vgmstream/unix/main.c
2008-05-25 03:56:01 +00:00

358 lines
8.0 KiB
C

#include <audacious/util.h>
#include <audacious/configdb.h>
#include <audacious/plugin.h>
#include <audacious/output.h>
#include <audacious/i18n.h>
#include <audacious/strings.h>
#include <unistd.h>
#include <pthread.h>
#include <stdlib.h>
#include "version.h"
#include "../src/vgmstream.h"
#include "gui.h"
#include "vfs.h"
#define TM_QUIT 0
#define TM_PLAY 1
#define TM_SEEK 2
#ifndef min
#define min(a,b) (((a) < (b)) ? (a) : (b))
#endif
extern InputPlugin vgmstream_iplug;
//static CDecoder decoder;
static volatile long decode_seek;
static GThread *decode_thread;
static gint stream_length_samples;
static gint loop_count = 1;
static gint fade_seconds = 0;
static gint fade_delay_seconds = 0;
static gint decode_pos_samples = 0;
static VGMSTREAM *vgmstream = NULL;
static gchar strPlaying[260];
static InputPlugin *vgmstream_iplist[] = { &vgmstream_iplug, NULL };
/*
static gint get_ms_position()
{
if (vgmstream)
{
return (decode_pos_samples * 1000) / vgmstream->sample_rate;
}
return 0;
}
*/
static char *get_title(const char *uri,char *title,size_t sz)
{
gchar *base = aud_uri_to_display_basename(uri);
#ifdef INCLUDE_BASE_IN_TITLE
size_t len;
gchar *dir = aud_uri_to_display_dirname(uri);
/* first copy the dir */
len = strlen(dir);
strcpy(title,dir);
if (dir[len-1] != '/')
{
title[len++] = '/';
title[len] = 0;
}
/* then the basename */
strcat(title,base);
g_free(dir);
#else
strcpy(title,base);
#endif
g_free(base);
return title;
}
void vgmstream_mseek(InputPlayback *data,gulong ms);
#define CLOSE_STREAM() do { \
if (vgmstream) close_vgmstream(vgmstream); \
vgmstream = NULL; } while (0)
SIMPLE_INPUT_PLUGIN(vgmstream,vgmstream_iplist);
#define DS_EXIT -2
void* vgmstream_play_loop(InputPlayback *playback)
{
int16_t buffer[576*2];
long l;
gint seek_needed_samples;
gint samples_to_do;
decode_seek = -1;
playback->playing = 1;
playback->eof = 0;
decode_pos_samples = 0;
while (playback->playing)
{
// ******************************************
// Seeking
// ******************************************
// check thread flags, not my favorite method
if (decode_seek == DS_EXIT)
{
goto exit_thread;
}
else if (decode_seek >= 0)
{
/* compute from ms to samples */
seek_needed_samples = (long long)decode_seek * vgmstream->sample_rate / 1000L;
if (seek_needed_samples < decode_pos_samples)
{
/* go back in time, reopen file */
reset_vgmstream(vgmstream);
decode_pos_samples = 0;
samples_to_do = seek_needed_samples;
}
else if (decode_pos_samples < seek_needed_samples)
{
/* go forward in time */
samples_to_do = seek_needed_samples - decode_pos_samples;
}
else
{
/* seek to where we are, how convenient */
samples_to_do = -1;
}
/* do the actual seeking */
if (samples_to_do >= 0)
{
while (samples_to_do > 0)
{
l = min(576,samples_to_do);
render_vgmstream(buffer,l,vgmstream);
samples_to_do -= l;
decode_pos_samples += l;
}
playback->output->flush(decode_seek);
// reset eof flag
playback->eof = 0;
}
// reset decode_seek
decode_seek = -1;
}
// ******************************************
// Playback
// ******************************************
if (!playback->eof)
{
// read data and pass onward
samples_to_do = min(576,stream_length_samples - (decode_pos_samples + 576));
l = (samples_to_do * vgmstream->channels*2);
if (!l)
{
playback->eof = 1;
// will trigger on next run through
}
else
{
// ok we read stuff , pass it on
render_vgmstream(buffer,samples_to_do,vgmstream);
/* TODO fading */
playback->pass_audio(playback,FMT_S16_LE,vgmstream->channels , l , buffer , &playback->playing );
decode_pos_samples += samples_to_do;
}
}
else
{
// at EOF
playback->output->buffer_free();
playback->output->buffer_free();
while (playback->output->buffer_playing())
g_usleep(10000);
playback->playing = 0;
// this effectively ends the loop
}
}
exit_thread:
decode_seek = -1;
playback->playing = 0;
decode_pos_samples = 0;
CLOSE_STREAM();
return 0;
}
void vgmstream_about()
{
vgmstream_gui_about();
}
void vgmstream_configure()
{
/* TODO */
}
void vgmstream_init()
{
}
void vgmstream_destroy()
{
}
gboolean vgmstream_is_our_file(char *pFile)
{
const char *pExt;
gchar **exts;
VGMSTREAM *stream;
if (!pFile)
return FALSE;
/* get extension */
pExt = strrchr(pFile,'.');
if (!pExt)
return FALSE;
/* skip past period */
++pExt;
for (exts = vgmstream_iplug.vfs_extensions;*exts;++exts)
{
if (strcasecmp(pExt,*exts) == 0)
{
if ((stream = init_vgmstream_from_STREAMFILE(open_vfs(pFile))))
{
close_vgmstream(stream);
return TRUE;
}
}
}
return FALSE;
}
void vgmstream_mseek(InputPlayback *data,gulong ms)
{
if (vgmstream)
{
decode_seek = ms;
data->eof = 0;
while (decode_seek != -1)
g_usleep(10000);
}
}
void vgmstream_play(InputPlayback *context)
{
char title[260];
// this is now called in a new thread context
vgmstream = init_vgmstream_from_STREAMFILE(open_vfs(context->filename));
if (!vgmstream || vgmstream->channels <= 0 || vgmstream->channels > 2)
{
CLOSE_STREAM();
return;
}
// open the audio device
if (context->output->open_audio(FMT_S16_LE,vgmstream->sample_rate,vgmstream->channels) == 0)
{
CLOSE_STREAM();
return;
}
/* copy file name */
strcpy(strPlaying,context->filename);
// set the info
stream_length_samples = get_vgmstream_play_samples(loop_count,fade_seconds,fade_delay_seconds,vgmstream);
gint ms = (stream_length_samples * 1000LL) / vgmstream->sample_rate;
gint rate = vgmstream->sample_rate * 2 * vgmstream->channels;
context->set_params(context,get_title(context->filename,title,sizeof(title)),
/* length */ ms,
/* rate */rate,
/* freq */vgmstream->sample_rate,
/* n channels */vgmstream->channels);
decode_thread = g_thread_self();
context->set_pb_ready(context);
vgmstream_play_loop(context);
}
void vgmstream_stop(InputPlayback *context)
{
if (vgmstream)
{
// kill thread
decode_seek = DS_EXIT;
// wait for it to die
g_thread_join(decode_thread);
// close audio output
}
context->output->close_audio();
// cleanup
CLOSE_STREAM();
}
void vgmstream_pause(InputPlayback *context,gshort paused)
{
context->output->pause(paused);
}
void vgmstream_seek(InputPlayback *context,gint time)
{
vgmstream_mseek(context,time * 1000);
}
int vgmstream_get_time(InputPlayback *context)
{
if (!vgmstream)
return -2;
if (!context->playing ||
(context->eof && !context->output->buffer_playing()))
return -1;
return context->output->output_time();
//return get_ms_position();
}
void vgmstream_get_song_info(gchar *pFile,gchar **title,gint *length)
{
VGMSTREAM *infostream;
char strTitle[260];
*title = g_strdup(get_title(pFile,strTitle,sizeof(strTitle)));
if ((infostream = init_vgmstream_from_STREAMFILE(open_vfs(pFile))))
{
*length = get_vgmstream_play_samples(loop_count,fade_seconds,fade_delay_seconds,infostream) * 1000LL / infostream->sample_rate;
close_vgmstream(infostream);
}
else
{
*length = 0;
}
}
void vgmstream_file_info_box(gchar *pFile)
{
char msg[512];
VGMSTREAM *stream;
if ((stream = init_vgmstream_from_STREAMFILE(open_vfs(pFile))))
{
gint sls = get_vgmstream_play_samples(loop_count,fade_seconds,fade_delay_seconds,stream);
gint ms = (sls * 1000LL) / stream->sample_rate;
gint rate = stream->sample_rate * 2 * stream->channels;
sprintf(msg,"%s\nSample rate: %d\nStereo: %s\nTotal samples: %d\nBits per second: %d\nLength: %f seconds",pFile,stream->sample_rate,(stream->channels >= 2) ? "yes" : "no",sls,rate,(double)ms / 1000.0);
close_vgmstream(stream);
audacious_info_dialog("File information",msg,"OK",FALSE,NULL,NULL);
}
}