);

#if !defined(WIN32) && !defined(GENERIC)
	/* Remote mode is special... but normal console and terminal-controlled operation needs to catch the SIGINT.
	   For one it serves for track skip when not in terminal control mode.
	   The more important use being a graceful exit, including telling the buffer process what's going on. */
	if(!param.remote) catchsignal (SIGINT, catch_interrupt);
#endif

	if(param.remote) {
		int ret;
		ret = control_generic(mh);
		safe_exit(ret);
	}
#ifdef HAVE_TERMIOS
		debug1("param.term_ctrl: %i", param.term_ctrl);
		if(param.term_ctrl)
			term_init();
#endif
	if(APPFLAG(MPG123APP_CONTINUE)) frames_left = param.frame_number;

	while ((fname = get_next_file()))
	{
		char *dirname, *filename;
		int newdir;
		/* skip_tracks includes the previous one. */
		if(skip_tracks) --skip_tracks;
		if(skip_tracks)
		{
			debug("Skipping this track.");
			continue;
		}
		if(param.delay > 0)
		{
			/* One should enable terminal control during that sleeping phase! */
			if(param.verbose > 2) fprintf(stderr, "Note: pausing %i seconds before next track.\n", param.delay);
			output_pause(ao);
#ifdef WIN32
			Sleep(param.delay*1000);
#else
			sleep(param.delay);
#endif
			output_unpause(ao);
		}
		if(!APPFLAG(MPG123APP_CONTINUE)) frames_left = param.frame_number;

		debug1("Going to play %s", strcmp(fname, "-") ? fname : "standard input");

		if(intflag || !open_track(fname))
		{
#ifdef HAVE_TERMIOS
			/* We need the opportunity to cancel in case of --loop -1 . */
			if(param.term_ctrl) term_control(mh, ao);
#endif
			/* No wait for a second interrupt before we started playing. */
			if(intflag) break;

			continue;
		}

		if(!param.quiet) fprintf(stderr, "\n");
		if(param.index)
		{
			if(param.verbose) fprintf(stderr, "indexing...\r");
			mpg123_scan(mh);
		}
		/*
			Only trigger a seek if we do not want to start with the first frame.
			Rationale: Because of libmpg123 sample accuracy, this could cause an unnecessary backwards seek, that even may fail on non-seekable streams.
			For start frame of 0, we are already at the correct position!
		*/
		framenum = 0;
		if(param.start_frame > 0)
		framenum = mpg123_seek_frame(mh, param.start_frame, SEEK_SET);

		if(APPFLAG(MPG123APP_CONTINUE)) param.start_frame = 0;

		if(framenum < 0)
		{
			error1("Initial seek failed: %s", mpg123_strerror(mh));
			if(mpg123_errcode(mh) == MPG123_BAD_OUTFORMAT)
			{
				fprintf(stderr, "%s", "So, you have trouble getting an output format... this is the matrix of currently possible formats:\n");
				print_capabilities(ao, mh);
				fprintf(stderr, "%s", "Somehow the input data and your choices don't allow one of these.\n");
			}
			mpg123_close(mh);
			continue;
		}

		/* Prinout and xterm title need this, possibly independently. */
		newdir = split_dir_file(fname ? fname : "standard input", &dirname, &filename);

		if (!param.quiet)
		{
			if(newdir) fprintf(stderr, "Directory: %s\n", dirname);

#ifdef HAVE_TERMIOS
		/* Reminder about terminal usage. */
		if(param.term_ctrl) term_hint();
#endif


			fprintf(stderr, "Playing MPEG stream %lu of %lu: %s ...\n", (unsigned long)pl.pos, (unsigned long)pl.fill, filename);
			if(htd.icy_name.fill) fprintf(stderr, "ICY-NAME: %s\n", htd.icy_name.p);
			if(htd.icy_url.fill)  fprintf(stderr, "ICY-URL: %s\n",  htd.icy_url.p);
		}
#if !defined(GENERIC)
{
	const char *term_type;
	term_type = getenv("TERM");
	if(term_type && param.xterm_title)
	{
		if(!strncmp(term_type,"xterm",5) || !strncmp(term_type,"rxvt",4))
		fprintf(stderr, "\033]0;%s\007", filename);
		else if(!strncmp(term_type,"screen",6))
		fprintf(stderr, "\033k%s\033\\", filename);
		else if(!strncmp(term_type,"iris-ansi",9))
		fprintf(stderr, "\033P1.y %s\033\\\033P3.y%s\033\\", filename, filename);

		fflush(stderr); /* Paranoia: will the buffer buffer the escapes? */
	}
}
#endif

/* Rethink that SIGINT logic... */
#if !defined(WIN32) && !defined(GENERIC)
#ifdef HAVE_TERMIOS
		if(!param.term_ctrl)
#endif
			gettimeofday (&start_time, NULL);
#endif

		while(!intflag)
		{
			int meta;
			if(param.frame_number > -1)
			{
				debug1("frames left: %li", (long) frames_left);
				if(!frames_left)
				{
					if(APPFLAG(MPG123APP_CONTINUE)) end_of_files = TRUE;

					break;
				}
			}
			if(!play_frame()) break;
			if(!param.quiet)
			{
				meta = mpg123_meta_check(mh);
				if(meta & (MPG123_NEW_ID3|MPG123_NEW_ICY))
				{
					if(meta & MPG123_NEW_ID3) print_id3_tag(mh, param.long_id3, stderr);
					if(meta & MPG123_NEW_ICY) print_icy(mh, stderr);

					mpg123_meta_free(mh); /* Do not waste memory after delivering. */
				}
			}
			if(!fresh && param.verbose)
			{
#ifndef NOXFERMEM
				if (param.verbose > 1 || !(framenum & 0x7))
					print_stat(mh,0,xfermem_get_usedspace(buffermem)); 
#else
				if(param.verbose > 1 || !(framenum & 0x7))	print_stat(mh,0,0);
#endif
			}
#ifdef HAVE_TERMIOS
			if(!param.term_ctrl) continue;
			else term_control(mh, ao);
#endif
		}

	if(!param.smooth && param.usebuffer) buffer_drain();
	if(param.verbose) print_stat(mh,0,xfermem_get_usedspace(buffermem)); 

	if(!param.quiet)
	{
		double secs;
		long frank;
		fprintf(stderr, "\n");
		if(mpg123_getstate(mh, MPG123_FRANKENSTEIN, &frank, NULL) == MPG123_OK && frank)
		fprintf(stderr, "This was a Frankenstein track.\n");

		mpg123_position(mh, 0, 0, NULL, NULL, &secs, NULL);
		fprintf(stderr,"[%d:%02d] Decoding of %s finished.\n", (int)(secs / 60), ((int)secs) % 60, filename);
	}
	else if(param.verbose) fprintf(stderr, "\n");

	mpg123_close(mh);

	if (intflag)
	{
		if(!skip_or_die(&start_time)) break;

        intflag = FALSE;

#ifndef NOXFERMEM
        if(!param.smooth && param.usebuffer) buffer_resync();
#endif
	}

		if(end_of_files) break;
	} /* end of loop over input files */

	/* Ensure we played everything. */
	if(param.smooth && param.usebuffer)
	{
		buffer_drain();
		buffer_resync();
	}

	if(APPFLAG(MPG123APP_CONTINUE))
	{
		continue_msg("CONTINUE");
	}

	/* Free up memory used by playlist */    
	if(!param.remote) free_playlist();

	safe_exit(0); /* That closes output and restores terminal, too. */
	return 0;
}
Beispiel #6
0
void buffer_loop(struct audio_info_struct *ai, sigset_t *oldsigset)
{
	int bytes;
	int my_fd = buffermem->fd[XF_READER];
	txfermem *xf = buffermem;
	int done = FALSE;

	catchsignal (SIGINT, catch_interrupt);
	catchsignal (SIGUSR1, catch_usr1);
	sigprocmask (SIG_SETMASK, oldsigset, NULL);
#ifndef NO_DECODE_AUDIO
	if (param.outmode == DECODE_AUDIO) {
		if (audio_open(ai) < 0) {
			perror("audio");
			exit(1);
		}
	}
#endif

	for (;;) {
		if (intflag) {
			intflag = FALSE;
#ifndef NO_DECODE_AUDIO
			if (param.outmode == DECODE_AUDIO)
				audio_queueflush (ai);
#endif
			xf->readindex = xf->freeindex;
			if (xf->wakeme[XF_WRITER])
				xfermem_putcmd(my_fd, XF_CMD_WAKEUP);
		}
		if (usr1flag) {
			usr1flag = FALSE;
			/*   close and re-open in order to flush
			 *   the device's internal buffer before
			 *   changing the sample rate.   [OF]
			 */
			/* writer must block when sending SIGUSR1
			 * or we will lose all data processed 
			 * in the meantime! [dk]
			 */
			xf->readindex = xf->freeindex;
			/* We've nailed down the new starting location -
			 * writer is now safe to go on. [dk]
			 */
			if (xf->wakeme[XF_WRITER])
				xfermem_putcmd(my_fd, XF_CMD_WAKEUP);
#ifndef NO_DECODE_AUDIO
			if (param.outmode == DECODE_AUDIO) {
				audio_close (ai);
				ai->rate = xf->buf[0]; 
				ai->channels = xf->buf[1]; 
				ai->format = xf->buf[2];
				if (audio_open(ai) < 0) {
					sleep(1);
					/* give em a 2. try */
					if (audio_open(ai) < 0) {
						perror("audio");
						exit(1);
					}
				}
			}
#endif
		}
		if ( (bytes = xfermem_get_usedspace(xf)) < outburst ) {
			/* if we got a buffer underrun we first
			 * fill 1/8 of the buffer before continue/start
			 * playing */
			preload = xf->size>>3;
			if(preload < outburst)
				preload = outburst;
		}
		if(bytes < preload) {
			int cmd;
			if (done && !bytes) { 
				break;
			}

			if(!done) {

				cmd = xfermem_block(XF_READER, xf);

				switch(cmd) {

					/* More input pending. */
					case XF_CMD_WAKEUP_INFO:
						continue;
					/* Yes, we know buffer is low but
					 * know we don't care.
					 */
					case XF_CMD_WAKEUP:
						break;	/* Proceed playing. */
					case XF_CMD_TERMINATE:
						/* Proceed playing without 
						 * blocking any further.
						 */
						done=TRUE;
						break;
					case -1:
						if(errno==EINTR)
							continue;
						perror("Yuck! Error in buffer handling...");
						done = TRUE;
						xf->readindex = xf->freeindex;
						xfermem_putcmd(xf->fd[XF_READER], XF_CMD_TERMINATE);
						break;
					default:
						fprintf(stderr, "\nEh!? Received unknown command 0x%x in buffer process. Tell Daniel!\n", cmd);
				}
			}
		}
		preload = outburst; /* set preload to lower mark */
		if (bytes > xf->size - xf->readindex)
			bytes = xf->size - xf->readindex;
		if (bytes > outburst)
			bytes = outburst;

		if (param.outmode == DECODE_FILE)
			bytes = write(OutputDescriptor, xf->data + xf->readindex, bytes);
#ifndef NO_DECODE_AUDIO
		else if (param.outmode == DECODE_AUDIO)
			bytes = audio_play_samples(ai,
				(unsigned char *) (xf->data + xf->readindex), bytes);
#endif

		if(bytes < 0) {
			bytes = 0;
			if(errno != EINTR) {
				perror("Ouch ... error while writing audio data: ");
				/*
				 * done==TRUE tells writer process to stop
				 * sending data. There might be some latency
				 * involved when resetting readindex to 
				 * freeindex so we might need more than one
				 * cycle to terminate. (The number of cycles
				 * should be finite unless I managed to mess
				 * up something. ;-) [dk]
				 */
				done = TRUE;	
				xf->readindex = xf->freeindex;
				xfermem_putcmd(xf->fd[XF_READER], XF_CMD_TERMINATE);
			}
		}

		xf->readindex = (xf->readindex + bytes) % xf->size;
		if (xf->wakeme[XF_WRITER])
			xfermem_putcmd(my_fd, XF_CMD_WAKEUP);
	}