JNIEXPORT jint JNICALL
Java_org_helllabs_android_xmp_Xmp_init(JNIEnv *env, jobject obj)
{
	xmp_drv_register(&drv_smix);
	ctx = xmp_create_context();
	xmp_init(ctx, 0, NULL);
	opt = xmp_get_options(ctx);
	opt->verbosity = 0;

	xmp_register_event_callback(ctx, process_echoback, NULL);
	_playing = 0;

	opt->freq = 44100;
	opt->resol = 16;
	opt->outfmt &= ~XMP_FMT_MONO;
	opt->flags |= XMP_CTL_ITPT | XMP_CTL_FILTER;

	if (xmp_open_audio(ctx) < 0) {
		xmp_deinit(ctx);
		xmp_free_context(ctx);
		return -1;
	}

	return 0;
}
Exemplo n.º 2
0
static void play_file(char *filename)
{
	int channelcnt = 1;
	FILE *f;
	struct xmp_options *opt;
	int lret;
	GtkTextIter start, end;
	AFormat fmt;
	int nch;
	
	opt = xmp_get_options(ctx);

	_D("play_file: %s", filename);

	stop();		/* sanity check */

	if ((f = fopen(filename,"rb")) == 0) {
		playing = 0;
		return;
	}
	fclose(f);

	gtk_text_buffer_get_start_iter(text1b, &start);
	gtk_text_buffer_get_end_iter(text1b, &end);
	gtk_text_buffer_delete(text1b, &start, &end);
	
	xmp_plugin_audio_error = FALSE;
	playing = 1;

	opt->resol = 8;
	opt->verbosity = 3;
	opt->drv_id = "callback";

	switch (xmp_cfg.mixing_freq) {
	case 1:
		opt->freq = 22050;	/* 1:2 mixing freq */
		break;
	case 2:
		opt->freq = 11025;	/* 1:4 mixing freq */
		break;
	default:
		opt->freq = 44100;	/* standard mixing freq */
		break;
	}

	if (xmp_cfg.force8bit == 0)
		opt->resol = 16;

	if (xmp_cfg.force_mono == 0) {
		channelcnt = 2;
		opt->outfmt &= ~XMP_FMT_MONO;
	} else {
		opt->outfmt |= XMP_FMT_MONO;
	}

	if (xmp_cfg.interpolation == 1)
		opt->flags |= XMP_CTL_ITPT;
	else
		opt->flags &= ~XMP_CTL_ITPT;

	if (xmp_cfg.filter == 1)
		opt->flags |= XMP_CTL_FILTER;
	else
		opt->flags &= ~XMP_CTL_FILTER;

	opt->mix = xmp_cfg.pan_amplitude;

	fmt = opt->resol == 16 ? FMT_S16_NE : FMT_U8;
	nch = opt->outfmt & XMP_FMT_MONO ? 1 : 2;
	
	if (audio_open)
	    xmp_ip.output->close_audio();
	
	if (!xmp_ip.output->open_audio(fmt, opt->freq, nch)) {
	    xmp_plugin_audio_error = TRUE;
	    return;
	}
	
	audio_open = TRUE;

	xmp_open_audio(ctx);

	pipe(fd_info);
	fd_old2 = dup (fileno (stderr));
	dup2(fd_info[1], fileno (stderr));
	fflush(stderr);
	pthread_create(&catch_thread, NULL, catch_info, NULL);

	_D("*** loading: %s", filename);
	pthread_mutex_lock(&load_mutex);
	lret =  xmp_load_module(ctx, filename);
	pthread_mutex_unlock(&load_mutex);

	if (lret < 0) {
		xmp_ip.set_info_text("Error loading mod");
		playing = 0;
		return;
	}

	_D("joining catch thread");
	pthread_join(catch_thread, NULL);
	_D("joined");
	dup2(fileno(stderr), fd_old2);

	gtk_adjustment_set_value(GTK_TEXT_VIEW(text1)->vadjustment, 0.0);

	close(fd_info[0]);
	close(fd_info[1]);

	_D ("before panel update");

	xmp_cfg.time = lret; //xmpi_scan_module((struct xmp_context *)ctx);
	xmp_get_module_info(ctx, &ii->mi);
	strcpy(ii->filename, "");

	new_module = 1;

	_D("after panel update");

	memcpy(&xmp_cfg.mod_info, &ii->mi, sizeof (ii->mi));

	xmp_ip.set_info(ii->mi.name, lret, 0, opt->freq, channelcnt);
	pthread_create(&decode_thread, NULL, play_loop, NULL);
}
Exemplo n.º 3
0
static void play_file(InputPlayback *ipb)
{
	char *filename = ipb->filename;
	int channelcnt = 1;
	FILE *f;
	struct xmp_options *opt;
	int lret;
	GtkTextIter start, end;
	
	opt = xmp_get_options(ctx);

	/* Sorry, no VFS support */
	if (memcmp(filename, "file://", 7) == 0)	/* Audacious 1.4.0 */
		filename += 7;

	_D("play_file: %s", filename);

	stop(ipb);	/* sanity check */

	if ((f = fopen(filename,"rb")) == 0) {
		ipb->playing = 0;
		return;
	}
	fclose(f);

	gtk_text_buffer_get_start_iter(text1b, &start);
	gtk_text_buffer_get_end_iter(text1b, &end);
	gtk_text_buffer_delete(text1b, &start, &end);

	xmp_plugin_audio_error = FALSE;
	ipb->playing = 1;

	opt->resol = 8;
	opt->verbosity = 3;
	opt->drv_id = "callback";

	switch (xmp_cfg.mixing_freq) {
	case 1:
		opt->freq = 22050;	/* 1:2 mixing freq */
		break;
	case 2:
		opt->freq = 11025;	/* 1:4 mixing freq */
		break;
	default:
		opt->freq = 44100;	/* standard mixing freq */
		break;
	}

	if (xmp_cfg.force8bit == 0)
		opt->resol = 16;

	if (xmp_cfg.force_mono == 0) {
		channelcnt = 2;
		opt->outfmt &= ~XMP_FMT_MONO;
	} else {
		opt->outfmt |= XMP_FMT_MONO;
	}

	if (xmp_cfg.interpolation == 1)
		opt->flags |= XMP_CTL_ITPT;
	else
		opt->flags &= ~XMP_CTL_ITPT;

	if (xmp_cfg.filter == 1)
		opt->flags |= XMP_CTL_FILTER;
	else
		opt->flags &= ~XMP_CTL_FILTER;

	opt->mix = xmp_cfg.pan_amplitude;

	play_data.ipb = ipb;
	play_data.fmt = opt->resol == 16 ? FMT_S16_NE : FMT_U8;
	play_data.nch = opt->outfmt & XMP_FMT_MONO ? 1 : 2;
	
	if (audio_open)
	    ipb->output->close_audio();
	
	if (!ipb->output->open_audio(play_data.fmt, opt->freq, play_data.nch)) {
	    ipb->error = TRUE;
	    xmp_plugin_audio_error = TRUE;
	    return;
	}
	
	audio_open = TRUE;

	xmp_open_audio(ctx);

	pipe(fd_info);
	fd_old2 = dup (fileno (stderr));
	dup2(fd_info[1], fileno (stderr));
	fflush(stderr);
	catch_thread = g_thread_create(catch_info, NULL, TRUE, NULL);

	_D("*** loading: %s", filename);
	g_static_mutex_lock(&load_mutex);
	lret =  xmp_load_module(ctx, filename);
	g_static_mutex_unlock(&load_mutex);

	if (lret < 0) {
		xmp_ip.set_info_text("Error loading mod");
		ipb->playing = 0;
		return;
	}

	_D("joining catch thread");
	g_thread_join(catch_thread);
	_D("joined");
	dup2(fileno(stderr), fd_old2);

	gtk_adjustment_set_value(GTK_TEXT_VIEW(text1)->vadjustment, 0.0);

	close(fd_info[0]);
	close(fd_info[1]);

	_D ("before panel update");

	xmp_cfg.time = lret; //xmpi_scan_module((struct xmp_context *)ctx);
	xmp_get_module_info(ctx, &ii->mi);
	strcpy(ii->filename, "");

	new_module = 1;

	_D("after panel update");

	memcpy(&xmp_cfg.mod_info, &ii->mi, sizeof (ii->mi));

#if __AUDACIOUS_PLUGIN_API__ >= 2
	ipb->set_params(ipb, ii->mi.name, lret, 0, opt->freq, channelcnt);
	ipb->playing = 1;
	ipb->eof = 0;
	ipb->error = FALSE;

	decode_thread = g_thread_self();
	ipb->set_pb_ready(ipb);
	play_loop(ipb);
#else
	xmp_ip.set_info(ii->mi.name, lret, 0, opt->freq, channelcnt);
	decode_thread = g_thread_create(play_loop, ipb, TRUE, NULL);
#endif
}