fteqw/engine/client/snd_ov.c

543 lines
14 KiB
C

#include "quakedef.h"
#ifdef AVAIL_OGGVORBIS
#define OV_EXCLUDE_STATIC_CALLBACKS
#ifdef __MORPHOS__
#include <exec/exec.h>
#include <libraries/vorbisfile.h>
#include <proto/exec.h>
#include <proto/vorbisfile.h>
#else
#include <vorbis/vorbisfile.h>
#endif
#ifdef LIBVORBISFILE_STATIC
#define p_ov_open_callbacks ov_open_callbacks
#define p_ov_clear ov_clear
#define p_ov_info ov_info
#define p_ov_comment ov_comment
#define p_ov_pcm_total ov_pcm_total
#define p_ov_time_total ov_time_total
#define p_ov_read ov_read
#define p_ov_pcm_seek ov_pcm_seek
#else
#if defined(__MORPHOS__)
#define oggvorbislibrary VorbisFileBase
struct Library *VorbisFileBase;
#else
dllhandle_t *oggvorbislibrary;
#endif
#ifdef __MORPHOS__
#define p_ov_open_callbacks(a, b, c, d, e) ov_open_callbacks(a, b, c, d, &e)
#define p_ov_clear ov_clear
#define p_ov_info ov_info
#define p_ov_comment ov_comment
#define p_ov_pcm_total ov_pcm_total
#define p_ov_time_total ov_time_total
#define p_ov_read ov_read
#define p_ov_pcm_seek ov_pcm_seek
#else
int (VARGS *p_ov_open_callbacks) (void *datasource, OggVorbis_File *vf, char *initial, long ibytes, ov_callbacks callbacks);
int (VARGS *p_ov_clear)(OggVorbis_File *vf);
vorbis_info *(VARGS *p_ov_info)(OggVorbis_File *vf,int link);
vorbis_comment *(VARGS *p_ov_comment) (OggVorbis_File *vf,int link);
ogg_int64_t (VARGS *p_ov_pcm_total)(OggVorbis_File *vf,int i);
double (VARGS *p_ov_time_total)(OggVorbis_File *vf,int i);
long (VARGS *p_ov_read)(OggVorbis_File *vf,char *buffer,int length,int bigendianp,int word,int sgned,int *bitstream);
int (VARGS *p_ov_pcm_seek)(OggVorbis_File *vf,ogg_int64_t pos);
#endif
#endif
typedef struct {
unsigned char *start; //file positions
unsigned long length;
unsigned long pos;
int srcspeed;
int srcchannels;
qboolean nopurge;
qboolean failed;
char *tempbuffer;
int tempbufferbytes;
char *decodedbuffer;
int decodedbufferbytes;
int decodedbytestart;
int decodedbytecount;
quintptr_t pcmtotal;
float timetotal;
OggVorbis_File vf;
sfx_t *s;
} ovdecoderbuffer_t;
static float QDECL OV_Query(struct sfx_s *sfx, struct sfxcache_s *buf, char *name, size_t namesize)
{
ovdecoderbuffer_t *dec = sfx->decoder.buf;
if (!dec)
return -1;
if (dec->timetotal < 0)
{
dec->pcmtotal = p_ov_pcm_total(&dec->vf, -1);
dec->timetotal = p_ov_time_total(&dec->vf, -1);
}
if (buf)
{
buf->data = NULL; //you're not meant to actually be using the data here
buf->soundoffset = 0;
buf->length = dec->pcmtotal;
buf->numchannels = dec->srcchannels;
buf->speed = dec->srcspeed;
buf->width = 2;
}
if (name)
{
vorbis_comment *c = p_ov_comment(&dec->vf, -1);
int i;
const char *artist = NULL;
const char *title = NULL;
for (i = 0; i < c->comments; i++)
{
if (!strncmp(c->user_comments[i], "ARTIST=", 7))
artist = c->user_comments[i]+7;
else if (!strncmp(c->user_comments[i], "TITLE=", 6))
title = c->user_comments[i]+6;
}
if (artist && title)
Q_snprintfz(name, namesize, "%s - %s", artist, title);
else if (title)
Q_snprintfz(name, namesize, "%s", title);
}
return dec->timetotal;
}
static sfxcache_t *QDECL OV_DecodeSome(struct sfx_s *sfx, struct sfxcache_s *buf, ssamplepos_t start, int length)
{
extern int snd_speed;
extern cvar_t snd_linearresample_stream;
int bigendianp = bigendian;
int current_section = 0;
ovdecoderbuffer_t *dec = sfx->decoder.buf;
int bytesread;
int outspeed = snd_speed;
// Con_Printf("Minlength = %03i ", minlength);
start *= 2*dec->srcchannels;
length *= 2*dec->srcchannels;
if (length)
{
if (start < dec->decodedbytestart)
{
// Con_Printf("Rewound to %i\n", start);
dec->failed = false;
//check pos
if (p_ov_pcm_seek(&dec->vf, start * (dec->srcspeed/(2.0*dec->srcchannels*outspeed))) == 0)
{
/*something rewound, purge clear the buffer*/
dec->decodedbytecount = 0;
dec->decodedbytestart = start;
}
}
/* if (start > dec->decodedbytestart + dec->decodedbytecount)
{
dec->decodedbytestart = start;
p_ov_pcm_seek(&dec->vf, (dec->decodedbytestart * dec->srcspeed) / outspeed);
}
*/
if (dec->decodedbytecount > outspeed*8 && !dec->nopurge)
{
/*everything is okay, but our buffer is getting needlessly large.
keep anything after the 'new' position, but discard all before that
trim shouldn't be able to go negative
*/
int trim = start - dec->decodedbytestart;
if (trim < 0)
{
dec->decodedbytecount = 0;
dec->decodedbytestart = start;
// Con_Printf("trim < 0\n");
}
else if (trim > dec->decodedbytecount)
{
if (0==p_ov_pcm_seek(&dec->vf, start * (dec->srcspeed/(2.0*dec->srcchannels*outspeed))))
{
dec->decodedbytecount = 0;
dec->decodedbytestart = start;
}
// Con_Printf("trim > count\n");
}
else
{
// Con_Printf("trim retain\n");
//FIXME: retain an extra half-second for dual+ sound devices running slightly out of sync
memmove(dec->decodedbuffer, dec->decodedbuffer + trim, dec->decodedbytecount - trim);
dec->decodedbytecount -= trim;
dec->decodedbytestart += trim;
}
}
for (;;)
{
if (dec->failed || start+length <= dec->decodedbytestart + dec->decodedbytecount)
break;
if (dec->decodedbufferbytes < start+length - dec->decodedbytestart + 4096) //expand if needed. 4096 seems to be the recommended size.
{
// Con_Printf("Expand buffer\n");
dec->decodedbufferbytes = (start+length - dec->decodedbytestart) + max(outspeed, 4096); //over allocate, because we can.
dec->decodedbuffer = BZ_Realloc(dec->decodedbuffer, dec->decodedbufferbytes);
}
if (outspeed == dec->srcspeed)
{
bytesread = p_ov_read(&dec->vf, dec->decodedbuffer+dec->decodedbytecount, (start+length) - (dec->decodedbytestart+dec->decodedbytecount), bigendianp, 2, 1, &current_section);
if (bytesread <= 0)
{
if (bytesread != 0) //0==eof
{
dec->failed = true;
Con_Printf("ogg decoding failed %i\n", bytesread);
break;
}
if (start >= dec->decodedbytestart+dec->decodedbytecount)
return NULL; //let the mixer know that we hit the end
break;
}
}
else
{
double scale = dec->srcspeed / (double)outspeed;
int decodesize = dec->decodedbufferbytes-dec->decodedbytecount; //bytes available
decodesize /= 2*dec->srcchannels; //convert bytes to frames
decodesize = floor(decodesize * scale); //round down, so that the SND_ResampleStream won't overflow the target buffer.
decodesize *= 2*dec->srcchannels; //convert from frames back to bytes
if (decodesize > dec->tempbufferbytes)
{
dec->tempbuffer = BZ_Realloc(dec->tempbuffer, decodesize);
dec->tempbufferbytes = decodesize;
}
bytesread = p_ov_read(&dec->vf, dec->tempbuffer, decodesize, bigendianp, 2, 1, &current_section);
if (bytesread <= 0)
{
if (bytesread != 0) //0==eof
{
dec->failed = true;
Con_Printf("ogg decoding failed %i\n", bytesread);
return NULL;
}
if (start >= dec->decodedbytestart+dec->decodedbytecount)
return NULL; //let the mixer know that we hit the end
break;
}
SND_ResampleStream(dec->tempbuffer,
dec->srcspeed,
2,
dec->srcchannels,
bytesread / (2 * dec->srcchannels),
dec->decodedbuffer+dec->decodedbytecount,
outspeed,
2,
dec->srcchannels,
snd_linearresample_stream.ival);
bytesread /= 2*dec->srcchannels; //convert bytes to frames
bytesread = bytesread / scale; //calculate the same ammount that SND_ResampleStream will have splurged (we should probably make the output count explicit).
bytesread *= 2*dec->srcchannels; //convert frames to bytes
}
dec->decodedbytecount += bytesread;
}
}
if (buf)
{
buf->data = dec->decodedbuffer;
buf->soundoffset = dec->decodedbytestart / (2 * dec->srcchannels);
buf->length = dec->decodedbytecount / (2 * dec->srcchannels);
buf->numchannels = dec->srcchannels;
buf->speed = snd_speed;
buf->width = 2;
}
return buf;
}
/*static void OV_CanceledDecoder(void *ctx, void *data, size_t a, size_t b)
{
sfx_t *s = ctx;
if (s->loadstate != SLS_LOADING)
s->loadstate = SLS_NOTLOADED;
}*/
static void QDECL OV_CancelDecoder(sfx_t *s)
{ //called when the sound is unloaded. the entire thing is going away.
ovdecoderbuffer_t *dec;
s->loadstate = SLS_FAILED;
dec = s->decoder.buf;
s->decoder.buf = NULL;
s->decoder.purge = NULL;
s->decoder.ended = NULL;
s->decoder.querydata = NULL;
s->decoder.decodedata = NULL;
p_ov_clear (&dec->vf); //close the decoder
if (dec->tempbuffer)
{
BZ_Free(dec->tempbuffer);
dec->tempbufferbytes = 0;
}
BZ_Free(dec->decodedbuffer);
dec->decodedbuffer = NULL;
BZ_Free(dec);
//due to the nature of message passing, we can get into a state where the main thread is going to flag us as loaded when we have already failed.
//that is bad.
//so post a message to the main thread to override it, just in case.
// COM_AddWork(WG_MAIN, OV_CanceledDecoder, s, NULL, SLS_NOTLOADED, 0);
s->loadstate = SLS_NOTLOADED;
}
static void QDECL OV_ClearDecoder(sfx_t *s)
{ //called when the sound is no longer playing.
ovdecoderbuffer_t *dec;
dec = s->decoder.buf;
if (dec->nopurge)
{
/* BZ_Free(dec->tempbuffer);
dec->tempbuffer = NULL;
dec->tempbufferbytes = 0;
BZ_Free(dec->decodedbuffer);
dec->decodedbuffer = NULL;
dec->decodedbufferbytes = 0;
dec->decodedbytestart = 0;
dec->decodedbytecount = 0;
*/
return;
}
OV_CancelDecoder(s);
}
static size_t VARGS read_func (void *ptr, size_t size, size_t nmemb, void *datasource)
{
ovdecoderbuffer_t *buffer = datasource;
int spare = buffer->length - buffer->pos;
if (size*nmemb > spare)
nmemb = spare / size;
memcpy(ptr, &buffer->start[buffer->pos], size*nmemb);
buffer->pos += size*nmemb;
return nmemb;
}
static int VARGS seek_func (void *datasource, ogg_int64_t offset, int whence)
{
ovdecoderbuffer_t *buffer = datasource;
switch(whence)
{
case SEEK_SET:
buffer->pos = offset;
break;
case SEEK_END:
buffer->pos = buffer->length+offset;
break;
case SEEK_CUR:
buffer->pos+=offset;
break;
}
return 0;
}
static int VARGS close_func (void *datasource)
{
ovdecoderbuffer_t *buffer = datasource;
BZ_Free(buffer->start);
buffer->start=0;
return 0;
}
static long VARGS tell_func (void *datasource)
{
ovdecoderbuffer_t *buffer = datasource;
return buffer->pos;
}
static ov_callbacks callbacks = {
read_func,
seek_func,
close_func,
tell_func,
};
static qboolean OV_StartDecode(unsigned char *start, unsigned long length, ovdecoderbuffer_t *buffer)
{
#ifndef LIBVORBISFILE_STATIC
static qboolean tried;
#ifndef __MORPHOS__
static dllfunction_t funcs[] =
{
{(void*)&p_ov_open_callbacks, "ov_open_callbacks"},
{(void*)&p_ov_comment, "ov_comment"},
{(void*)&p_ov_pcm_total, "ov_pcm_total"},
{(void*)&p_ov_time_total, "ov_time_total"},
{(void*)&p_ov_clear, "ov_clear"},
{(void*)&p_ov_info, "ov_info"},
{(void*)&p_ov_read, "ov_read"},
{(void*)&p_ov_pcm_seek, "ov_pcm_seek"},
{NULL}
};
#endif
if (!oggvorbislibrary && !tried)
#if defined(__MORPHOS__)
{
VorbisFileBase = OpenLibrary("vorbisfile.library", 2);
if (!VorbisFileBase)
{
Con_Printf("Unable to open vorbisfile.library version 2\n");
}
}
#elif defined(_WIN32)
{
oggvorbislibrary = Sys_LoadLibrary("vorbisfile", funcs);
if (!oggvorbislibrary)
oggvorbislibrary = Sys_LoadLibrary("libvorbisfile", funcs);
if (!oggvorbislibrary)
{
oggvorbislibrary = Sys_LoadLibrary("libvorbisfile-3", funcs);
if (!oggvorbislibrary)
oggvorbislibrary = Sys_LoadLibrary("libvorbisfile", funcs);
}
if (!oggvorbislibrary)
Con_Printf("Couldn't load DLL: \"vorbisfile.dll\" or \"libvorbisfile-3\".\n");
}
#else
{
oggvorbislibrary = Sys_LoadLibrary("libvorbisfile.so.3", funcs);
if (!oggvorbislibrary)
oggvorbislibrary = Sys_LoadLibrary("libvorbisfile", funcs);
if (!oggvorbislibrary)
Con_Printf("Couldn't load library: \"libvorbisfile\".\n");
}
#endif
tried = true;
if (!oggvorbislibrary)
{
Con_Printf("ogg vorbis library is not loaded.\n");
return false;
}
#endif
buffer->start = start;
buffer->length = length;
buffer->pos = 0;
if (p_ov_open_callbacks(buffer, &buffer->vf, NULL, 0, callbacks))
{
Con_Printf("Input %s does not appear to be an Ogg Vorbis bitstream.\n", buffer->s->name);
return false;
}
/* Print the comments plus a few lines about the bitstream we're
decoding */
{
// char **ptr=p_ov_comment(&buffer->vf,-1)->user_comments;
vorbis_info *vi=p_ov_info(&buffer->vf,-1);
if (vi->channels < 1 || vi->channels > 2)
{
p_ov_clear (&buffer->vf);
Con_Printf("Input %s has %i channels.\n", buffer->s->name, vi->channels);
return false;
}
buffer->srcchannels = vi->channels;
buffer->srcspeed = vi->rate;
/*
while(*ptr){
Con_Printf("%s\n",*ptr);
ptr++;
}
Con_Printf("\nBitstream is %d channel, %ldHz\n",vi->channels,vi->rate);
Con_Printf("\nDecoded length: %ld samples\n",
(long)p_ov_pcm_total(&buffer->vf,-1));
Con_Printf("Encoded by: %s\n\n",p_ov_comment(&buffer->vf,-1)->vendor);
*/ }
buffer->tempbuffer = NULL;
buffer->tempbufferbytes = 0;
buffer->start = BZ_Malloc(length);
memcpy(buffer->start, start, length);
buffer->timetotal = -1;
return true;
}
qboolean QDECL S_LoadOVSound (sfx_t *s, qbyte *data, size_t datalen, int sndspeed, qboolean forcedecode)
{
ovdecoderbuffer_t *buffer;
if (datalen < 4 || strncmp(data, "OggS", 4))
return false;
buffer = Z_Malloc(sizeof(ovdecoderbuffer_t));
buffer->decodedbytestart = 0;
buffer->decodedbytecount = 0;
buffer->nopurge = forcedecode;
buffer->s = s;
s->decoder.buf = buffer;
s->loopstart = -1;
if (!OV_StartDecode(data, datalen, buffer))
{
if (buffer->decodedbuffer)
{
BZ_Free(buffer->decodedbuffer);
buffer->decodedbuffer = NULL;
}
buffer->decodedbufferbytes = 0;
buffer->decodedbytestart = 0;
buffer->decodedbytecount = 0;
Z_Free(s->decoder.buf);
s->decoder.buf = NULL;
s->loadstate = SLS_FAILED; //failed!
return false;
}
s->decoder.decodedata = OV_DecodeSome;
s->decoder.querydata = OV_Query;
s->decoder.purge = OV_CancelDecoder;
s->decoder.ended = OV_ClearDecoder;
s->decoder.decodedata(s, NULL, 0, 100);
if (p_ov_time_total(&buffer->vf, -1) < 5) //short sounds might as well remain cached.
buffer->nopurge = true;
return true;
}
#endif