/*
DeaDBeeF - ultimate music player for GNU/Linux systems with X11
Copyright (C) 2009 Alexey Yakovenko
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see .
*/
#include
#include
#include
#include
#include
#include "../../deadbeef.h"
#define min(x,y) ((x)<(y)?(x):(y))
#define max(x,y) ((x)>(y)?(x):(y))
static DB_decoder_t plugin;
static DB_functions_t *deadbeef;
#define READBUFFER 0x10000
#define READBUFFER_MASK 0xffff
// FIXME: cache is bad name for this
#define CACHE_SIZE 0x20000
#define CACHE_MASK 0x1ffff
// vbrmethod constants
#define LAME_CBR 1
#define LAME_CBR2 8
#define LAME_ABR 2
#define LAME_VBR1 3
#define LAME_VBR2 4
#define LAME_VBR3 5
#define LAME_VBR4 6
typedef struct {
FILE *file;
// cuesheet info
float timestart;
float timeend;
// input buffer, for MPEG data
// FIXME: this should go away if reading happens per-frame
mad_timer_t timer;
char input[READBUFFER];
int remaining;
// NOTE: both "output" and "cache" buffers store sampels in libmad fixed point format
// // output buffer, supplied by player
int readsize;
// cache, for extra decoded samples
char cache[CACHE_SIZE];
int cachefill;
int cachepos;
// information, filled by cmp3_scan_stream
int version;
int layer;
int bitrate;
int samplerate;
int packetlength;
float frameduration;
int bitspersample;
int channels;
float duration;
int startoffset;
int endoffset;
#if 0
// only for xing/lame header
uint32_t frames;
uint32_t flags;
uint32_t vbr_scale;
uint32_t bytes;
uint8_t lame_revision;
uint8_t vbrmethod;
uint8_t vbrbitrate;
uint8_t mp3gain;
float peak_signal_amp;
uint16_t radio_replay_gain;
uint16_t audiophile_replay_gain;
uint16_t delay_start;
uint16_t delay_end;
uint32_t musiclength;
#endif
} buffer_t;
static buffer_t buffer;
static struct mad_stream stream;
static struct mad_frame frame;
static struct mad_synth synth;
static int
cmp3_decode (void);
static int
cmp3_scan_stream (buffer_t *buffer, float position);
static int
cmp3_init (DB_playItem_t *it) {
memset (&buffer, 0, sizeof (buffer));
buffer.file = fopen (it->fname, "rb");
if (!buffer.file) {
return -1;
}
buffer.startoffset = it->startoffset;
buffer.endoffset = it->endoffset;
buffer.remaining = 0;
//buffer.output = NULL;
buffer.readsize = 0;
buffer.cachefill = 0;
buffer.cachepos = 0;
plugin.info.readpos = 0;
mad_timer_reset(&buffer.timer);
// fseek (buffer.file, buffer.startoffset, SEEK_SET);
if (it->timeend > 0) {
buffer.timestart = it->timestart;
buffer.timeend = it->timeend;
// that comes from cue, don't calc duration, just seek and play
cmp3_scan_stream (&buffer, it->timestart);
mad_timer_reset(&buffer.timer);
}
else {
it->duration = cmp3_scan_stream (&buffer, -1); // scan entire stream, calc duration
buffer.timestart = 0;
buffer.timeend = it->duration;
fseek (buffer.file, buffer.startoffset, SEEK_SET);
}
if (buffer.samplerate == 0) {
//fprintf (stderr, "bad mpeg file: %f\n", it->fname);
fclose (buffer.file);
return -1;
}
plugin.info.bps = buffer.bitspersample;
plugin.info.samplerate = buffer.samplerate;
plugin.info.channels = buffer.channels;
mad_stream_init(&stream);
mad_frame_init(&frame);
mad_synth_init(&synth);
return 0;
}
/****************************************************************************
* Converts a sample from libmad's fixed point number format to a signed *
* short (16 bits). *
****************************************************************************/
static inline int16_t
MadFixedToSshort(mad_fixed_t Fixed)
{
/* A fixed point number is formed of the following bit pattern:
*
* SWWWFFFFFFFFFFFFFFFFFFFFFFFFFFFF
* MSB LSB
* S ==> Sign (0 is positive, 1 is negative)
* W ==> Whole part bits
* F ==> Fractional part bits
*
* This pattern contains MAD_F_FRACBITS fractional bits, one
* should alway use this macro when working on the bits of a fixed
* point number. It is not guaranteed to be constant over the
* different platforms supported by libmad.
*
* The signed short value is formed, after clipping, by the least
* significant whole part bit, followed by the 15 most significant
* fractional part bits. Warning: this is a quick and dirty way to
* compute the 16-bit number, madplay includes much better
* algorithms.
*/
/* Clipping */
if(Fixed>=MAD_F_ONE)
return(32767);
if(Fixed<=-MAD_F_ONE)
return(-32768);
/* Conversion. */
Fixed=Fixed>>(MAD_F_FRACBITS-15);
return((signed short)Fixed);
}
static inline float
MadFixedToFloat (mad_fixed_t Fixed) {
return (float)((Fixed) / (float)(1L << MAD_F_FRACBITS));
}
#define MadErrorString(x) mad_stream_errorstr(x)
static uint32_t
extract_i32 (unsigned char *buf)
{
uint32_t x;
// big endian extract
x = buf[0];
x <<= 8;
x |= buf[1];
x <<= 8;
x |= buf[2];
x <<= 8;
x |= buf[3];
return x;
}
static inline uint32_t
extract_i32_le (unsigned char *buf)
{
uint32_t x;
// little endian extract
x = buf[3];
x <<= 8;
x |= buf[2];
x <<= 8;
x |= buf[1];
x <<= 8;
x |= buf[0];
return x;
}
static inline uint16_t
extract_i16 (unsigned char *buf)
{
uint16_t x;
// big endian extract
x = buf[0];
x <<= 8;
x |= buf[1];
x <<= 8;
return x;
}
static inline float
extract_f32 (unsigned char *buf) {
float f;
uint32_t *x = (uint32_t *)&f;
*x = buf[0];
*x <<= 8;
*x |= buf[1];
*x <<= 8;
*x |= buf[2];
*x <<= 8;
*x |= buf[3];
return f;
}
// function scans file and calculates duration
// if position >= 0 -- scanning is stopped after duration is greater than position
static int
cmp3_scan_stream (buffer_t *buffer, float position) {
int nframe = 0;
int nskipped = 0;
float duration = 0;
int nreads = 0;
int nseeks = 0;
int pos = ftell (buffer->file);
if (pos <= 0) {
// try to skip id3v2
int skip = deadbeef->junk_get_leading_size (buffer->file);
if (skip > 0) {
fseek (buffer->file, skip, SEEK_SET);
}
}
for (;;) {
if (position >= 0 && duration > position) {
// set decoder timer
buffer->timer.seconds = (int)duration;
buffer->timer.fraction = (int)((duration - (float)buffer->timer.seconds)*MAD_TIMER_RESOLUTION);
return duration;
}
uint32_t hdr;
uint8_t sync;
pos = ftell (buffer->file);
if (fread (&sync, 1, 1, buffer->file) != 1) {
break; // eof
}
nreads++;
if (sync != 0xff) {
nskipped++;
continue; // not an mpeg frame
}
else {
// 2nd sync byte
if (fread (&sync, 1, 1, buffer->file) != 1) {
break; // eof
}
nreads++;
if ((sync >> 5) != 7) {
nskipped++;
continue;
}
}
// found frame
hdr = (0xff<<24) | (sync << 16);
// read 2 bytes more
if (fread (&sync, 1, 1, buffer->file) != 1) {
break; // eof
}
nreads++;
hdr |= sync << 8;
if (fread (&sync, 1, 1, buffer->file) != 1) {
break; // eof
}
nreads++;
hdr |= sync;
nskipped = 0;
// parse header
// sync bits
int usync = hdr & 0xffe00000;
if (usync != 0xffe00000) {
printf ("fatal error: mp3 header parser is broken\n");
}
// mpeg version
static int vertbl[] = {3, -1, 2, 1}; // 3 is 2.5
int ver = (hdr & (3<<19)) >> 19;
ver = vertbl[ver];
if (ver < 0) {
continue; // invalid frame
}
// layer info
static int ltbl[] = { -1, 3, 2, 1 };
int layer = (hdr & (3<<17)) >> 17;
layer = ltbl[layer];
if (layer < 0) {
continue; // invalid frame
}
// bitrate
static int brtable[5][16] = {
{ 0, 32, 64, 96, 128, 160, 192, 224, 256, 288, 320, 352, 384, 416, 448, -1 },
{ 0, 32, 48, 56, 64, 80, 96, 112, 128, 160, 192, 224, 256, 320, 384, -1 },
{ 0, 32, 40, 48, 56, 64, 80, 96, 112, 128, 160, 192, 224, 256, 320, -1 },
{ 0, 32, 48, 56, 64, 80, 96, 112, 128, 144, 160, 176, 192, 224, 256, -1 },
{ 0, 8, 16, 24, 32, 40, 48, 56, 64, 80, 96, 112, 128, 144, 160, -1 }
};
int bitrate = (hdr & (0x0f<<12)) >> 12;
int idx = 0;
if (ver == 1) {
idx = layer - 1;
}
else {
idx = layer == 1 ? 3 : 4;
}
bitrate = brtable[idx][bitrate];
if (bitrate <= 0) {
continue; // invalid frame
}
// samplerate
static int srtable[3][4] = {
{44100, 48000, 32000, -1},
{22050, 24000, 16000, -1},
{11025, 12000, 8000, -1},
};
int samplerate = (hdr & (0x03<<10))>>10;
samplerate = srtable[ver-1][samplerate];
if (samplerate < 0) {
continue; // invalid frame
}
// padding
int padding = (hdr & (0x1 << 9)) >> 9;
static int chantbl[4] = { 2, 2, 2, 1 };
int nchannels = (hdr & (0x3 << 6)) >> 6;
nchannels = chantbl[nchannels];
// check if channel/bitrate combination is valid for layer2
if (layer == 2) {
if ((bitrate <= 56 || bitrate == 80) && nchannels != 1) {
continue; // bad frame
}
if (bitrate >= 224 && nchannels == 1) {
continue; // bad frame
}
}
// check if emphasis is valid
if ((hdr & 3) == 2) {
continue; // 10 is reserved
}
// packetlength
int packetlength = 0;
bitrate *= 1000;
float dur = 0;
int samples_per_frame = 0;
if (samplerate > 0 && bitrate > 0) {
if (layer == 1) {
samples_per_frame = 384;
dur = (float)384 / samplerate;
}
else if (layer == 2) {
samples_per_frame = 1152;
dur = (float)1152 / samplerate;
}
else if (layer == 3) {
if (ver == 1) {
samples_per_frame = 1152;
dur = (float)1152 / samplerate;
}
else {
samples_per_frame = 576;
dur = (float)576 / samplerate;
}
}
packetlength = samples_per_frame / 8 * bitrate / samplerate + padding;
}
else {
continue;
}
if (position != 0 || nframe == 0/* || buffer->version != ver || buffer->layer != layer*/)
{
buffer->version = ver;
buffer->layer = layer;
buffer->bitrate = bitrate;
buffer->samplerate = samplerate;
buffer->packetlength = packetlength;
buffer->frameduration = dur;
buffer->channels = nchannels;
buffer->bitspersample = 16;
//fprintf (stderr, "frame %d(@%d) mpeg v%d layer %d bitrate %d samplerate %d packetlength %d framedur %f channels %d\n", nframe, pos, ver, layer, bitrate, samplerate, packetlength, dur, nchannels);
}
// try to read xing/info tag
if (position == 0) {
if (ver == 1) {
fseek (buffer->file, 32, SEEK_CUR);
}
else {
fseek (buffer->file, 17, SEEK_CUR);
}
const char xing[] = "Xing";
const char info[] = "Info";
char magic[4];
if (fread (magic, 1, 4, buffer->file) != 4) {
return -1; // EOF
}
// add information to skip this frame
int startoffset = ftell (buffer->file) + packetlength;
if (startoffset > buffer->startoffset) {
buffer->startoffset = startoffset;
}
if (!strncmp (xing, magic, 4) || !strncmp (info, magic, 4)) {
// read flags
uint32_t flags;
char buf[4];
if (fread (buf, 1, 4, buffer->file) != 4) {
return -1; // EOF
}
flags = extract_i32 (buf);
if (flags & 0x01) {
// read number of frames
if (fread (buf, 1, 4, buffer->file) != 4) {
return -1; // EOF
}
uint32_t nframes = extract_i32 (buf);
buffer->duration = (float)nframes * (float)samples_per_frame / (float)samplerate;
return 0;
}
}
// xing header failed, calculate based on file size
fseek (buffer->file, 0, SEEK_END);
int sz = ftell (buffer->file) - buffer->startoffset - buffer->endoffset;
int nframes = sz / packetlength;
buffer->duration = nframes * samples_per_frame / samplerate;
return 0;
}
duration += dur;
nframe++;
if (packetlength > 0) {
fseek (buffer->file, packetlength-4, SEEK_CUR);
nseeks++;
}
}
if (position >= 0 && duration >= position) {
// set decoder timer
buffer->timer.seconds = (int)duration;
buffer->timer.fraction = (int)((duration - (float)buffer->timer.seconds)*MAD_TIMER_RESOLUTION);
}
if (nframe == 0) {
return -1;
}
return duration;
}
static int
cmp3_decode (void) {
int eof = 0;
// char *output = buffer.output;
for (;;) {
if (eof) {
break;
}
// read more MPEG data if needed
if(stream.buffer==NULL || stream.error==MAD_ERROR_BUFLEN) {
// copy part of last frame to beginning
if (stream.next_frame != NULL) {
buffer.remaining = stream.bufend - stream.next_frame;
memmove (buffer.input, stream.next_frame, buffer.remaining);
}
int size = READBUFFER - buffer.remaining;
int bytesread = 0;
char *bytes = buffer.input + buffer.remaining;
bytesread = fread (bytes, 1, size, buffer.file);
if (!bytesread) {
// add guard
eof = 1;
memset (bytes, 0, 8);
bytesread = 8;
}
if (bytesread < size) {
// end of file
size -= bytesread;
bytes += bytesread;
}
bytesread += buffer.remaining;
mad_stream_buffer(&stream,buffer.input,bytesread);
stream.error=0;
}
// decode next frame
if(mad_frame_decode(&frame,&stream))
{
if(MAD_RECOVERABLE(stream.error))
{
if(stream.error!=MAD_ERROR_LOSTSYNC)
{
//fprintf(stderr,"recoverable frame level error (%s)\n",
// MadErrorString(&stream));
//fflush(stderr);
}
continue;
}
else {
if(stream.error==MAD_ERROR_BUFLEN)
continue;
else
{
//fprintf(stderr,"unrecoverable frame level error (%s).\n",
// MadErrorString(&stream));
break;
}
}
}
plugin.info.samplerate = frame.header.samplerate;
plugin.info.channels = MAD_NCHANNELS(&frame.header);
mad_timer_add(&buffer.timer,frame.header.duration);
mad_synth_frame(&synth,&frame);
// char *cache = &buffer.cache[(buffer.cachefill + buffer.cachepos) & CACHE_MASK];
int cachepos = (buffer.cachefill + buffer.cachepos) & CACHE_MASK;
int i;
for(i=0;i= CACHE_SIZE) {
printf ("cache overflow!\n");
break;
}
if (buffer.cachefill >= CACHE_SIZE - sizeof (mad_fixed_t)) {
// printf ("readsize=%d, pcm.length=%d(%d)\n", buffer.readsize, synth.pcm.length, i);
}
assert (buffer.cachefill < CACHE_SIZE - sizeof (mad_fixed_t));
memcpy (buffer.cache+cachepos, &synth.pcm.samples[0][i], sizeof (mad_fixed_t));
cachepos = (cachepos + sizeof (mad_fixed_t)) & CACHE_MASK;
buffer.cachefill += sizeof (mad_fixed_t);
buffer.readsize -= sizeof (mad_fixed_t);
if (MAD_NCHANNELS(&frame.header) == 2) {
if (buffer.cachefill >= CACHE_SIZE - sizeof (mad_fixed_t)) {
printf ("readsize=%d, pcm.length=%d(%d), cachefill=%d, cachepos=%d(%d)\n", buffer.readsize, synth.pcm.length, i, buffer.cachefill, buffer.cachepos, cachepos);
}
assert (buffer.cachefill < CACHE_SIZE - sizeof (mad_fixed_t));
memcpy (buffer.cache+cachepos, &synth.pcm.samples[1][i], sizeof (mad_fixed_t));
cachepos = (cachepos + sizeof (mad_fixed_t)) & CACHE_MASK;
buffer.cachefill += sizeof (mad_fixed_t);
buffer.readsize -= sizeof (mad_fixed_t);
}
}
//printf ("readsize at end of frame: %d\n", buffer.readsize);
if (buffer.readsize <= 0 || eof) {
break;
}
}
return 0;
}
static void
cmp3_free (void) {
if (buffer.file) {
fclose (buffer.file);
buffer.file = NULL;
mad_synth_finish (&synth);
mad_frame_finish (&frame);
mad_stream_finish (&stream);
}
}
static int
cmp3_read (char *bytes, int size) {
int result;
int ret = 0;
if (plugin.info.readpos >= (buffer.timeend - buffer.timestart)) {
return 0;
}
int nsamples = size / 2 / plugin.info.channels;
size *= 2; // convert to mad sample size
if (buffer.cachefill < size) {
buffer.readsize = (size - buffer.cachefill);
cmp3_decode ();
plugin.info.readpos = (float)buffer.timer.seconds + (float)buffer.timer.fraction / MAD_TIMER_RESOLUTION;
}
if (buffer.cachefill > 0) {
int sz = min (size, buffer.cachefill);
int cachepos = buffer.cachepos;
for (int i = 0; i < nsamples; i++) {
mad_fixed_t sample = *((mad_fixed_t*)(buffer.cache + cachepos));
cachepos = (cachepos + sizeof (mad_fixed_t)) & CACHE_MASK;
*((int16_t*)bytes) = MadFixedToSshort (sample);
bytes += 2;
size -= 2;
ret += 2;
if (plugin.info.channels == 2) {
sample = *((mad_fixed_t*)(buffer.cache + cachepos));
cachepos = (cachepos + sizeof (mad_fixed_t)) & CACHE_MASK;
*((int16_t*)bytes) = MadFixedToSshort (sample);
bytes += 2;
size -= 2;
ret += 2;
}
}
if (buffer.cachefill > sz) {
buffer.cachepos = (buffer.cachepos + sz) & CACHE_MASK;
buffer.cachefill -= sz;
}
else {
buffer.cachefill = 0;
buffer.cachepos = 0;
}
}
if (plugin.info.readpos >= (buffer.timeend - buffer.timestart)) {
return 0;
}
return ret;
}
static int
cmp3_read_float32 (char *bytes, int size) {
int result;
int ret = 0;
if (plugin.info.readpos >= (buffer.timeend - buffer.timestart)) {
return 0;
}
int nsamples = size / 4 / plugin.info.channels;
if (buffer.cachefill < size) {
buffer.readsize = (size - buffer.cachefill);
//printf ("decoding %d bytes using read_float32\n", buffer.readsize);
cmp3_decode ();
plugin.info.readpos = (float)buffer.timer.seconds + (float)buffer.timer.fraction / MAD_TIMER_RESOLUTION;
}
if (buffer.cachefill > 0) {
int sz = min (size, buffer.cachefill);
int cachepos = buffer.cachepos;
for (int i = 0; i < nsamples; i++) {
mad_fixed_t sample = *((mad_fixed_t*)(buffer.cache + cachepos));
cachepos = (cachepos + sizeof (mad_fixed_t)) & CACHE_MASK;
*((float*)bytes) = MadFixedToFloat (sample);
bytes += 4;
size -= 4;
ret += 4;
if (plugin.info.channels == 2) {
sample = *((mad_fixed_t*)(buffer.cache + cachepos));
cachepos = (cachepos + sizeof (mad_fixed_t)) & CACHE_MASK;
*((float*)bytes) = MadFixedToFloat (sample);
bytes += 4;
size -= 4;
ret += 4;
}
}
if (buffer.cachefill > sz) {
buffer.cachepos = (buffer.cachepos + sz) & CACHE_MASK;
buffer.cachefill -= sz;
}
else {
buffer.cachefill = 0;
}
}
if (plugin.info.readpos >= (buffer.timeend - buffer.timestart)) {
return 0;
}
return ret;
}
static int
cmp3_seek (float time) {
time += buffer.timestart;
if (!buffer.file) {
return -1;
}
// restart file, and load until we hit required pos
mad_synth_finish (&synth);
mad_frame_finish (&frame);
mad_stream_finish (&stream);
fseek(buffer.file, buffer.startoffset, SEEK_SET);
mad_stream_init(&stream);
mad_frame_init(&frame);
mad_synth_init(&synth);
mad_timer_reset(&buffer.timer);
if (time == 0) {
plugin.info.readpos = 0;
return 0;
}
if (cmp3_scan_stream (&buffer, time) == -1) {
plugin.info.readpos = 0;
return -1;
}
// fixup timer
plugin.info.readpos = (float)buffer.timer.seconds + (float)buffer.timer.fraction / MAD_TIMER_RESOLUTION;
plugin.info.readpos -= buffer.timestart;
buffer.timer.seconds = (int)plugin.info.readpos;
buffer.timer.fraction = (plugin.info.readpos - buffer.timer.seconds) * MAD_TIMER_RESOLUTION;
return 0;
}
// {{{ separate xing/lame header reader (unused)
#if 0
// read xing/lame header
// based on Xing example code
#define FRAMES_FLAG 0x0001
#define BYTES_FLAG 0x0002
#define TOC_FLAG 0x0004
#define VBR_SCALE_FLAG 0x0008
#define FRAMES_AND_BYTES (FRAMES_FLAG | BYTES_FLAG)
int
cmp3_read_info_tag (buffer_t *buffer, DB_playItem_t *it, FILE *fp) {
rewind (fp);
int h_id, h_mode, h_sr_index, h_ly_index;
static int sr_table[4] = { 44100, 48000, 32000, -1 };
uint8_t header[1024];
if (fread (header, 1, 1024, fp) != 1024) {
return -1;
}
uint8_t *buf = header;
// check sync
if (buf[0] != 0xff || (buf[1]&(3<<5)) != (3<<5)) {
printf ("sync bits not set, not a mpeg frame\n");
return -1;
}
// get selected MPEG header data
h_id = (buf[1] >> 3) & 1;
h_sr_index = (buf[2] >> 2) & 3;
h_mode = (buf[3] >> 6) & 3;
h_ly_index = (buf[1] >> 1) & 3;
static int ltbl[] = { -1, 3, 2, 1 };
int layer = ltbl[h_ly_index];
printf ("layer%d\n", layer);
if (layer < 0) {
printf ("invalid layer\n");
return -1;
}
// determine offset of header
if (h_id) { // mpeg1
if (h_mode != 3) {
buf += (32+4);
}
else {
buf += (17+4);
}
}
else { // mpeg2
if (h_mode != 3) {
buf += (17+4);
}
else {
buf += (9+4);
}
}
int is_vbr = 0;
if (!strncmp (buf, "Xing", 4)) {
is_vbr = 1;
}
else if (!strncmp (buf, "Info", 4)) {
is_vbr = 0;
}
else {
return -1; // no xing header found
}
buf+=4;
if (h_id) {
buffer->version = 1;
}
else {
buffer->version = 2;
}
buffer->samplerate = sr_table[h_sr_index];
if (!h_id) {
buffer->samplerate >>= 1;
}
uint32_t flags, frames, bytes, vbr_scale;
// get flags
flags = extract_i32 (buf);
buf+=4;
if (flags & FRAMES_FLAG) {
frames = extract_i32(buf);
buf+=4;
}
if (flags & BYTES_FLAG) {
bytes = extract_i32(buf);
buf+=4;
}
if (flags & TOC_FLAG) {
// read toc
buf+=100;
}
vbr_scale = -1;
if (flags & VBR_SCALE_FLAG) {
vbr_scale = extract_i32(buf);
buf+=4;
}
// check for lame header
if( buf[0] != 'L' ) return 0;
if( buf[1] != 'A' ) return 0;
if( buf[2] != 'M' ) return 0;
if( buf[3] != 'E' ) return 0;
printf ("found LAME header\n");
buf += 20;
buf += 140;
uint8_t vbrmethod = header[0xa5];
if (vbrmethod & 0xf0) {
buffer->lame_revision = 1;
}
else {
buffer->lame_revision = 0;
}
buffer->vbrmethod = vbrmethod & 0x0f;
buffer->peak_signal_amp = extract_f32 (&header[0xa7]);
buffer->radio_replay_gain = extract_i16 (&header[0xab]);
buffer->audiophile_replay_gain = extract_i16 (&header[0xad]);
buffer->vbrbitrate = header[0xb0];
buffer->delay_start = (((uint16_t)header[0xb1]) << 4) | (((uint16_t)header[0xb2])>>4);
buffer->delay_end = ((((uint16_t)header[0xb2]) & 0x0f) << 8) | ((uint16_t)header[0xb3]);
buffer->mp3gain = header[0xb5];
buffer->musiclength = extract_i32 (&header[0xb8]);
return 0;
}
#endif
// }}}
static const char *filetypes[] = {
"MPEG 1.0 layer I", "MPEG 1.0 layer II", "MPEG 1.0 layer III", "MPEG 2.0 layer I", "MPEG 2.0 layer II", "MPEG 2.0 layer III", "MPEG 2.5 layer I", "MPEG 2.5 layer II", "MPEG 2.5 layer III", NULL
};
static DB_playItem_t *
cmp3_insert (DB_playItem_t *after, const char *fname) {
FILE *fp = fopen (fname, "rb");
if (!fp) {
return NULL;
}
buffer_t buffer;
memset (&buffer, 0, sizeof (buffer));
buffer.file = fp;
// calc approx. mp3 duration
int res = cmp3_scan_stream (&buffer, 0);
if (res < 0) {
fclose (fp);
return NULL;
}
const char *ftype;
if (buffer.version == 1) {
switch (buffer.layer) {
case 1:
ftype = filetypes[0];
break;
case 2:
ftype = filetypes[1];
break;
case 3:
ftype = filetypes[2];
break;
}
}
else if (buffer.version == 2) {
switch (buffer.layer) {
case 1:
ftype = filetypes[3];
break;
case 2:
ftype = filetypes[4];
break;
case 3:
ftype = filetypes[5];
break;
}
}
else {
switch (buffer.layer) {
case 1:
ftype = filetypes[6];
break;
case 2:
ftype = filetypes[7];
break;
case 3:
ftype = filetypes[8];
break;
}
}
DB_playItem_t *cue_after = deadbeef->pl_insert_cue (after, fname, &plugin, ftype, buffer.duration);
if (cue_after) {
fclose (fp);
return cue_after;
}
rewind (fp);
DB_playItem_t *it = deadbeef->pl_item_alloc ();
it->decoder = &plugin;
it->fname = strdup (fname);
int v2err = deadbeef->junk_read_id3v2 (it, fp);
int v1err = deadbeef->junk_read_id3v1 (it, fp);
if (v1err >= 0) {
fseek (fp, -128, SEEK_END);
}
else {
fseek (fp, 0, SEEK_END);
}
int apeerr = deadbeef->junk_read_ape (it, fp);
deadbeef->pl_add_meta (it, "title", NULL);
it->startoffset = buffer.startoffset;
it->duration = buffer.duration;
it->filetype = ftype;
after = deadbeef->pl_insert_item (after, it);
fclose (fp);
return after;
}
static const char *exts[] = {
"mp1", "mp2", "mp3", NULL
};
// define plugin interface
static DB_decoder_t plugin = {
DB_PLUGIN_SET_API_VERSION
.plugin.version_major = 0,
.plugin.version_minor = 1,
.plugin.type = DB_PLUGIN_DECODER,
.plugin.name = "MPEG v1,2 layer1,2,3 decoder",
.plugin.descr = "based on libmad",
.plugin.author = "Alexey Yakovenko",
.plugin.email = "waker@users.sourceforge.net",
.plugin.website = "http://deadbeef.sf.net",
.init = cmp3_init,
.free = cmp3_free,
// .read = cmp3_read,
.read_int16 = cmp3_read,
.read_float32 = cmp3_read_float32,
.seek = cmp3_seek,
.insert = cmp3_insert,
.exts = exts,
.id = "stdmpg",
.filetypes = filetypes
};
DB_plugin_t *
mpgmad_load (DB_functions_t *api) {
deadbeef = api;
return DB_PLUGIN (&plugin);
}