int ftm_load(xmp_file f)
{
int i, j, k;
struct xmp_event *event;
struct ftm_header fh;
struct ftm_instrument si;
uint8 b1, b2, b3;
LOAD_INIT();
xmp_fread(&fh.id, 4, 1, f);
if (memcmp(fh.id, "FTMN", 4))
return -1;
fh.ver = read8(f);
fh.nos = read8(f);
read16b(f);
read32b(f);
read32b(f);
xmp_fread(&fh.title, 32, 1, f);
xmp_fread(&fh.author, 32, 1, f);
read16b(f);
//mod->len = fh.len;
//mod->pat = fh.pat;
mod->ins = fh.nos;
mod->smp = mod->ins;
mod->trk = mod->pat * mod->chn;
for (i = 0; i < mod->len; i++)
mod->xxo[i] = fh.order[i];
set_type(m, "Face The Music");
MODULE_INFO();
PATTERN_INIT();
/* Load and convert patterns */
if (V(0))
report("Stored patterns: %d ", mod->pat);
for (i = 0; i < mod->pat; i++) {
PATTERN_ALLOC(i);
mod->xxp[i]->rows = 64;
TRACK_ALLOC(i);
for (j = 0; j < 4; j++) {
}
reportv(ctx, 0, ".");
}
INSTRUMENT_INIT();
reportv(ctx, 0, "\nStored samples : %d ", mod->smp);
for (i = 0; i < mod->smp; i++) {
reportv(ctx, 0, ".");
}
reportv(ctx, 0, "\n");
mod->flg |= XXM_FLG_MODRNG;
return 0;
}
static int mfp_load(struct xmp_context *ctx, FILE *f, const int start)
{
struct xmp_player_context *p = &ctx->p;
struct xmp_mod_context *m = &p->m;
int i, j, k, x, y;
struct xxm_event *event;
struct stat st;
char smp_filename[PATH_MAX];
FILE *s;
int size1, size2;
int pat_addr, pat_table[128][4];
uint8 buf[1024], mod_event[4];
int row;
LOAD_INIT();
sprintf(m->type, "Magnetic Fields Packer");
MODULE_INFO();
m->xxh->chn = 4;
m->xxh->ins = m->xxh->smp = 31;
INSTRUMENT_INIT();
reportv(ctx, 1, " Len LBeg LEnd L Vol Fin\n");
for (i = 0; i < 31; i++) {
int loop_size;
m->xxi[i] = calloc(sizeof(struct xxm_instrument), 1);
m->xxs[i].len = 2 * read16b(f);
m->xxi[i][0].fin = (int8)(read8(f) << 4);
m->xxi[i][0].vol = read8(f);
m->xxs[i].lps = 2 * read16b(f);
loop_size = read16b(f);
m->xxs[i].lpe = m->xxs[i].lps + 2 * loop_size;
m->xxs[i].flg = loop_size > 1 ? WAVE_LOOPING : 0;
m->xxi[i][0].pan = 0x80;
m->xxi[i][0].sid = i;
m->xxih[i].nsm = !!(m->xxs[i].len);
m->xxih[i].rls = 0xfff;
if (V(1) && m->xxs[i].len > 2) {
report("[%2X] %04x %04x %04x %c V%02x %+d %c\n",
i, m->xxs[i].len, m->xxs[i].lps,
m->xxs[i].lpe,
loop_size > 1 ? 'L' : ' ',
m->xxi[i][0].vol, m->xxi[i][0].fin >> 4,
m->xxs[i].flg & WAVE_PTKLOOP ? '!' : ' ');
}
}
static void get_info(struct module_data *m, int size, FILE *f, void *parm)
{
struct xmp_module *mod = &m->mod;
mod->ins = read16b(f);
mod->smp = read16b(f);
read16b(f); /* Songs */
mod->pat = read16b(f);
mod->chn = read16b(f);
mod->trk = mod->pat * mod->chn;
INSTRUMENT_INIT();
}
static void get_info(struct xmp_context *ctx, int size, FILE *f)
{
struct xmp_player_context *p = &ctx->p;
struct xmp_mod_context *m = &p->m;
m->xxh->ins = read16b(f);
m->xxh->smp = read16b(f);
read16b(f); /* Songs */
m->xxh->pat = read16b(f);
m->xxh->chn = read16b(f);
m->xxh->trk = m->xxh->pat * m->xxh->chn;
INSTRUMENT_INIT();
}
static void get_emic(struct xmp_context *ctx, int size, FILE *f)
{
struct xmp_player_context *p = &ctx->p;
struct xmp_mod_context *m = &p->m;
int i, ver;
ver = read16b(f);
fread(m->name, 1, 20, f);
fread(m->author, 1, 20, f);
m->xxh->bpm = read8(f);
m->xxh->ins = read8(f);
m->xxh->smp = m->xxh->ins;
m->xxh->flg |= XXM_FLG_MODRNG;
snprintf(m->type, XMP_NAMESIZE, "EMOD v%d (Quadra Composer)", ver);
MODULE_INFO();
INSTRUMENT_INIT();
reportv(ctx, 1, " Instrument name Len LBeg LEnd L Vol Fin\n");
for (i = 0; i < m->xxh->ins; i++) {
m->xxi[i] = calloc(sizeof (struct xxm_instrument), 1);
read8(f); /* num */
m->xxi[i][0].vol = read8(f);
m->xxs[i].len = 2 * read16b(f);
fread(m->xxih[i].name, 1, 20, f);
m->xxs[i].flg = read8(f) & 1 ? WAVE_LOOPING : 0;
m->xxi[i][0].fin = read8(f);
m->xxs[i].lps = 2 * read16b(f);
m->xxs[i].lpe = m->xxs[i].lps + 2 * read16b(f);
read32b(f); /* ptr */
m->xxih[i].nsm = 1;
m->xxi[i][0].pan = 0x80;
m->xxi[i][0].sid = i;
if (V(1) && (strlen((char *)m->xxih[i].name) || (m->xxs[i].len > 2))) {
report ("[%2X] %-20.20s %05x %05x %05x %c V%02x %+d\n",
i, m->xxih[i].name, m->xxs[i].len, m->xxs[i].lps,
m->xxs[i].lpe, m->xxs[i].flg & WAVE_LOOPING ? 'L' : ' ',
m->xxi[i][0].vol, m->xxi[i][0].fin >> 4);
}
}
static void get_samp(struct xmp_context *ctx, int size, FILE *f)
{
struct xmp_player_context *p = &ctx->p;
struct xmp_mod_context *m = &p->m;
int i, j;
int looplen;
/* Should be always 36 */
m->xxh->ins = size / 32; /* sizeof(struct okt_instrument_header); */
m->xxh->smp = m->xxh->ins;
INSTRUMENT_INIT();
reportv(ctx, 1, " Instrument name Len Lbeg Lend L Vol Mod\n");
for (j = i = 0; i < m->xxh->ins; i++) {
m->xxi[i] = calloc(sizeof (struct xxm_instrument), 1);
fread(m->xxih[i].name, 1, 20, f);
str_adj((char *)m->xxih[i].name);
/* Sample size is always rounded down */
m->xxs[i].len = read32b(f) & ~1;
m->xxs[i].lps = read16b(f);
looplen = read16b(f);
m->xxs[i].lpe = m->xxs[i].lps + looplen;
m->xxi[i][0].vol = read16b(f);
mode[i] = read16b(f);
m->xxih[i].nsm = !!(m->xxs[i].len);
m->xxs[i].flg = looplen > 2 ? WAVE_LOOPING : 0;
m->xxi[i][0].pan = 0x80;
m->xxi[i][0].sid = j;
idx[j] = i;
if ((V(1)) && (strlen((char *)m->xxih[i].name) || (m->xxs[i].len > 1)))
report ("[%2X] %-20.20s %05x %05x %05x %c V%02x M%02x\n", i,
m->xxih[i].name, m->xxs[i].len, m->xxs[i].lps, m->xxs[i].lpe, m->xxs[i].flg
& WAVE_LOOPING ? 'L' : ' ', m->xxi[i][0].vol, mode[i]);
if (m->xxih[i].nsm)
j++;
}
}
static void get_samp(struct module_data *m, int size, xmp_file f, void *parm)
{
struct xmp_module *mod = &m->mod;
struct local_data *data = (struct local_data *)parm;
int i, j;
int looplen;
/* Should be always 36 */
mod->ins = size / 32; /* sizeof(struct okt_instrument_header); */
mod->smp = mod->ins;
INSTRUMENT_INIT();
for (j = i = 0; i < mod->ins; i++) {
mod->xxi[i].sub = calloc(sizeof (struct xmp_subinstrument), 1);
xmp_fread(mod->xxi[i].name, 1, 20, f);
str_adj((char *)mod->xxi[i].name);
/* Sample size is always rounded down */
mod->xxs[i].len = read32b(f) & ~1;
mod->xxs[i].lps = read16b(f);
looplen = read16b(f);
mod->xxs[i].lpe = mod->xxs[i].lps + looplen;
mod->xxi[i].sub[0].vol = read16b(f);
data->mode[i] = read16b(f);
mod->xxi[i].nsm = !!(mod->xxs[i].len);
mod->xxs[i].flg = looplen > 2 ? XMP_SAMPLE_LOOP : 0;
mod->xxi[i].sub[0].pan = 0x80;
mod->xxi[i].sub[0].sid = j;
data->idx[j] = i;
D_(D_INFO "[%2X] %-20.20s %05x %05x %05x %c V%02x M%02x\n", i,
mod->xxi[i].name, mod->xxs[i].len, mod->xxs[i].lps,
mod->xxs[i].lpe, mod->xxs[i].flg & XMP_SAMPLE_LOOP ? 'L' : ' ',
mod->xxi[i].sub[0].vol, data->mode[i]);
if (mod->xxi[i].nsm)
j++;
}
}
static int far_load(struct module_data *m, FILE *f, const int start)
{
struct xmp_module *mod = &m->mod;
int i, j, vib = 0;
struct xmp_event *event;
struct far_header ffh;
struct far_header2 ffh2;
struct far_instrument fih;
uint8 sample_map[8];
LOAD_INIT();
read32b(f); /* File magic: 'FAR\xfe' */
fread(&ffh.name, 40, 1, f); /* Song name */
fread(&ffh.crlf, 3, 1, f); /* 0x0d 0x0a 0x1A */
ffh.headersize = read16l(f); /* Remaining header size in bytes */
ffh.version = read8(f); /* Version MSN=major, LSN=minor */
fread(&ffh.ch_on, 16, 1, f); /* Channel on/off switches */
fseek(f, 9, SEEK_CUR); /* Current editing values */
ffh.tempo = read8(f); /* Default tempo */
fread(&ffh.pan, 16, 1, f); /* Channel pan definitions */
read32l(f); /* Grid, mode (for editor) */
ffh.textlen = read16l(f); /* Length of embedded text */
fseek(f, ffh.textlen, SEEK_CUR); /* Skip song text */
fread(&ffh2.order, 256, 1, f); /* Orders */
ffh2.patterns = read8(f); /* Number of stored patterns (?) */
ffh2.songlen = read8(f); /* Song length in patterns */
ffh2.restart = read8(f); /* Restart pos */
for (i = 0; i < 256; i++)
ffh2.patsize[i] = read16l(f); /* Size of each pattern in bytes */
mod->chn = 16;
/*mod->pat=ffh2.patterns; (Error in specs? --claudio) */
mod->len = ffh2.songlen;
mod->spd = 6;
mod->bpm = 8 * 60 / ffh.tempo;
memcpy (mod->xxo, ffh2.order, mod->len);
for (mod->pat = i = 0; i < 256; i++) {
if (ffh2.patsize[i])
mod->pat = i + 1;
}
mod->trk = mod->chn * mod->pat;
strncpy(mod->name, (char *)ffh.name, 40);
set_type(m, "Farandole Composer %d.%d", MSN(ffh.version), LSN(ffh.version));
MODULE_INFO();
PATTERN_INIT();
/* Read and convert patterns */
D_(D_INFO "Comment bytes : %d", ffh.textlen);
D_(D_INFO "Stored patterns: %d", mod->pat);
for (i = 0; i < mod->pat; i++) {
uint8 brk, note, ins, vol, fxb;
PATTERN_ALLOC(i);
if (!ffh2.patsize[i])
continue;
mod->xxp[i]->rows = (ffh2.patsize[i] - 2) / 64;
TRACK_ALLOC(i);
brk = read8(f) + 1;
read8(f);
for (j = 0; j < mod->xxp[i]->rows * mod->chn; j++) {
event = &EVENT(i, j % mod->chn, j / mod->chn);
if ((j % mod->chn) == 0 && (j / mod->chn) == brk)
event->f2t = FX_BREAK;
note = read8(f);
ins = read8(f);
vol = read8(f);
fxb = read8(f);
if (note)
event->note = note + 48;
if (event->note || ins)
event->ins = ins + 1;
vol = 16 * LSN(vol) + MSN(vol);
if (vol)
event->vol = vol - 0x10; /* ? */
event->fxt = fx[MSN(fxb)];
event->fxp = LSN(fxb);
switch (event->fxt) {
case NONE:
event->fxt = event->fxp = 0;
break;
case FX_FAR_PORTA_UP:
event->fxt = FX_EXTENDED;
event->fxp |= (EX_F_PORTA_UP << 4);
break;
case FX_FAR_PORTA_DN:
event->fxt = FX_EXTENDED;
event->fxp |= (EX_F_PORTA_DN << 4);
break;
case FX_FAR_RETRIG:
event->fxt = FX_EXTENDED;
event->fxp |= (EX_RETRIG << 4);
break;
case FX_FAR_DELAY:
event->fxt = FX_EXTENDED;
event->fxp |= (EX_DELAY << 4);
break;
case FX_FAR_SETVIBRATO:
vib = event->fxp & 0x0f;
event->fxt = event->fxp = 0;
break;
case FX_VIBRATO:
event->fxp = (event->fxp << 4) + vib;
break;
case FX_PER_VIBRATO:
event->fxp = (event->fxp << 4) + vib;
break;
case FX_FAR_VSLIDE_UP: /* Fine volume slide up */
event->fxt = FX_EXTENDED;
event->fxp |= (EX_F_VSLIDE_UP << 4);
break;
case FX_FAR_VSLIDE_DN: /* Fine volume slide down */
event->fxt = FX_EXTENDED;
event->fxp |= (EX_F_VSLIDE_DN << 4);
break;
case FX_SPEED:
event->fxp = 8 * 60 / event->fxp;
break;
}
}
}
mod->ins = -1;
fread(sample_map, 1, 8, f);
for (i = 0; i < 64; i++) {
if (sample_map[i / 8] & (1 << (i % 8)))
mod->ins = i;
}
mod->ins++;
mod->smp = mod->ins;
INSTRUMENT_INIT();
/* Read and convert instruments and samples */
for (i = 0; i < mod->ins; i++) {
if (!(sample_map[i / 8] & (1 << (i % 8))))
continue;
mod->xxi[i].sub = calloc(sizeof (struct xmp_subinstrument), 1);
fread(&fih.name, 32, 1, f); /* Instrument name */
fih.length = read32l(f); /* Length of sample (up to 64Kb) */
fih.finetune = read8(f); /* Finetune (unsuported) */
fih.volume = read8(f); /* Volume (unsuported?) */
fih.loop_start = read32l(f); /* Loop start */
fih.loopend = read32l(f); /* Loop end */
fih.sampletype = read8(f); /* 1=16 bit sample */
fih.loopmode = read8(f);
fih.length &= 0xffff;
fih.loop_start &= 0xffff;
fih.loopend &= 0xffff;
mod->xxs[i].len = fih.length;
mod->xxi[i].nsm = fih.length > 0 ? 1 : 0;
mod->xxs[i].lps = fih.loop_start;
mod->xxs[i].lpe = fih.loopend;
mod->xxs[i].flg = 0;
if (fih.sampletype != 0) {
mod->xxs[i].flg |= XMP_SAMPLE_16BIT;
mod->xxs[i].len >>= 1;
mod->xxs[i].lps >>= 1;
mod->xxs[i].lpe >>= 1;
}
mod->xxs[i].flg |= fih.loopmode ? XMP_SAMPLE_LOOP : 0;
mod->xxi[i].sub[0].vol = 0xff; /* fih.volume; */
mod->xxi[i].sub[0].sid = i;
copy_adjust(mod->xxi[i].name, fih.name, 32);
D_(D_INFO "[%2X] %-32.32s %04x %04x %04x %c V%02x",
i, mod->xxi[i].name, mod->xxs[i].len, mod->xxs[i].lps,
mod->xxs[i].lpe, fih.loopmode ? 'L' : ' ', mod->xxi[i].sub[0].vol);
load_sample(f, 0, &mod->xxs[i], NULL);
}
static int ims_load(struct xmp_context *ctx, FILE *f, const int start)
{
struct xmp_player_context *p = &ctx->p;
struct xmp_mod_context *m = &p->m;
int i, j;
int smp_size;
struct xxm_event *event;
struct ims_header ih;
uint8 ims_event[3];
int xpo = 21; /* Tuned against UADE */
LOAD_INIT();
m->xxh->ins = 31;
m->xxh->smp = m->xxh->ins;
smp_size = 0;
fread (&ih.title, 20, 1, f);
for (i = 0; i < 31; i++) {
fread (&ih.ins[i].name, 20, 1, f);
ih.ins[i].finetune = (int16)read16b(f);
ih.ins[i].size = read16b(f);
ih.ins[i].unknown = read8(f);
ih.ins[i].volume = read8(f);
ih.ins[i].loop_start = read16b(f);
ih.ins[i].loop_size = read16b(f);
smp_size += ih.ins[i].size * 2;
}
ih.len = read8(f);
ih.zero = read8(f);
fread (&ih.orders, 128, 1, f);
fread (&ih.magic, 4, 1, f);
m->xxh->len = ih.len;
memcpy (m->xxo, ih.orders, m->xxh->len);
for (i = 0; i < m->xxh->len; i++)
if (m->xxo[i] > m->xxh->pat)
m->xxh->pat = m->xxo[i];
m->xxh->pat++;
m->xxh->trk = m->xxh->chn * m->xxh->pat;
strncpy(m->name, (char *)ih.title, 20);
sprintf(m->type, "IMS (Images Music System)");
MODULE_INFO();
INSTRUMENT_INIT();
for (i = 0; i < m->xxh->ins; i++) {
m->xxi[i] = calloc (sizeof (struct xxm_instrument), 1);
m->xxs[i].len = 2 * ih.ins[i].size;
m->xxs[i].lpe = m->xxs[i].lps + 2 * ih.ins[i].loop_size;
m->xxs[i].flg = ih.ins[i].loop_size > 1 ? WAVE_LOOPING : 0;
m->xxi[i][0].fin = 0; /* ih.ins[i].finetune; */
m->xxi[i][0].vol = ih.ins[i].volume;
m->xxi[i][0].pan = 0x80;
m->xxi[i][0].sid = i;
m->xxih[i].nsm = !!(m->xxs[i].len);
m->xxih[i].rls = 0xfff;
copy_adjust(m->xxih[i].name, ih.ins[i].name, 20);
if (V(1) &&
(strlen((char *) m->xxih[i].name) || (m->xxs[i].len > 2))) {
report ("[%2X] %-20.20s %04x %04x %04x %c V%02x %+d\n",
i, m->xxih[i].name, m->xxs[i].len, m->xxs[i].lps,
m->xxs[i].lpe, ih.ins[i].loop_size > 1 ? 'L' : ' ',
m->xxi[i][0].vol, m->xxi[i][0].fin >> 4);
}
}
static int gdm_load(struct xmp_context *ctx, FILE *f, const int start)
{
struct xmp_player_context *p = &ctx->p;
struct xmp_mod_context *m = &p->m;
struct xxm_event *event;
int vermaj, vermin, tvmaj, tvmin, tracker;
int origfmt, ord_ofs, pat_ofs, ins_ofs, smp_ofs;
uint8 buffer[32], panmap[32];
int i;
LOAD_INIT();
read32b(f); /* skip magic */
fread(m->name, 1, 32, f);
fread(m->author, 1, 32, f);
fseek(f, 7, SEEK_CUR);
vermaj = read8(f);
vermin = read8(f);
tracker = read16l(f);
tvmaj = read8(f);
tvmin = read8(f);
if (tracker == 0) {
sprintf(m->type, "GDM %d.%02d, (2GDM %d.%02d)",
vermaj, vermin, tvmaj, tvmin);
} else {
sprintf(m->type, "GDM %d.%02d (unknown tracker %d.%02d)",
vermaj, vermin, tvmaj, tvmin);
}
fread(panmap, 32, 1, f);
for (i = 0; i < 32; i++) {
if (panmap[i] != 0xff)
m->xxh->chn = i + 1;
if (panmap[i] == 16)
panmap[i] = 8;
m->xxc[i].pan = 0x80 + (panmap[i] - 8) * 16;
}
m->xxh->gvl = read8(f);
m->xxh->tpo = read8(f);
m->xxh->bpm = read8(f);
origfmt = read16l(f);
ord_ofs = read32l(f);
m->xxh->len = read8(f);
pat_ofs = read32l(f);
m->xxh->pat = read8(f);
ins_ofs = read32l(f);
smp_ofs = read32l(f);
m->xxh->ins = m->xxh->smp = read8(f);
m->xxh->trk = m->xxh->pat * m->xxh->chn;
MODULE_INFO();
if (origfmt > 9)
origfmt = 9;
reportv(ctx, 0, "Orig format : %s\n", fmt[origfmt]);
fseek(f, start + ord_ofs, SEEK_SET);
for (i = 0; i < m->xxh->len; i++)
m->xxo[i] = read8(f);
/* Read instrument data */
fseek(f, start + ins_ofs, SEEK_SET);
INSTRUMENT_INIT();
reportv(ctx, 1, " Name Len LBeg LEnd L Vol Pan C4Spd\n");
for (i = 0; i < m->xxh->ins; i++) {
int flg, c4spd, vol, pan;
m->xxi[i] = calloc(sizeof(struct xxm_instrument), 1);
fread(buffer, 32, 1, f);
copy_adjust(m->xxih[i].name, buffer, 32);
fseek(f, 12, SEEK_CUR); /* skip filename */
read8(f); /* skip EMS handle */
m->xxs[i].len = read32l(f);
m->xxs[i].lps = read32l(f);
m->xxs[i].lpe = read32l(f);
flg = read8(f);
c4spd = read16l(f);
vol = read8(f);
pan = read8(f);
m->xxi[i][0].vol = vol > 0x40 ? 0x40 : vol;
m->xxi[i][0].pan = pan > 15 ? 0x80 : 0x80 + (pan - 8) * 16;
c2spd_to_note(c4spd, &m->xxi[i][0].xpo, &m->xxi[i][0].fin);
m->xxih[i].nsm = !!(m->xxs[i].len);
m->xxi[i][0].sid = i;
m->xxs[i].flg = 0;
if (flg & 0x01)
m->xxs[i].flg |= WAVE_LOOPING;
if (flg & 0x02)
m->xxs[i].flg |= WAVE_16_BITS;
if (V(1) && (strlen((char*)m->xxih[i].name) || (m->xxs[i].len > 1))) {
report("[%2X] %-32.32s %05x%c%05x %05x %c V%02x P%02x %5d\n",
i, m->xxih[i].name,
m->xxs[i].len,
m->xxs[i].flg & WAVE_16_BITS ? '+' : ' ',
m->xxs[i].lps,
m->xxs[i].lpe,
m->xxs[i].flg & WAVE_LOOPING ? 'L' : ' ',
m->xxi[i][0].vol,
m->xxi[i][0].pan,
c4spd);
}
}
/* Read and convert patterns */
fseek(f, start + pat_ofs, SEEK_SET);
PATTERN_INIT();
reportv(ctx, 0, "Stored patterns: %d ", m->xxh->pat);
for (i = 0; i < m->xxh->pat; i++) {
int len, c, r, k;
PATTERN_ALLOC(i);
m->xxp[i]->rows = 64;
TRACK_ALLOC(i);
len = read16l(f);
len -= 2;
for (r = 0; len > 0; ) {
c = read8(f);
len--;
if (c == 0) {
r++;
continue;
}
assert((c & 0x1f) < m->xxh->chn);
event = &EVENT (i, c & 0x1f, r);
if (c & 0x20) { /* note and sample follows */
k = read8(f);
event->note = 12 * MSN(k & 0x7f) + LSN(k);
event->ins = read8(f);
len -= 2;
}
if (c & 0x40) { /* effect(s) follow */
do {
k = read8(f);
len--;
switch ((k & 0xc0) >> 6) {
case 0:
event->fxt = k & 0x1f;
event->fxp = read8(f);
len--;
fix_effect(&event->fxt, &event->fxp);
break;
case 1:
event->f2t = k & 0x1f;
event->f2p = read8(f);
len--;
fix_effect(&event->f2t, &event->f2p);
break;
case 2:
read8(f);
len--;
}
} while (k & 0x20);
}
}
reportv(ctx, 0, ".");
}
reportv(ctx, 0, "\n");
/* Read samples */
fseek(f, start + smp_ofs, SEEK_SET);
reportv(ctx, 0, "Stored samples : %d ", m->xxh->smp);
for (i = 0; i < m->xxh->ins; i++) {
xmp_drv_loadpatch(ctx, f, m->xxi[i][0].sid, m->c4rate,
XMP_SMP_UNS, &m->xxs[m->xxi[i][0].sid], NULL);
reportv(ctx, 0, ".");
}
reportv(ctx, 0, "\n");
return 0;
}
static int gtk_load(struct module_data *m, FILE *f, const int start)
{
struct xmp_module *mod = &m->mod;
struct xmp_event *event;
int i, j, k;
uint8 buffer[40];
int rows, bits, c2spd, size;
int ver, patmax;
LOAD_INIT();
fread(buffer, 4, 1, f);
ver = buffer[3];
fread(mod->name, 32, 1, f);
set_type(m, "Graoumf Tracker GTK v%d", ver);
fseek(f, 160, SEEK_CUR); /* skip comments */
mod->ins = read16b(f);
mod->smp = mod->ins;
rows = read16b(f);
mod->chn = read16b(f);
mod->len = read16b(f);
mod->rst = read16b(f);
MODULE_INFO();
D_(D_INFO "Instruments : %d ", mod->ins);
INSTRUMENT_INIT();
for (i = 0; i < mod->ins; i++) {
mod->xxi[i].sub = calloc(sizeof (struct xmp_subinstrument), 1);
fread(buffer, 28, 1, f);
copy_adjust(mod->xxi[i].name, buffer, 28);
if (ver == 1) {
read32b(f);
mod->xxs[i].len = read32b(f);
mod->xxs[i].lps = read32b(f);
size = read32b(f);
mod->xxs[i].lpe = mod->xxs[i].lps + size - 1;
read16b(f);
read16b(f);
mod->xxi[i].sub[0].vol = 0x40;
mod->xxi[i].sub[0].pan = 0x80;
bits = 1;
c2spd = 8363;
} else {
fseek(f, 14, SEEK_CUR);
read16b(f); /* autobal */
bits = read16b(f); /* 1 = 8 bits, 2 = 16 bits */
c2spd = read16b(f);
c2spd_to_note(c2spd, &mod->xxi[i].sub[0].xpo, &mod->xxi[i].sub[0].fin);
mod->xxs[i].len = read32b(f);
mod->xxs[i].lps = read32b(f);
size = read32b(f);
mod->xxs[i].lpe = mod->xxs[i].lps + size - 1;
mod->xxi[i].sub[0].vol = read16b(f) / 4;
read8(f);
mod->xxi[i].sub[0].fin = read8s(f);
}
mod->xxi[i].nsm = !!mod->xxs[i].len;
mod->xxi[i].sub[0].sid = i;
mod->xxs[i].flg = size > 2 ? XMP_SAMPLE_LOOP : 0;
if (bits > 1) {
mod->xxs[i].flg |= XMP_SAMPLE_16BIT;
mod->xxs[i].len >>= 1;
mod->xxs[i].lps >>= 1;
mod->xxs[i].lpe >>= 1;
}
D_(D_INFO "[%2X] %-28.28s %05x%c%05x %05x %c "
"V%02x F%+03d %5d", i,
mod->xxi[i].name,
mod->xxs[i].len,
bits > 1 ? '+' : ' ',
mod->xxs[i].lps,
size,
mod->xxs[i].flg & XMP_SAMPLE_LOOP ? 'L' : ' ',
mod->xxi[i].sub[0].vol, mod->xxi[i].sub[0].fin,
c2spd);
}
static int stx_load(struct module_data *m, xmp_file f, const int start)
{
struct xmp_module *mod = &m->mod;
int c, r, i, broken = 0;
struct xmp_event *event = 0, dummy;
struct stx_file_header sfh;
struct stx_instrument_header sih;
uint8 n, b;
uint16 x16;
int bmod2stm = 0;
uint16 *pp_ins; /* Parapointers to instruments */
uint16 *pp_pat; /* Parapointers to patterns */
LOAD_INIT();
xmp_fread(&sfh.name, 20, 1, f);
xmp_fread(&sfh.magic, 8, 1, f);
sfh.psize = read16l(f);
sfh.unknown1 = read16l(f);
sfh.pp_pat = read16l(f);
sfh.pp_ins = read16l(f);
sfh.pp_chn = read16l(f);
sfh.unknown2 = read16l(f);
sfh.unknown3 = read16l(f);
sfh.gvol = read8(f);
sfh.tempo = read8(f);
sfh.unknown4 = read16l(f);
sfh.unknown5 = read16l(f);
sfh.patnum = read16l(f);
sfh.insnum = read16l(f);
sfh.ordnum = read16l(f);
sfh.unknown6 = read16l(f);
sfh.unknown7 = read16l(f);
sfh.unknown8 = read16l(f);
xmp_fread(&sfh.magic2, 4, 1, f);
/* BMOD2STM does not convert pitch */
if (!strncmp ((char *) sfh.magic, "BMOD2STM", 8))
bmod2stm = 1;
#if 0
if ((strncmp ((char *) sfh.magic, "!Scream!", 8) &&
!bmod2stm) || strncmp ((char *) sfh.magic2, "SCRM", 4))
return -1;
#endif
mod->ins = sfh.insnum;
mod->pat = sfh.patnum;
mod->trk = mod->pat * mod->chn;
mod->len = sfh.ordnum;
mod->spd = MSN (sfh.tempo);
mod->smp = mod->ins;
m->c4rate = C4_NTSC_RATE;
/* STM2STX 1.0 released with STMIK 0.2 converts STMs with the pattern
* length encoded in the first two bytes of the pattern (like S3M).
*/
xmp_fseek(f, start + (sfh.pp_pat << 4), SEEK_SET);
x16 = read16l(f);
xmp_fseek(f, start + (x16 << 4), SEEK_SET);
x16 = read16l(f);
if (x16 == sfh.psize)
broken = 1;
strncpy(mod->name, (char *)sfh.name, 20);
if (bmod2stm)
set_type(m, "BMOD2STM STX");
else
snprintf(mod->type, XMP_NAME_SIZE, "STM2STX 1.%d", broken ? 0 : 1);
MODULE_INFO();
pp_pat = calloc (2, mod->pat);
pp_ins = calloc (2, mod->ins);
/* Read pattern pointers */
xmp_fseek(f, start + (sfh.pp_pat << 4), SEEK_SET);
for (i = 0; i < mod->pat; i++)
pp_pat[i] = read16l(f);
/* Read instrument pointers */
xmp_fseek(f, start + (sfh.pp_ins << 4), SEEK_SET);
for (i = 0; i < mod->ins; i++)
pp_ins[i] = read16l(f);
/* Skip channel table (?) */
xmp_fseek(f, start + (sfh.pp_chn << 4) + 32, SEEK_SET);
/* Read orders */
for (i = 0; i < mod->len; i++) {
mod->xxo[i] = read8(f);
xmp_fseek(f, 4, SEEK_CUR);
}
INSTRUMENT_INIT();
/* Read and convert instruments and samples */
for (i = 0; i < mod->ins; i++) {
mod->xxi[i].sub = calloc(sizeof (struct xmp_subinstrument), 1);
xmp_fseek(f, start + (pp_ins[i] << 4), SEEK_SET);
sih.type = read8(f);
xmp_fread(&sih.dosname, 13, 1, f);
sih.memseg = read16l(f);
sih.length = read32l(f);
sih.loopbeg = read32l(f);
sih.loopend = read32l(f);
sih.vol = read8(f);
sih.rsvd1 = read8(f);
sih.pack = read8(f);
sih.flags = read8(f);
sih.c2spd = read16l(f);
sih.rsvd2 = read16l(f);
xmp_fread(&sih.rsvd3, 4, 1, f);
sih.int_gp = read16l(f);
sih.int_512 = read16l(f);
sih.int_last = read32l(f);
xmp_fread(&sih.name, 28, 1, f);
xmp_fread(&sih.magic, 4, 1, f);
mod->xxi[i].nsm = !!(mod->xxs[i].len = sih.length);
mod->xxs[i].lps = sih.loopbeg;
mod->xxs[i].lpe = sih.loopend;
if (mod->xxs[i].lpe == 0xffff)
mod->xxs[i].lpe = 0;
mod->xxs[i].flg = mod->xxs[i].lpe > 0 ? XMP_SAMPLE_LOOP : 0;
mod->xxi[i].sub[0].vol = sih.vol;
mod->xxi[i].sub[0].pan = 0x80;
mod->xxi[i].sub[0].sid = i;
copy_adjust(mod->xxi[i].name, sih.name, 12);
D_(D_INFO "[%2X] %-14.14s %04x %04x %04x %c V%02x %5d\n", i,
mod->xxi[i].name, mod->xxs[i].len, mod->xxs[i].lps, mod->xxs[i].lpe,
mod->xxs[i].flg & XMP_SAMPLE_LOOP ? 'L' : ' ',
mod->xxi[i].sub[0].vol, sih.c2spd);
sih.c2spd = 8363 * sih.c2spd / 8448;
c2spd_to_note(sih.c2spd, &mod->xxi[i].sub[0].xpo, &mod->xxi[i].sub[0].fin);
}
PATTERN_INIT();
/* Read and convert patterns */
D_(D_INFO "Stored patterns: %d", mod->pat);
for (i = 0; i < mod->pat; i++) {
PATTERN_ALLOC (i);
mod->xxp[i]->rows = 64;
TRACK_ALLOC (i);
if (!pp_pat[i])
continue;
xmp_fseek(f, start + (pp_pat[i] << 4), SEEK_SET);
if (broken)
xmp_fseek(f, 2, SEEK_CUR);
for (r = 0; r < 64; ) {
b = read8(f);
if (b == S3M_EOR) {
r++;
continue;
}
c = b & S3M_CH_MASK;
event = c >= mod->chn ? &dummy : &EVENT (i, c, r);
if (b & S3M_NI_FOLLOW) {
n = read8(f);
switch (n) {
case 255:
n = 0;
break; /* Empty note */
case 254:
n = XMP_KEY_OFF;
break; /* Key off */
default:
n = 37 + 12 * MSN (n) + LSN (n);
}
event->note = n;
event->ins = read8(f);;
}
if (b & S3M_VOL_FOLLOWS) {
event->vol = read8(f) + 1;
}
if (b & S3M_FX_FOLLOWS) {
event->fxt = fx[read8(f)];
event->fxp = read8(f);
switch (event->fxt) {
case FX_SPEED:
event->fxp = MSN (event->fxp);
break;
case FX_NONE:
event->fxp = event->fxt = 0;
break;
}
}
}
}
free (pp_pat);
free (pp_ins);
/* Read samples */
D_(D_INFO "Stored samples: %d", mod->smp);
for (i = 0; i < mod->ins; i++) {
load_sample(m, f, 0, &mod->xxs[mod->xxi[i].sub[0].sid], NULL);
}
m->quirk |= QUIRK_VSALL | QUIRKS_ST3;
m->read_event_type = READ_EVENT_ST3;
return 0;
}
static int hsc_load(struct module_data *m, xmp_file f, const int start)
{
struct xmp_module *mod = &m->mod;
int pat, i, r, c;
struct xmp_event *event;
uint8 *x, *sid, e[2], buf[128 * 12];
LOAD_INIT();
xmp_fread(buf, 1, 128 * 12, f);
x = buf;
for (i = 0; i < 128; i++, x += 12) {
if (x[9] & ~0x3 || x[10] & ~0x3) /* Test waveform register */
break;
if (x[8] & ~0xf) /* Test feedback & algorithm */
break;
}
mod->ins = i;
xmp_fseek(f, start + 0, SEEK_SET);
mod->chn = 9;
mod->bpm = 135;
mod->spd = 6;
mod->smp = mod->ins;
m->quirk |= QUIRK_LINEAR;
set_type(m, "HSC-Tracker");
MODULE_INFO();
/* Read instruments */
INSTRUMENT_INIT();
xmp_fread (buf, 1, 128 * 12, f);
sid = buf;
for (i = 0; i < mod->ins; i++, sid += 12) {
mod->xxi[i].sub = calloc(sizeof (struct xmp_subinstrument), 1);
mod->xxi[i].nsm = 1;
mod->xxi[i].sub[0].vol = 0x40;
mod->xxi[i].sub[0].fin = (int8)sid[11] / 4;
mod->xxi[i].sub[0].pan = 0x80;
mod->xxi[i].sub[0].xpo = 0;
mod->xxi[i].sub[0].sid = i;
mod->xxi[i].rls = LSN(sid[7]) * 32; /* carrier release */
load_sample(m, f, SAMPLE_FLAG_ADLIB | SAMPLE_FLAG_HSC,
&mod->xxs[i], (char *)sid);
}
/* Read orders */
for (pat = i = 0; i < 51; i++) {
xmp_fread (&mod->xxo[i], 1, 1, f);
if (mod->xxo[i] & 0x80)
break; /* FIXME: jump line */
if (mod->xxo[i] > pat)
pat = mod->xxo[i];
}
xmp_fseek(f, 50 - i, SEEK_CUR);
mod->len = i;
mod->pat = pat + 1;
mod->trk = mod->pat * mod->chn;
D_(D_INFO "Module length: %d", mod->len);
D_(D_INFO "Instruments: %d", mod->ins);
D_(D_INFO "Stored patterns: %d", mod->pat);
PATTERN_INIT();
/* Read and convert patterns */
for (i = 0; i < mod->pat; i++) {
int ins[9] = { 1, 2, 3, 4, 5, 6, 7, 8, 9 };
PATTERN_ALLOC (i);
mod->xxp[i]->rows = 64;
TRACK_ALLOC (i);
for (r = 0; r < mod->xxp[i]->rows; r++) {
for (c = 0; c < 9; c++) {
xmp_fread (e, 1, 2, f);
event = &EVENT (i, c, r);
if (e[0] & 0x80) {
ins[c] = e[1] + 1;
} else if (e[0] == 0x7f) {
event->note = XMP_KEY_OFF;
} else if (e[0] > 0) {
event->note = e[0] + 25;
event->ins = ins[c];
}
event->fxt = 0;
event->fxp = 0;
if (e[1] == 0x01) {
event->fxt = 0x0d;
event->fxp = 0;
}
}
}
}
for (i = 0; i < mod->chn; i++) {
mod->xxc[i].pan = 0x80;
mod->xxc[i].flg = XMP_CHANNEL_SYNTH;
}
m->synth = &synth_adlib;
return 0;
}
static int mgt_load(struct xmp_context *ctx, FILE *f, const int start)
{
struct xmp_player_context *p = &ctx->p;
struct xmp_mod_context *m = &p->m;
struct xxm_event *event;
int i, j;
int ver;
int sng_ptr, seq_ptr, ins_ptr, pat_ptr, trk_ptr, smp_ptr;
int sdata[64];
LOAD_INIT();
read24b(f); /* MGT */
ver = read8(f);
read32b(f); /* MCS */
sprintf(m->type, "MGT v%d.%d (Megatracker)", MSN(ver), LSN(ver));
m->xxh->chn = read16b(f);
read16b(f); /* number of songs */
m->xxh->len = read16b(f);
m->xxh->pat = read16b(f);
m->xxh->trk = read16b(f);
m->xxh->ins = m->xxh->smp = read16b(f);
read16b(f); /* reserved */
read32b(f); /* reserved */
sng_ptr = read32b(f);
seq_ptr = read32b(f);
ins_ptr = read32b(f);
pat_ptr = read32b(f);
trk_ptr = read32b(f);
smp_ptr = read32b(f);
read32b(f); /* total smp len */
read32b(f); /* unpacked trk size */
fseek(f, start + sng_ptr, SEEK_SET);
fread(m->name, 1, 32, f);
seq_ptr = read32b(f);
m->xxh->len = read16b(f);
m->xxh->rst = read16b(f);
m->xxh->bpm = read8(f);
m->xxh->tpo = read8(f);
read16b(f); /* global volume */
read8(f); /* master L */
read8(f); /* master R */
for (i = 0; i < m->xxh->chn; i++) {
read16b(f); /* pan */
}
MODULE_INFO();
/* Sequence */
fseek(f, start + seq_ptr, SEEK_SET);
for (i = 0; i < m->xxh->len; i++)
m->xxo[i] = read16b(f);
/* Instruments */
INSTRUMENT_INIT();
fseek(f, start + ins_ptr, SEEK_SET);
reportv(ctx, 1, " Name Len LBeg LEnd L Vol C2Spd\n");
for (i = 0; i < m->xxh->ins; i++) {
int c2spd, flags;
m->xxi[i] = calloc(sizeof(struct xxm_instrument), 1);
fread(m->xxih[i].name, 1, 32, f);
sdata[i] = read32b(f);
m->xxs[i].len = read32b(f);
m->xxs[i].lps = read32b(f);
m->xxs[i].lpe = m->xxs[i].lps + read32b(f);
read32b(f);
read32b(f);
c2spd = read32b(f);
c2spd_to_note(c2spd, &m->xxi[i][0].xpo, &m->xxi[i][0].fin);
m->xxi[i][0].vol = read16b(f) >> 4;
read8(f); /* vol L */
read8(f); /* vol R */
m->xxi[i][0].pan = 0x80;
flags = read8(f);
m->xxs[i].flg = flags & 0x03 ? WAVE_LOOPING : 0;
m->xxs[i].flg |= flags & 0x02 ? WAVE_BIDIR_LOOP : 0;
m->xxi[i][0].fin += 0 * read8(f); // FIXME
read8(f); /* unused */
read8(f);
read8(f);
read8(f);
read16b(f);
read32b(f);
read32b(f);
m->xxih[i].nsm = !!m->xxs[i].len;
m->xxi[i][0].sid = i;
if (V(1) && (strlen((char*)m->xxih[i].name) || (m->xxs[i].len > 1))) {
report("[%2X] %-32.32s %04x %04x %04x %c V%02x %5d\n",
i, m->xxih[i].name,
m->xxs[i].len, m->xxs[i].lps, m->xxs[i].lpe,
m->xxs[i].flg & WAVE_BIDIR_LOOP ? 'B' :
m->xxs[i].flg & WAVE_LOOPING ? 'L' : ' ',
m->xxi[i][0].vol, c2spd);
}
}
/* PATTERN_INIT - alloc extra track*/
PATTERN_INIT();
reportv(ctx, 0, "Stored tracks : %d ", m->xxh->trk);
/* Tracks */
for (i = 1; i < m->xxh->trk; i++) {
int offset, rows;
uint8 b;
fseek(f, start + trk_ptr + i * 4, SEEK_SET);
offset = read32b(f);
fseek(f, start + offset, SEEK_SET);
rows = read16b(f);
m->xxt[i] = calloc(sizeof(struct xxm_track) +
sizeof(struct xxm_event) * rows, 1);
m->xxt[i]->rows = rows;
//printf("\n=== Track %d ===\n\n", i);
for (j = 0; j < rows; j++) {
uint8 note, f2p;
b = read8(f);
j += b & 0x03;
note = 0;
event = &m->xxt[i]->event[j];
if (b & 0x04)
note = read8(f);
if (b & 0x08)
event->ins = read8(f);
if (b & 0x10)
event->vol = read8(f);
if (b & 0x20)
event->fxt = read8(f);
if (b & 0x40)
event->fxp = read8(f);
if (b & 0x80)
f2p = read8(f);
if (note == 1)
event->note = XMP_KEY_OFF;
else if (note > 11) /* adjusted to play codeine.mgt */
event->note = note - 11;
/* effects */
if (event->fxt < 0x10)
/* like amiga */ ;
else switch (event->fxt) {
case 0x13:
case 0x14:
case 0x15:
case 0x17:
case 0x1c:
case 0x1d:
case 0x1e:
event->fxt = FX_EXTENDED;
event->fxp = ((event->fxt & 0x0f) << 4) |
(event->fxp & 0x0f);
break;
default:
event->fxt = event->fxp = 0;
}
/* volume and volume column effects */
if ((event->vol >= 0x10) && (event->vol <= 0x50)) {
event->vol -= 0x0f;
continue;
}
switch (event->vol >> 4) {
case 0x06: /* Volume slide down */
event->f2t = FX_VOLSLIDE_2;
event->f2p = event->vol - 0x60;
break;
case 0x07: /* Volume slide up */
event->f2t = FX_VOLSLIDE_2;
event->f2p = (event->vol - 0x70) << 4;
break;
case 0x08: /* Fine volume slide down */
event->f2t = FX_EXTENDED;
event->f2p = (EX_F_VSLIDE_DN << 4) |
(event->vol - 0x80);
break;
case 0x09: /* Fine volume slide up */
event->f2t = FX_EXTENDED;
event->f2p = (EX_F_VSLIDE_UP << 4) |
(event->vol - 0x90);
break;
case 0x0a: /* Set vibrato speed */
event->f2t = FX_VIBRATO;
event->f2p = (event->vol - 0xa0) << 4;
break;
case 0x0b: /* Vibrato */
event->f2t = FX_VIBRATO;
event->f2p = event->vol - 0xb0;
break;
case 0x0c: /* Set panning */
event->f2t = FX_SETPAN;
event->f2p = ((event->vol - 0xc0) << 4) + 8;
break;
case 0x0d: /* Pan slide left */
event->f2t = FX_PANSLIDE;
event->f2p = (event->vol - 0xd0) << 4;
break;
case 0x0e: /* Pan slide right */
event->f2t = FX_PANSLIDE;
event->f2p = event->vol - 0xe0;
break;
case 0x0f: /* Tone portamento */
event->f2t = FX_TONEPORTA;
event->f2p = (event->vol - 0xf0) << 4;
break;
}
event->vol = 0;
/*printf("%02x %02x %02x %02x %02x %02x\n",
j, event->note, event->ins, event->vol,
event->fxt, event->fxp);*/
}
if (V(0) && i % m->xxh->chn == 0)
report(".");
}
reportv(ctx, 0, "\n");
/* Extra track */
m->xxt[0] = calloc(sizeof(struct xxm_track) +
sizeof(struct xxm_event) * 64 - 1, 1);
m->xxt[0]->rows = 64;
/* Read and convert patterns */
reportv(ctx, 0, "Stored patterns: %d ", m->xxh->pat);
fseek(f, start + pat_ptr, SEEK_SET);
for (i = 0; i < m->xxh->pat; i++) {
PATTERN_ALLOC(i);
m->xxp[i]->rows = read16b(f);
for (j = 0; j < m->xxh->chn; j++) {
m->xxp[i]->info[j].index = read16b(f) - 1;
//printf("%3d ", m->xxp[i]->info[j].index);
}
reportv(ctx, 0, ".");
//printf("\n");
}
reportv(ctx, 0, "\n");
/* Read samples */
reportv(ctx, 0, "Stored samples : %d ", m->xxh->smp);
for (i = 0; i < m->xxh->ins; i++) {
if (m->xxih[i].nsm == 0)
continue;
fseek(f, start + sdata[i], SEEK_SET);
xmp_drv_loadpatch(ctx, f, m->xxi[i][0].sid, m->c4rate, 0,
&m->xxs[m->xxi[i][0].sid], NULL);
reportv(ctx, 0, ".");
}
reportv(ctx, 0, "\n");
return 0;
}
static int mfp_load(struct module_data *m, xmp_file f, const int start)
{
struct xmp_module *mod = &m->mod;
int i, j, k, x, y;
struct xmp_event *event;
struct stat st;
char smp_filename[PATH_MAX];
xmp_file s;
int size1, size2;
int pat_addr, pat_table[128][4];
uint8 buf[1024], mod_event[4];
int row;
LOAD_INIT();
set_type(m, "Magnetic Fields Packer");
MODULE_INFO();
mod->chn = 4;
mod->ins = mod->smp = 31;
INSTRUMENT_INIT();
for (i = 0; i < 31; i++) {
int loop_size;
mod->xxi[i].sub = calloc(sizeof (struct xmp_subinstrument), 1);
mod->xxs[i].len = 2 * read16b(f);
mod->xxi[i].sub[0].fin = (int8)(read8(f) << 4);
mod->xxi[i].sub[0].vol = read8(f);
mod->xxs[i].lps = 2 * read16b(f);
loop_size = read16b(f);
mod->xxs[i].lpe = mod->xxs[i].lps + 2 * loop_size;
mod->xxs[i].flg = loop_size > 1 ? XMP_SAMPLE_LOOP : 0;
mod->xxi[i].sub[0].pan = 0x80;
mod->xxi[i].sub[0].sid = i;
mod->xxi[i].nsm = !!(mod->xxs[i].len);
mod->xxi[i].rls = 0xfff;
D_(D_INFO "[%2X] %04x %04x %04x %c V%02x %+d",
i, mod->xxs[i].len, mod->xxs[i].lps,
mod->xxs[i].lpe,
loop_size > 1 ? 'L' : ' ',
mod->xxi[i].sub[0].vol, mod->xxi[i].sub[0].fin >> 4);
}
mod->len = mod->pat = read8(f);
read8(f); /* restart */
for (i = 0; i < 128; i++)
mod->xxo[i] = read8(f);
#if 0
for (i = 0; i < 128; i++) {
mod->xxo[i] = read8(f);
if (mod->xxo[i] > mod->pat)
mod->pat = mod->xxo[i];
}
mod->pat++;
#endif
mod->trk = mod->pat * mod->chn;
/* Read and convert patterns */
PATTERN_INIT();
size1 = read16b(f);
size2 = read16b(f);
for (i = 0; i < size1; i++) { /* Read pattern table */
for (j = 0; j < 4; j++) {
pat_table[i][j] = read16b(f);
}
}
D_(D_INFO "Stored patterns: %d ", mod->pat);
pat_addr = xmp_ftell(f);
for (i = 0; i < mod->pat; i++) {
PATTERN_ALLOC(i);
mod->xxp[i]->rows = 64;
TRACK_ALLOC(i);
for (j = 0; j < 4; j++) {
xmp_fseek(f, pat_addr + pat_table[i][j], SEEK_SET);
xmp_fread(buf, 1, 1024, f);
for (row = k = 0; k < 4; k++) {
for (x = 0; x < 4; x++) {
for (y = 0; y < 4; y++, row++) {
event = &EVENT(i, j, row);
memcpy(mod_event, &buf[buf[buf[buf[k] + x] + y] * 2], 4);
cvt_pt_event(event, mod_event);
}
}
}
}
}
/* Read samples */
D_(D_INFO "Loading samples: %d", mod->ins);
/* first check smp.filename */
if (strlen(m->basename) < 5 || m->basename[3] != '.') {
fprintf(stderr, "libxmp: invalid filename %s\n", m->basename);
goto err;
}
m->basename[0] = 's';
m->basename[1] = 'm';
m->basename[2] = 'p';
snprintf(smp_filename, PATH_MAX, "%s%s", m->dirname, m->basename);
if (stat(smp_filename, &st) < 0) {
/* handle .set filenames like in Kid Chaos*/
char *x;
if (strchr(m->basename, '-')) {
if ((x = strrchr(smp_filename, '-')))
strcpy(x, ".set");
}
if (stat(smp_filename, &st) < 0) {
fprintf(stderr, "libxmp: missing file %s\n",
smp_filename);
goto err;
}
}
if ((s = xmp_fopen(smp_filename, "rb")) == NULL) {
fprintf(stderr, "libxmp: can't open sample file %s\n",
smp_filename);
goto err;
}
for (i = 0; i < mod->ins; i++) {
load_sample(m, s, SAMPLE_FLAG_FULLREP,
&mod->xxs[mod->xxi[i].sub[0].sid], NULL);
}
xmp_fclose(s);
m->quirk |= QUIRK_MODRNG;
return 0;
err:
for (i = 0; i < mod->ins; i++) {
mod->xxi[i].nsm = 0;
memset(&mod->xxs[i], 0, sizeof(struct xmp_sample));
}
return 0;
}
static int coco_load(struct module_data *m, FILE *f, const int start)
{
struct xmp_module *mod = &m->mod;
struct xmp_event *event;
int i, j;
int seq_ptr, pat_ptr, smp_ptr[100];
LOAD_INIT();
mod->chn = read8(f) & 0x3f;
read_title(f, mod->name, 20);
for (i = 0; i < 20; i++) {
if (mod->name[i] == 0x0d)
mod->name[i] = 0;
}
set_type(m, "Coconizer");
mod->ins = mod->smp = read8(f);
mod->len = read8(f);
mod->pat = read8(f);
mod->trk = mod->pat * mod->chn;
seq_ptr = read32l(f);
pat_ptr = read32l(f);
MODULE_INFO();
INSTRUMENT_INIT();
m->vol_table = (int *)arch_vol_table;
m->volbase = 0xff;
for (i = 0; i < mod->ins; i++) {
mod->xxi[i].sub = calloc(sizeof (struct xmp_subinstrument), 1);
smp_ptr[i] = read32l(f);
mod->xxs[i].len = read32l(f);
mod->xxi[i].sub[0].vol = 0xff - read32l(f);
mod->xxi[i].sub[0].pan = 0x80;
mod->xxs[i].lps = read32l(f);
mod->xxs[i].lpe = mod->xxs[i].lps + read32l(f);
if (mod->xxs[i].lpe)
mod->xxs[i].lpe -= 1;
mod->xxs[i].flg = mod->xxs[i].lps > 0 ? XMP_SAMPLE_LOOP : 0;
fread(mod->xxi[i].name, 1, 11, f);
for (j = 0; j < 11; j++) {
if (mod->xxi[i].name[j] == 0x0d)
mod->xxi[i].name[j] = 0;
}
read8(f); /* unused */
mod->xxi[i].nsm = !!mod->xxs[i].len;
mod->xxi[i].sub[0].sid = i;
D_(D_INFO "[%2X] %-10.10s %05x %05x %05x %c V%02x",
i, mod->xxi[i].name,
mod->xxs[i].len, mod->xxs[i].lps, mod->xxs[i].lpe,
mod->xxs[i].flg & XMP_SAMPLE_LOOP ? 'L' : ' ',
mod->xxi[i].sub[0].vol);
}
/* Sequence */
fseek(f, start + seq_ptr, SEEK_SET);
for (i = 0; ; i++) {
uint8 x = read8(f);
if (x == 0xff)
break;
mod->xxo[i] = x;
}
for (i++; i % 4; i++) /* for alignment */
read8(f);
/* Patterns */
PATTERN_INIT();
D_(D_INFO "Stored patterns: %d", mod->pat);
for (i = 0; i < mod->pat; i++) {
PATTERN_ALLOC (i);
mod->xxp[i]->rows = 64;
TRACK_ALLOC (i);
for (j = 0; j < (64 * mod->chn); j++) {
event = &EVENT (i, j % mod->chn, j / mod->chn);
event->fxp = read8(f);
event->fxt = read8(f);
event->ins = read8(f);
event->note = read8(f);
if (event->note)
event->note += 12;
fix_effect(event);
}
}
/* Read samples */
D_(D_INFO "Stored samples : %d", mod->smp);
for (i = 0; i < mod->ins; i++) {
if (mod->xxi[i].nsm == 0)
continue;
fseek(f, start + smp_ptr[i], SEEK_SET);
load_sample(f, SAMPLE_FLAG_VIDC, &mod->xxs[mod->xxi[i].sub[0].sid], NULL);
}
for (i = 0; i < mod->chn; i++)
mod->xxc[i].pan = (((i + 3) / 2) % 2) * 0xff;
return 0;
}
static int mtp_load(struct module_data *m, xmp_file f, const int start)
{
struct xmp_module *mod = &m->mod;
struct xmp_event *event;
int i, j, k;
uint8 buffer[25];
int blocksize;
xmp_file s;
LOAD_INIT();
xmp_fread(buffer, 6, 1, f);
if (!memcmp(buffer, "SONGOK", 6))
set_type(m, "IIgs SoundSmith");
else if (!memcmp(buffer, "IAN92a", 8))
set_type(m, "IIgs MegaTracker");
else
return -1;
blocksize = read16l(f);
mod->spd = read16l(f);
xmp_fseek(f, 10, SEEK_CUR); /* skip 10 reserved bytes */
mod->ins = mod->smp = 15;
INSTRUMENT_INIT();
for (i = 0; i < mod->ins; i++) {
mod->xxi[i].sub = calloc(sizeof (struct xmp_subinstrument), 1);
xmp_fread(buffer, 1, 22, f);
if (buffer[0]) {
buffer[buffer[0] + 1] = 0;
copy_adjust(mod->xxi[i].name, buffer + 1, 22);
}
read16l(f); /* skip 2 reserved bytes */
mod->xxi[i].sub[0].vol = read8(f) >> 2;
mod->xxi[i].sub[0].pan = 0x80;
xmp_fseek(f, 5, SEEK_CUR); /* skip 5 bytes */
}
mod->len = read8(f) & 0x7f;
read8(f);
xmp_fread(mod->xxo, 1, 128, f);
MODULE_INFO();
xmp_fseek(f, start + 600, SEEK_SET);
mod->chn = 14;
mod->pat = blocksize / (14 * 64);
mod->trk = mod->pat * mod->chn;
PATTERN_INIT();
/* Read and convert patterns */
D_(D_INFO "Stored patterns: %d", mod->pat);
/* Load notes */
for (i = 0; i < mod->pat; i++) {
PATTERN_ALLOC(i);
mod->xxp[i]->rows = 64;
TRACK_ALLOC(i);
for (j = 0; j < mod->xxp[i]->rows; j++) {
for (k = 0; k < mod->chn; k++) {
event = &EVENT(i, k, j);
event->note = read8(f);;
if (event->note)
event->note += 24;
}
}
}
/* Load fx1 */
for (i = 0; i < mod->pat; i++) {
for (j = 0; j < mod->xxp[i]->rows; j++) {
for (k = 0; k < mod->chn; k++) {
uint8 x;
event = &EVENT(i, k, j);
x = read8(f);;
event->ins = x >> 4;
switch (x & 0x0f) {
case 0x00:
event->fxt = FX_ARPEGGIO;
break;
case 0x03:
event->fxt = FX_VOLSET;
break;
case 0x05:
event->fxt = FX_VOLSLIDE_DN;
break;
case 0x06:
event->fxt = FX_VOLSLIDE_UP;
break;
case 0x0f:
event->fxt = FX_SPEED;
break;
}
}
}
}
/* Load fx2 */
for (i = 0; i < mod->pat; i++) {
for (j = 0; j < mod->xxp[i]->rows; j++) {
for (k = 0; k < mod->chn; k++) {
event = &EVENT(i, k, j);
event->fxp = read8(f);;
switch (event->fxt) {
case FX_VOLSET:
case FX_VOLSLIDE_DN:
case FX_VOLSLIDE_UP:
event->fxp >>= 2;
}
}
}
}
/* Read instrument data */
D_(D_INFO "Instruments : %d ", mod->ins);
for (i = 0; i < mod->ins; i++) {
char filename[1024];
if (!mod->xxi[i].name[0])
continue;
strncpy(filename, m->dirname, NAME_SIZE);
if (*filename)
strncat(filename, "/", NAME_SIZE);
strncat(filename, (char *)mod->xxi[i].name, NAME_SIZE);
if ((s = xmp_fopen(filename, "rb")) != NULL) {
asif_load(m, s, i);
xmp_fclose(s);
}
#if 0
mod->xxs[i].lps = 0;
mod->xxs[i].lpe = 0;
mod->xxs[i].flg = mod->xxs[i].lpe > 0 ? XMP_SAMPLE_LOOP : 0;
mod->xxi[i].sub[0].fin = 0;
mod->xxi[i].sub[0].pan = 0x80;
#endif
D_(D_INFO "[%2X] %-22.22s %04x %04x %04x %c V%02x", i,
mod->xxi[i].name,
mod->xxs[i].len, mod->xxs[i].lps, mod->xxs[i].lpe,
mod->xxs[i].flg & XMP_SAMPLE_LOOP ? 'L' : ' ',
mod->xxi[i].sub[0].vol);
}
return 0;
}
static int dtt_load(struct xmp_context *ctx, FILE *f, const int start)
{
struct xmp_player_context *p = &ctx->p;
struct xmp_mod_context *m = &p->m;
struct xxm_event *event;
int i, j, k;
int n;
uint8 buf[100];
uint32 flags;
uint32 pofs[256];
uint8 plen[256];
int sdata[64];
LOAD_INIT();
read32b(f);
strcpy(m->type, "Desktop Tracker");
fread(buf, 1, 64, f);
strncpy(m->name, (char *)buf, XMP_NAMESIZE);
fread(buf, 1, 64, f);
strncpy(m->author, (char *)buf, XMP_NAMESIZE);
flags = read32l(f);
m->xxh->chn = read32l(f);
m->xxh->len = read32l(f);
fread(buf, 1, 8, f);
m->xxh->tpo = read32l(f);
m->xxh->rst = read32l(f);
m->xxh->pat = read32l(f);
m->xxh->ins = m->xxh->smp = read32l(f);
m->xxh->trk = m->xxh->pat * m->xxh->chn;
fread(m->xxo, 1, (m->xxh->len + 3) & ~3L, f);
MODULE_INFO();
for (i = 0; i < m->xxh->pat; i++) {
int x = read32l(f);
if (i < 256)
pofs[i] = x;
}
n = (m->xxh->pat + 3) & ~3L;
for (i = 0; i < n; i++) {
int x = read8(f);
if (i < 256)
plen[i] = x;
}
INSTRUMENT_INIT();
/* Read instrument names */
reportv(ctx, 1, " Name Len LBeg LEnd L Vol\n");
for (i = 0; i < m->xxh->ins; i++) {
int c2spd, looplen;
m->xxi[i] = calloc(sizeof(struct xxm_instrument), 1);
read8(f); /* note */
m->xxi[i][0].vol = read8(f) >> 1;
m->xxi[i][0].pan = 0x80;
read16l(f); /* not used */
c2spd = read32l(f); /* period? */
read32l(f); /* sustain start */
read32l(f); /* sustain length */
m->xxs[i].lps = read32l(f);
looplen = read32l(f);
m->xxs[i].flg = looplen > 0 ? WAVE_LOOPING : 0;
m->xxs[i].lpe = m->xxs[i].lps + looplen;
m->xxs[i].len = read32l(f);
fread(buf, 1, 32, f);
copy_adjust(m->xxih[i].name, (uint8 *)buf, 32);
sdata[i] = read32l(f);
m->xxih[i].nsm = !!(m->xxs[i].len);
m->xxi[i][0].sid = i;
if (V(1) && (strlen((char*)m->xxih[i].name) || (m->xxs[i].len > 1))) {
report("[%2X] %-32.32s %04x %04x %04x %c V%02x\n",
i, m->xxih[i].name, m->xxs[i].len,
m->xxs[i].lps, m->xxs[i].lpe,
m->xxs[i].flg & WAVE_LOOPING ? 'L' : ' ',
m->xxi[i][0].vol, c2spd);
}
}
PATTERN_INIT();
/* Read and convert patterns */
reportv(ctx, 0, "Stored patterns: %d ", m->xxh->pat);
for (i = 0; i < m->xxh->pat; i++) {
PATTERN_ALLOC(i);
m->xxp[i]->rows = plen[i];
TRACK_ALLOC(i);
fseek(f, start + pofs[i], SEEK_SET);
for (j = 0; j < m->xxp[i]->rows; j++) {
for (k = 0; k < m->xxh->chn; k++) {
uint32 x;
event = &EVENT (i, k, j);
x = read32l(f);
event->ins = (x & 0x0000003f);
event->note = (x & 0x00000fc0) >> 6;
event->fxt = (x & 0x0001f000) >> 12;
if (event->note)
event->note += 36;
/* sorry, we only have room for two effects */
if (x & (0x1f << 17)) {
event->f2p = (x & 0x003e0000) >> 17;
x = read32l(f);
event->fxp = (x & 0x000000ff);
event->f2p = (x & 0x0000ff00) >> 8;
} else {
event->fxp = (x & 0xfc000000) >> 18;
}
}
}
static int med3_load(struct xmp_context *ctx, FILE *f, const int start)
{
struct xmp_player_context *p = &ctx->p;
struct xmp_mod_context *m = &p->m;
int i, j;
uint32 mask;
int transp, sliding;
LOAD_INIT();
read32b(f);
strcpy(m->type, "MED3 (MED 2.00)");
m->xxh->ins = m->xxh->smp = 32;
INSTRUMENT_INIT();
/* read instrument names */
for (i = 0; i < 32; i++) {
uint8 c, buf[40];
for (j = 0; j < 40; j++) {
c = read8(f);
buf[j] = c;
if (c == 0)
break;
}
copy_adjust(m->xxih[i].name, buf, 32);
m->xxi[i] = calloc(sizeof(struct xxm_instrument), 1);
}
/* read instrument volumes */
mask = read32b(f);
for (i = 0; i < 32; i++, mask <<= 1) {
m->xxi[i][0].vol = mask & MASK ? read8(f) : 0;
m->xxi[i][0].pan = 0x80;
m->xxi[i][0].fin = 0;
m->xxi[i][0].sid = i;
}
/* read instrument loops */
mask = read32b(f);
for (i = 0; i < 32; i++, mask <<= 1) {
m->xxs[i].lps = mask & MASK ? read16b(f) : 0;
}
/* read instrument loop length */
mask = read32b(f);
for (i = 0; i < 32; i++, mask <<= 1) {
uint32 lsiz = mask & MASK ? read16b(f) : 0;
m->xxs[i].len = m->xxs[i].lps + lsiz;
m->xxs[i].lpe = m->xxs[i].lps + lsiz;
m->xxs[i].flg = lsiz > 1 ? WAVE_LOOPING : 0;
}
m->xxh->chn = 4;
m->xxh->pat = read16b(f);
m->xxh->trk = m->xxh->chn * m->xxh->pat;
m->xxh->len = read16b(f);
fread(m->xxo, 1, m->xxh->len, f);
m->xxh->tpo = read16b(f);
if (m->xxh->tpo > 10) {
m->xxh->bpm = 125 * m->xxh->tpo / 33;
m->xxh->tpo = 6;
}
transp = read8s(f);
read8(f); /* flags */
sliding = read16b(f); /* sliding */
read32b(f); /* jumping mask */
fseek(f, 16, SEEK_CUR); /* rgb */
/* read midi channels */
mask = read32b(f);
for (i = 0; i < 32; i++, mask <<= 1) {
if (mask & MASK)
read8(f);
}
/* read midi programs */
mask = read32b(f);
for (i = 0; i < 32; i++, mask <<= 1) {
if (mask & MASK)
read8(f);
}
MODULE_INFO();
reportv(ctx, 0, "Sliding : %d\n", sliding);
reportv(ctx, 0, "Play transpose : %d semitones\n", transp);
if (sliding == 6)
m->quirk |= XMP_QRK_VSALL | XMP_QRK_PBALL;
for (i = 0; i < 32; i++)
m->xxi[i][0].xpo = transp;
PATTERN_INIT();
/* Load and convert patterns */
reportv(ctx, 0, "Stored patterns: %d ", m->xxh->pat);
for (i = 0; i < m->xxh->pat; i++) {
uint32 *conv;
uint8 b, tracks;
uint16 convsz;
PATTERN_ALLOC(i);
m->xxp[i]->rows = 64;
TRACK_ALLOC(i);
tracks = read8(f);
b = read8(f);
convsz = read16b(f);
conv = calloc(1, convsz + 16);
assert(conv);
if (b & M0F_LINEMSK00)
*conv = 0L;
else if (b & M0F_LINEMSK0F)
*conv = 0xffffffff;
else
*conv = read32b(f);
if (b & M0F_LINEMSK10)
*(conv + 1) = 0L;
else if (b & M0F_LINEMSK1F)
*(conv + 1) = 0xffffffff;
else
*(conv + 1) = read32b(f);
if (b & M0F_FXMSK00)
*(conv + 2) = 0L;
else if (b & M0F_FXMSK0F)
*(conv + 2) = 0xffffffff;
else
*(conv + 2) = read32b(f);
if (b & M0F_FXMSK10)
*(conv + 3) = 0L;
else if (b & M0F_FXMSK1F)
*(conv + 3) = 0xffffffff;
else
*(conv + 3) = read32b(f);
fread(conv + 4, 1, convsz, f);
unpack_block(ctx, i, (uint8 *)conv);
free(conv);
reportv(ctx, 0, ".");
}
reportv(ctx, 0, "\n");
/* Load samples */
reportv(ctx, 0, "Instruments : %d ", m->xxh->ins);
reportv(ctx, 1, "\n Instrument name Len LBeg LEnd L Vol");
mask = read32b(f);
for (i = 0; i < 32; i++, mask <<= 1) {
if (~mask & MASK)
continue;
m->xxs[i].len = read32b(f);
if (read16b(f)) /* type */
continue;
m->xxih[i].nsm = !!(m->xxs[i].len);
reportv(ctx, 1, "\n[%2X] %-32.32s %04x %04x %04x %c V%02x ",
i, m->xxih[i].name, m->xxs[i].len, m->xxs[i].lps,
m->xxs[i].lpe,
m->xxs[i].flg & WAVE_LOOPING ? 'L' : ' ',
m->xxi[i][0].vol);
xmp_drv_loadpatch(ctx, f, m->xxi[i][0].sid, m->c4rate, 0,
&m->xxs[m->xxi[i][0].sid], NULL);
reportv(ctx, 0, ".");
}
reportv(ctx, 0, "\n");
return 0;
}
static int mod_load(struct module_data *m, FILE *f, const int start)
{
struct xmp_module *mod = &m->mod;
int i, j;
int smp_size, pat_size, wow, ptsong = 0;
struct xmp_event *event;
struct mod_header mh;
uint8 mod_event[4];
char *x, pathname[PATH_MAX] = "", *tracker = "";
int detected = 0;
char magic[8], idbuffer[32];
int ptkloop = 0; /* Protracker loop */
LOAD_INIT();
mod->ins = 31;
mod->smp = mod->ins;
mod->chn = 0;
smp_size = 0;
pat_size = 0;
m->quirk |= QUIRK_MODRNG;
fread(&mh.name, 20, 1, f);
for (i = 0; i < 31; i++) {
fread(&mh.ins[i].name, 22, 1, f); /* Instrument name */
mh.ins[i].size = read16b(f); /* Length in 16-bit words */
mh.ins[i].finetune = read8(f); /* Finetune (signed nibble) */
mh.ins[i].volume = read8(f); /* Linear playback volume */
mh.ins[i].loop_start = read16b(f); /* Loop start in 16-bit words */
mh.ins[i].loop_size = read16b(f); /* Loop size in 16-bit words */
smp_size += 2 * mh.ins[i].size;
}
mh.len = read8(f);
mh.restart = read8(f);
fread(&mh.order, 128, 1, f);
memset(magic, 0, 8);
fread(magic, 4, 1, f);
for (i = 0; mod_magic[i].ch; i++) {
if (!(strncmp (magic, mod_magic[i].magic, 4))) {
mod->chn = mod_magic[i].ch;
tracker = mod_magic[i].tracker;
detected = mod_magic[i].flag;
ptkloop = mod_magic[i].ptkloop;
break;
}
}
if (!mod->chn) {
if (!strncmp(magic + 2, "CH", 2) &&
isdigit(magic[0]) && isdigit(magic[1])) {
if ((mod->chn = (*magic - '0') *
10 + magic[1] - '0') > 32)
return -1;
} else if (!strncmp(magic + 1, "CHN", 3) &&
isdigit(*magic)) {
if (!(mod->chn = (*magic - '0')))
return -1;
} else
return -1;
tracker = "TakeTracker/FastTracker II";
detected = 1;
m->quirk &= ~QUIRK_MODRNG;
}
strncpy (mod->name, (char *) mh.name, 20);
mod->len = mh.len;
/* mod->rst = mh.restart; */
if (mod->rst >= mod->len)
mod->rst = 0;
memcpy(mod->xxo, mh.order, 128);
for (i = 0; i < 128; i++) {
/* This fixes dragnet.mod (garbage in the order list) */
if (mod->xxo[i] > 0x7f)
break;
if (mod->xxo[i] > mod->pat)
mod->pat = mod->xxo[i];
}
mod->pat++;
pat_size = 256 * mod->chn * mod->pat;
INSTRUMENT_INIT();
for (i = 0; i < mod->ins; i++) {
mod->xxi[i].sub = calloc(sizeof (struct xmp_subinstrument), 1);
mod->xxs[i].len = 2 * mh.ins[i].size;
mod->xxs[i].lps = 2 * mh.ins[i].loop_start;
mod->xxs[i].lpe = mod->xxs[i].lps + 2 * mh.ins[i].loop_size;
if (mod->xxs[i].lpe > mod->xxs[i].len)
mod->xxs[i].lpe = mod->xxs[i].len;
mod->xxs[i].flg = (mh.ins[i].loop_size > 1 && mod->xxs[i].lpe > 8) ?
XMP_SAMPLE_LOOP : 0;
mod->xxi[i].sub[0].fin = (int8)(mh.ins[i].finetune << 4);
mod->xxi[i].sub[0].vol = mh.ins[i].volume;
mod->xxi[i].sub[0].pan = 0x80;
mod->xxi[i].sub[0].sid = i;
mod->xxi[i].nsm = !!(mod->xxs[i].len);
copy_adjust(mod->xxi[i].name, mh.ins[i].name, 22);
}
/*
* Experimental tracker-detection routine
*/
if (detected)
goto skip_test;
/* Test for Flextrax modules
*
* FlexTrax is a soundtracker for Atari Falcon030 compatible computers.
* FlexTrax supports the standard MOD file format (up to eight channels)
* for compatibility reasons but also features a new enhanced module
* format FLX. The FLX format is an extended version of the standard
* MOD file format with support for real-time sound effects like reverb
* and delay.
*/
if (0x43c + mod->pat * 4 * mod->chn * 0x40 + smp_size < m->size) {
int pos = ftell(f);
fseek(f, start + 0x43c + mod->pat * 4 * mod->chn * 0x40 + smp_size, SEEK_SET);
fread(idbuffer, 1, 4, f);
fseek(f, start + pos, SEEK_SET);
if (!memcmp(idbuffer, "FLEX", 4)) {
tracker = "Flextrax";
ptkloop = 0;
goto skip_test;
}
}
/* Test for Mod's Grave WOW modules
*
* Stefan Danes <*****@*****.**> said:
* This weird format is identical to '8CHN' but still uses the 'M.K.' ID.
* You can only test for WOW by calculating the size of the module for 8
* channels and comparing this to the actual module length. If it's equal,
* the module is an 8 channel WOW.
*/
if ((wow = (!strncmp(magic, "M.K.", 4) &&
(0x43c + mod->pat * 32 * 0x40 + smp_size == m->size)))) {
mod->chn = 8;
tracker = "Mod's Grave";
ptkloop = 0;
goto skip_test;
}
/* Test for Protracker song files
*/
else if ((ptsong = (!strncmp((char *)magic, "M.K.", 4) &&
(0x43c + mod->pat * 0x400 == m->size)))) {
tracker = "Protracker";
goto skip_test;
}
/* Test Protracker-like files
*/
if (mod->chn == 4 && mh.restart == mod->pat) {
tracker = "Soundtracker";
} else if (mod->chn == 4 && mh.restart == 0x78) {
tracker = "Noisetracker" /*" (0x78)"*/;
ptkloop = 1;
} else if (mh.restart < 0x7f) {
if (mod->chn == 4) {
tracker = "Noisetracker";
ptkloop = 1;
} else {
tracker = "unknown tracker";
ptkloop = 0;
}
mod->rst = mh.restart;
}
if (mod->chn != 4 && mh.restart == 0x7f) {
tracker = "Scream Tracker 3 MOD";
ptkloop = 0;
m->quirk &= ~QUIRK_MODRNG;
m->read_event_type = READ_EVENT_ST3;
}
if (mod->chn == 4 && mh.restart == 0x7f) {
for (i = 0; i < 31; i++) {
if (mh.ins[i].loop_size == 0)
break;
}
if (i < 31) {
tracker = "Protracker clone";
ptkloop = 0;
}
}
if (mh.restart != 0x78 && mh.restart < 0x7f) {
for (i = 0; i < 31; i++) {
if (mh.ins[i].loop_size == 0)
break;
}
if (i == 31) { /* All loops are size 2 or greater */
for (i = 0; i < 31; i++) {
if (mh.ins[i].size == 1 && mh.ins[i].volume == 0) {
tracker = "Probably converted";
ptkloop = 0;
goto skip_test;
}
}
for (i = 0; i < 31; i++) {
if (is_st_ins((char *)mh.ins[i].name))
break;
}
if (i == 31) { /* No st- instruments */
for (i = 0; i < 31; i++) {
if (mh.ins[i].size == 0 && mh.ins[i].loop_size == 1) {
switch (mod->chn) {
case 4:
tracker = "Noisetracker"; /* or Octalyzer */
break;
case 6:
case 8:
tracker = "Octalyser";
ptkloop = 0;
break;
default:
tracker = "unknown tracker";
ptkloop = 0;
}
goto skip_test;
}
}
if (mod->chn == 4) {
tracker = "Protracker";
printf("asd\n");
} else if (mod->chn == 6 || mod->chn == 8) {
tracker = "FastTracker 1.01?";
ptkloop = 0;
m->quirk &= ~QUIRK_MODRNG;
} else {
tracker = "unknown tracker";
ptkloop = 0;
}
}
} else { /* Has loops with 0 size */
for (i = 15; i < 31; i++) {
if (strlen((char *)mh.ins[i].name) || mh.ins[i].size > 0)
break;
}
if (i == 31 && is_st_ins((char *)mh.ins[14].name)) {
tracker = "converted 15 instrument";
ptkloop = 0;
goto skip_test;
}
/* Assume that Fast Tracker modules won't have ST- instruments */
for (i = 0; i < 31; i++) {
if (is_st_ins((char *)mh.ins[i].name))
break;
}
if (i < 31) {
tracker = "unknown/converted";
ptkloop = 0;
goto skip_test;
}
if (mod->chn == 4 || mod->chn == 6 || mod->chn == 8) {
tracker = "Fast Tracker";
ptkloop = 0;
m->quirk &= ~QUIRK_MODRNG;
goto skip_test;
}
tracker = "unknown tracker"; /* ??!? */
ptkloop = 0;
}
}
skip_test:
mod->trk = mod->chn * mod->pat;
snprintf(mod->type, XMP_NAME_SIZE, "%s (%s)", tracker, magic);
MODULE_INFO();
for (i = 0; i < mod->ins; i++) {
D_(D_INFO "[%2X] %-22.22s %04x %04x %04x %c V%02x %+d %c\n",
i, mod->xxi[i].name,
mod->xxs[i].len, mod->xxs[i].lps, mod->xxs[i].lpe,
(mh.ins[i].loop_size > 1 && mod->xxs[i].lpe > 8) ?
'L' : ' ', mod->xxi[i].sub[0].vol,
mod->xxi[i].sub[0].fin >> 4,
ptkloop && mod->xxs[i].lps == 0 && mh.ins[i].loop_size > 1 &&
mod->xxs[i].len > mod->xxs[i].lpe ? '!' : ' ');
}
PATTERN_INIT();
/* Load and convert patterns */
D_(D_INFO "Stored patterns: %d", mod->pat);
for (i = 0; i < mod->pat; i++) {
PATTERN_ALLOC (i);
mod->xxp[i]->rows = 64;
TRACK_ALLOC (i);
for (j = 0; j < (64 * mod->chn); j++) {
event = &EVENT (i, j % mod->chn, j / mod->chn);
fread (mod_event, 1, 4, f);
cvt_pt_event(event, mod_event);
}
}
/* Load samples */
if ((x = strrchr(m->filename, '/')))
strncpy(pathname, m->filename, x - m->filename);
D_(D_INFO "Stored samples: %d", mod->smp);
for (i = 0; i < mod->smp; i++) {
int flags;
if (!mod->xxs[i].len)
continue;
flags = ptkloop ? SAMPLE_FLAG_FULLREP : 0;
if (ptsong) {
FILE *s;
char sn[256];
snprintf(sn, XMP_NAME_SIZE, "%s%s", pathname, mod->xxi[i].name);
if ((s = fopen (sn, "rb"))) {
load_sample(s, flags, &mod->xxs[mod->xxi[i].sub[0].sid], NULL);
}
} else {
load_sample(f, flags, &mod->xxs[mod->xxi[i].sub[0].sid], NULL);
}
}
if (mod->chn > 4) {
m->quirk &= ~QUIRK_MODRNG;
m->quirk |= QUIRKS_FT2;
m->read_event_type = READ_EVENT_FT2;
} else if (strcmp(tracker, "Protracker") == 0) {
m->quirk |= QUIRK_INVLOOP;
}
return 0;
}
static void get_emic(struct module_data *m, int size, xmp_file f, void *parm)
{
struct xmp_module *mod = &m->mod;
int i, ver;
uint8 reorder[256];
ver = read16b(f);
xmp_fread(mod->name, 1, 20, f);
xmp_fseek(f, 20, SEEK_CUR);
mod->bpm = read8(f);
mod->ins = read8(f);
mod->smp = mod->ins;
m->quirk |= QUIRK_MODRNG;
snprintf(mod->type, XMP_NAME_SIZE, "Quadra Composer EMOD v%d", ver);
MODULE_INFO();
INSTRUMENT_INIT();
for (i = 0; i < mod->ins; i++) {
mod->xxi[i].sub = calloc(sizeof (struct xmp_subinstrument), 1);
read8(f); /* num */
mod->xxi[i].sub[0].vol = read8(f);
mod->xxs[i].len = 2 * read16b(f);
xmp_fread(mod->xxi[i].name, 1, 20, f);
mod->xxs[i].flg = read8(f) & 1 ? XMP_SAMPLE_LOOP : 0;
mod->xxi[i].sub[0].fin = read8(f);
mod->xxs[i].lps = 2 * read16b(f);
mod->xxs[i].lpe = mod->xxs[i].lps + 2 * read16b(f);
read32b(f); /* ptr */
mod->xxi[i].nsm = 1;
mod->xxi[i].sub[0].pan = 0x80;
mod->xxi[i].sub[0].sid = i;
D_(D_INFO "[%2X] %-20.20s %05x %05x %05x %c V%02x %+d",
i, mod->xxi[i].name, mod->xxs[i].len, mod->xxs[i].lps,
mod->xxs[i].lpe, mod->xxs[i].flg & XMP_SAMPLE_LOOP ? 'L' : ' ',
mod->xxi[i].sub[0].vol, mod->xxi[i].sub[0].fin >> 4);
}
read8(f); /* pad */
mod->pat = read8(f);
mod->trk = mod->pat * mod->chn;
PATTERN_INIT();
memset(reorder, 0, 256);
for (i = 0; i < mod->pat; i++) {
reorder[read8(f)] = i;
PATTERN_ALLOC(i);
mod->xxp[i]->rows = read8(f) + 1;
TRACK_ALLOC(i);
xmp_fseek(f, 20, SEEK_CUR); /* skip name */
read32b(f); /* ptr */
}
mod->len = read8(f);
D_(D_INFO "Module length: %d", mod->len);
for (i = 0; i < mod->len; i++)
mod->xxo[i] = reorder[read8(f)];
}
static int polly_load(struct module_data *m, FILE *f, const int start)
{
struct xmp_module *mod = &m->mod;
struct xmp_event *event;
uint8 *buf;
int i, j, k;
LOAD_INIT();
read8(f); /* skip 0xae */
/*
* File is RLE-encoded, escape is 0xAE (Aleksi Eeben's initials).
* Actual 0xAE is encoded as 0xAE 0x01
*/
if ((buf = calloc(1, 0x10000)) == NULL)
return -1;
decode_rle(buf, f, 0x10000);
for (i = 0; buf[ORD_OFS + i] != 0 && i < 128; i++)
mod->xxo[i] = buf[ORD_OFS + i] - 0xe0;
mod->len = i;
memcpy(mod->name, buf + ORD_OFS + 160, 16);
/* memcpy(m->author, buf + ORD_OFS + 176, 16); */
set_type(m, "Polly Tracker");
MODULE_INFO();
mod->spd = 0x03;
mod->bpm = 0x7d * buf[ORD_OFS + 193] / 0x88;
#if 0
for (i = 0; i < 1024; i++) {
if ((i % 16) == 0) printf("\n");
printf("%02x ", buf[ORD_OFS + i]);
}
#endif
mod->pat = 0;
for (i = 0; i < mod->len; i++) {
if (mod->xxo[i] > mod->pat)
mod->pat = mod->xxo[i];
}
mod->pat++;
mod->chn = 4;
mod->trk = mod->pat * mod->chn;
PATTERN_INIT();
D_(D_INFO "Stored patterns: %d", mod->pat);
for (i = 0; i < mod->pat; i++) {
PATTERN_ALLOC(i);
mod->xxp[i]->rows = 64;
TRACK_ALLOC(i);
for (j = 0; j < 64; j++) {
for (k = 0; k < 4; k++) {
uint8 x = buf[i * PAT_SIZE + j * 4 + k];
event = &EVENT(i, k, j);
if (x == 0xf0) {
event->fxt = FX_BREAK;
event->fxp = 0;
continue;
}
event->note = LSN(x);
if (event->note)
event->note += 48;
event->ins = MSN(x);
}
}
}
mod->ins = mod->smp = 15;
INSTRUMENT_INIT();
for (i = 0; i < 15; i++) {
mod->xxi[i].sub = calloc(sizeof (struct xmp_subinstrument), 1);
mod->xxs[i].len = buf[ORD_OFS + 129 + i] < 0x10 ? 0 :
256 * buf[ORD_OFS + 145 + i];
mod->xxi[i].sub[0].fin = 0;
mod->xxi[i].sub[0].vol = 0x40;
mod->xxs[i].lps = 0;
mod->xxs[i].lpe = 0;
mod->xxs[i].flg = 0;
mod->xxi[i].sub[0].pan = 0x80;
mod->xxi[i].sub[0].sid = i;
mod->xxi[i].nsm = !!(mod->xxs[i].len);
mod->xxi[i].rls = 0xfff;
D_(D_INFO "[%2X] %04x %04x %04x %c V%02x",
i, mod->xxs[i].len, mod->xxs[i].lps,
mod->xxs[i].lpe, ' ', mod->xxi[i].sub[0].vol);
}
/* Convert samples from 6 to 8 bits */
for (i = SMP_OFS; i < 0x10000; i++)
buf[i] = buf[i] << 2;
/* Read samples */
D_(D_INFO "Loading samples: %d", mod->ins);
for (i = 0; i < mod->ins; i++) {
if (mod->xxs[i].len == 0)
continue;
load_sample(NULL, SAMPLE_FLAG_NOLOAD | SAMPLE_FLAG_UNS,
&mod->xxs[mod->xxi[i].sub[0].sid],
(char*)buf + ORD_OFS + 256 +
256 * (buf[ORD_OFS + 129 + i] - 0x10));
}
free(buf);
/* make it mono */
for (i = 0; i < mod->chn; i++)
mod->xxc[i].pan = 0x80;
m->quirk |= QUIRK_MODRNG;
return 0;
}
static int s3m_load(struct module_data *m, FILE *f, const int start)
{
struct xmp_module *mod = &m->mod;
int c, r, i;
struct s3m_adlib_header sah;
struct xmp_event *event = 0, dummy;
struct s3m_file_header sfh;
struct s3m_instrument_header sih;
int pat_len;
uint8 n, b, x8;
char tracker_name[40];
int quirk87 = 0;
uint16 *pp_ins; /* Parapointers to instruments */
uint16 *pp_pat; /* Parapointers to patterns */
uint8 arpeggio_val[32];
LOAD_INIT();
fread(&sfh.name, 28, 1, f); /* Song name */
read8(f); /* 0x1a */
sfh.type = read8(f); /* File type */
read16l(f); /* Reserved */
sfh.ordnum = read16l(f); /* Number of orders (must be even) */
sfh.insnum = read16l(f); /* Number of instruments */
sfh.patnum = read16l(f); /* Number of patterns */
sfh.flags = read16l(f); /* Flags */
sfh.version = read16l(f); /* Tracker ID and version */
sfh.ffi = read16l(f); /* File format information */
sfh.magic = read32b(f); /* 'SCRM' */
sfh.gv = read8(f); /* Global volume */
sfh.is = read8(f); /* Initial speed */
sfh.it = read8(f); /* Initial tempo */
sfh.mv = read8(f); /* Master volume */
sfh.uc = read8(f); /* Ultra click removal */
sfh.dp = read8(f); /* Default pan positions if 0xfc */
read32l(f); /* Reserved */
read32l(f); /* Reserved */
sfh.special = read16l(f); /* Ptr to special custom data */
fread(sfh.chset, 32, 1, f); /* Channel settings */
#if 0
if (sfh.magic != MAGIC_SCRM)
return -1;
#endif
/* S3M anomaly in return_of_litmus.s3m */
if (sfh.version == 0x1301 && sfh.name[27] == 0x87)
quirk87 = 1;
if (quirk87) {
fix87(sfh.name);
fix87(sfh.patnum);
fix87(sfh.flags);
}
copy_adjust(mod->name, sfh.name, 28);
/* Load and convert header */
mod->len = sfh.ordnum;
mod->ins = sfh.insnum;
mod->smp = mod->ins;
mod->pat = sfh.patnum;
pp_ins = calloc (2, mod->ins);
pp_pat = calloc (2, mod->pat);
if (sfh.flags & S3M_AMIGA_RANGE)
m->quirk |= QUIRK_MODRNG;
if (sfh.flags & S3M_ST300_VOLS)
m->quirk |= QUIRK_VSALL;
/* m->volbase = 4096 / sfh.gv; */
mod->spd = sfh.is;
mod->bpm = sfh.it;
for (i = 0; i < 32; i++) {
if (sfh.chset[i] == S3M_CH_OFF)
continue;
mod->chn = i + 1;
if (sfh.mv & 0x80) { /* stereo */
int x = sfh.chset[i] & S3M_CH_PAN;
mod->xxc[i].pan = (x & 0x0f) < 8 ? 0x00 : 0xff;
} else {
mod->xxc[i].pan = 0x80;
}
}
mod->trk = mod->pat * mod->chn;
fread(mod->xxo, 1, mod->len, f);
for (i = 0; i < mod->ins; i++)
pp_ins[i] = read16l(f);
for (i = 0; i < mod->pat; i++)
pp_pat[i] = read16l(f);
/* Default pan positions */
for (i = 0, sfh.dp -= 0xfc; !sfh.dp /* && n */ && (i < 32); i++) {
uint8 x = read8(f);
if (x & S3M_PAN_SET)
mod->xxc[i].pan = (x << 4) & 0xff;
else
mod->xxc[i].pan = sfh.mv % 0x80 ? 0x30 + 0xa0 * (i & 1) : 0x80;
}
m->c4rate = C4_NTSC_RATE;
if (sfh.version == 0x1300)
m->quirk |= QUIRK_VSALL;
switch (sfh.version >> 12) {
case 1:
snprintf(tracker_name, 40, "Scream Tracker %d.%02x",
(sfh.version & 0x0f00) >> 8, sfh.version & 0xff);
m->quirk |= QUIRK_ST3GVOL;
break;
case 2:
snprintf(tracker_name, 40, "Imago Orpheus %d.%02x",
(sfh.version & 0x0f00) >> 8, sfh.version & 0xff);
break;
case 3:
if (sfh.version == 0x3216) {
strcpy(tracker_name, "Impulse Tracker 2.14v3");
} else if (sfh.version == 0x3217) {
strcpy(tracker_name, "Impulse Tracker 2.14v5");
} else {
snprintf(tracker_name, 40, "Impulse Tracker %d.%02x",
(sfh.version & 0x0f00) >> 8, sfh.version & 0xff);
}
break;
case 4:
snprintf(tracker_name, 40, "Schism Tracker %d.%02x",
(sfh.version & 0x0f00) >> 8, sfh.version & 0xff);
break;
case 5:
snprintf(tracker_name, 40, "OpenMPT %d.%02x",
(sfh.version & 0x0f00) >> 8, sfh.version & 0xff);
break;
default:
snprintf(tracker_name, 40, "unknown (%04x)", sfh.version);
}
snprintf(mod->type, XMP_NAME_SIZE, "%s S3M", tracker_name);
MODULE_INFO();
PATTERN_INIT();
/* Read patterns */
D_(D_INFO "Stored patterns: %d", mod->pat);
memset (arpeggio_val, 0, 32);
for (i = 0; i < mod->pat; i++) {
PATTERN_ALLOC (i);
mod->xxp[i]->rows = 64;
TRACK_ALLOC (i);
if (!pp_pat[i])
continue;
fseek(f, start + pp_pat[i] * 16, SEEK_SET);
r = 0;
pat_len = read16l(f) - 2;
/* Used to be (--pat_len >= 0). Replaced by Rudolf Cejka
* <*****@*****.**>, fixes hunt.s3m
* ftp://us.aminet.net/pub/aminet/mods/8voic/s3m_hunt.lha
*/
while (r < mod->xxp[i]->rows) {
b = read8(f);
if (b == S3M_EOR) {
r++;
continue;
}
c = b & S3M_CH_MASK;
event = c >= mod->chn ? &dummy : &EVENT (i, c, r);
if (b & S3M_NI_FOLLOW) {
switch(n = read8(f)) {
case 255:
n = 0;
break; /* Empty note */
case 254:
n = XMP_KEY_OFF;
break; /* Key off */
default:
n = 13 + 12 * MSN (n) + LSN (n);
}
event->note = n;
event->ins = read8(f);
pat_len -= 2;
}
if (b & S3M_VOL_FOLLOWS) {
event->vol = read8(f) + 1;
pat_len--;
}
if (b & S3M_FX_FOLLOWS) {
event->fxt = read8(f);
event->fxp = read8(f);
xlat_fx(c, event, arpeggio_val);
pat_len -= 2;
}
}
}
D_(D_INFO "Stereo enabled: %s", sfh.mv & 0x80 ? "yes" : "no");
D_(D_INFO "Pan settings: %s", sfh.dp ? "no" : "yes");
INSTRUMENT_INIT();
/* Read and convert instruments and samples */
D_(D_INFO "Instruments: %d", mod->ins);
for (i = 0; i < mod->ins; i++) {
mod->xxi[i].sub = calloc(sizeof (struct xmp_subinstrument), 1);
fseek(f, start + pp_ins[i] * 16, SEEK_SET);
x8 = read8(f);
mod->xxi[i].sub[0].pan = 0x80;
mod->xxi[i].sub[0].sid = i;
if (x8 >= 2) {
/* OPL2 FM instrument */
fread(&sah.dosname, 12, 1, f); /* DOS file name */
fread(&sah.rsvd1, 3, 1, f); /* 0x00 0x00 0x00 */
fread(&sah.reg, 12, 1, f); /* Adlib registers */
sah.vol = read8(f);
sah.dsk = read8(f);
read16l(f);
sah.c2spd = read16l(f); /* C 4 speed */
read16l(f);
fread(&sah.rsvd4, 12, 1, f); /* Reserved */
fread(&sah.name, 28, 1, f); /* Instrument name */
sah.magic = read32b(f); /* 'SCRI' */
if (sah.magic != MAGIC_SCRI) {
D_(D_CRIT "error: FM instrument magic");
return -2;
}
sah.magic = 0;
copy_adjust(mod->xxi[i].name, sah.name, 28);
mod->xxi[i].nsm = 1;
mod->xxi[i].sub[0].vol = sah.vol;
c2spd_to_note(sah.c2spd, &mod->xxi[i].sub[0].xpo, &mod->xxi[i].sub[0].fin);
mod->xxi[i].sub[0].xpo += 12;
load_sample(f, SAMPLE_FLAG_ADLIB, &mod->xxs[i], (char *)&sah.reg);
D_(D_INFO "[%2X] %-28.28s", i, mod->xxi[i].name);
continue;
}
fread(&sih.dosname, 13, 1, f); /* DOS file name */
sih.memseg = read16l(f); /* Pointer to sample data */
sih.length = read32l(f); /* Length */
sih.loopbeg = read32l(f); /* Loop begin */
sih.loopend = read32l(f); /* Loop end */
sih.vol = read8(f); /* Volume */
sih.rsvd1 = read8(f); /* Reserved */
sih.pack = read8(f); /* Packing type (not used) */
sih.flags = read8(f); /* Loop/stereo/16bit samples flags */
sih.c2spd = read16l(f); /* C 4 speed */
sih.rsvd2 = read16l(f); /* Reserved */
fread(&sih.rsvd3, 4, 1, f); /* Reserved */
sih.int_gp = read16l(f); /* Internal - GUS pointer */
sih.int_512 = read16l(f); /* Internal - SB pointer */
sih.int_last = read32l(f); /* Internal - SB index */
fread(&sih.name, 28, 1, f); /* Instrument name */
sih.magic = read32b(f); /* 'SCRS' */
if (x8 == 1 && sih.magic != MAGIC_SCRS) {
D_(D_CRIT "error: instrument magic");
return -2;
}
if (quirk87) {
fix87(sih.length);
fix87(sih.loopbeg);
fix87(sih.loopend);
fix87(sih.flags);
}
mod->xxs[i].len = sih.length;
mod->xxi[i].nsm = sih.length > 0 ? 1 : 0;
mod->xxs[i].lps = sih.loopbeg;
mod->xxs[i].lpe = sih.loopend;
mod->xxs[i].flg = sih.flags & 1 ? XMP_SAMPLE_LOOP : 0;
if (sih.flags & 4) {
mod->xxs[i].flg |= XMP_SAMPLE_16BIT;
mod->xxs[i].len >>= 1;
mod->xxs[i].lps >>= 1;
mod->xxs[i].lpe >>= 1;
}
mod->xxi[i].sub[0].vol = sih.vol;
sih.magic = 0;
copy_adjust(mod->xxi[i].name, sih.name, 28);
D_(D_INFO "[%2X] %-28.28s %04x%c%04x %04x %c V%02x %5d",
i, mod->xxi[i].name, mod->xxs[i].len,
mod->xxs[i].flg & XMP_SAMPLE_16BIT ?'+' : ' ',
mod->xxs[i].lps, mod->xxs[i].lpe,
mod->xxs[i].flg & XMP_SAMPLE_LOOP ? 'L' : ' ',
mod->xxi[i].sub[0].vol, sih.c2spd);
c2spd_to_note(sih.c2spd, &mod->xxi[i].sub[0].xpo, &mod->xxi[i].sub[0].fin);
fseek(f, start + 16L * sih.memseg, SEEK_SET);
load_sample(f, (sfh.ffi - 1) * SAMPLE_FLAG_UNS, &mod->xxs[i], NULL);
}
static int ptm_load(struct xmp_context *ctx, FILE *f, const int start)
{
struct xmp_player_context *p = &ctx->p;
struct xmp_mod_context *m = &p->m;
int c, r, i, smp_ofs[256];
struct xxm_event *event;
struct ptm_file_header pfh;
struct ptm_instrument_header pih;
uint8 n, b;
LOAD_INIT();
/* Load and convert header */
fread(&pfh.name, 28, 1, f); /* Song name */
pfh.doseof = read8(f); /* 0x1a */
pfh.vermin = read8(f); /* Minor version */
pfh.vermaj = read8(f); /* Major type */
pfh.rsvd1 = read8(f); /* Reserved */
pfh.ordnum = read16l(f); /* Number of orders (must be even) */
pfh.insnum = read16l(f); /* Number of instruments */
pfh.patnum = read16l(f); /* Number of patterns */
pfh.chnnum = read16l(f); /* Number of channels */
pfh.flags = read16l(f); /* Flags (set to 0) */
pfh.rsvd2 = read16l(f); /* Reserved */
pfh.magic = read32b(f); /* 'PTMF' */
#if 0
if (pfh.magic != MAGIC_PTMF)
return -1;
#endif
fread(&pfh.rsvd3, 16, 1, f); /* Reserved */
fread(&pfh.chset, 32, 1, f); /* Channel settings */
fread(&pfh.order, 256, 1, f); /* Orders */
for (i = 0; i < 128; i++)
pfh.patseg[i] = read16l(f);
m->xxh->len = pfh.ordnum;
m->xxh->ins = pfh.insnum;
m->xxh->pat = pfh.patnum;
m->xxh->chn = pfh.chnnum;
m->xxh->trk = m->xxh->pat * m->xxh->chn;
m->xxh->smp = m->xxh->ins;
m->xxh->tpo = 6;
m->xxh->bpm = 125;
memcpy (m->xxo, pfh.order, 256);
m->c4rate = C4_NTSC_RATE;
copy_adjust((uint8 *)m->name, pfh.name, 28);
sprintf(m->type, "PTMF %d.%02x (Poly Tracker)",
pfh.vermaj, pfh.vermin);
MODULE_INFO();
INSTRUMENT_INIT();
/* Read and convert instruments and samples */
reportv(ctx, 1, " Instrument name Len LBeg LEnd L Vol C4Spd\n");
for (i = 0; i < m->xxh->ins; i++) {
m->xxi[i] = calloc (sizeof (struct xxm_instrument), 1);
pih.type = read8(f); /* Sample type */
fread(&pih.dosname, 12, 1, f); /* DOS file name */
pih.vol = read8(f); /* Volume */
pih.c4spd = read16l(f); /* C4 speed */
pih.smpseg = read16l(f); /* Sample segment (not used) */
pih.smpofs = read32l(f); /* Sample offset */
pih.length = read32l(f); /* Length */
pih.loopbeg = read32l(f); /* Loop begin */
pih.loopend = read32l(f); /* Loop end */
pih.gusbeg = read32l(f); /* GUS begin address */
pih.guslps = read32l(f); /* GUS loop start address */
pih.guslpe = read32l(f); /* GUS loop end address */
pih.gusflg = read8(f); /* GUS loop flags */
pih.rsvd1 = read8(f); /* Reserved */
fread(&pih.name, 28, 1, f); /* Instrument name */
pih.magic = read32b(f); /* 'PTMS' */
if ((pih.type & 3) != 1)
continue;
smp_ofs[i] = pih.smpofs;
m->xxih[i].nsm = !!(m->xxs[i].len = pih.length);
m->xxs[i].lps = pih.loopbeg;
m->xxs[i].lpe = pih.loopend;
if (m->xxs[i].lpe)
m->xxs[i].lpe--;
m->xxs[i].flg = pih.type & 0x04 ? WAVE_LOOPING : 0;
m->xxs[i].flg |= pih.type & 0x08 ? WAVE_LOOPING | WAVE_BIDIR_LOOP : 0;
m->xxs[i].flg |= pih.type & 0x10 ? WAVE_16_BITS : 0;
m->xxi[i][0].vol = pih.vol;
m->xxi[i][0].pan = 0x80;
m->xxi[i][0].sid = i;
pih.magic = 0;
copy_adjust(m->xxih[i].name, pih.name, 28);
if ((V(1)) && (strlen((char *)m->xxih[i].name) || m->xxs[i].len))
report ("[%2X] %-28.28s %05x%c%05x %05x %c V%02x %5d\n",
i, m->xxih[i].name, m->xxs[i].len, pih.type & 0x10 ? '+' : ' ',
m->xxs[i].lps, m->xxs[i].lpe, m->xxs[i].flg & WAVE_LOOPING ? 'L' : ' ',
m->xxi[i][0].vol, pih.c4spd);
/* Convert C4SPD to relnote/finetune */
c2spd_to_note (pih.c4spd, &m->xxi[i][0].xpo, &m->xxi[i][0].fin);
}
PATTERN_INIT();
/* Read patterns */
reportv(ctx, 0, "Stored patterns: %d ", m->xxh->pat);
for (i = 0; i < m->xxh->pat; i++) {
if (!pfh.patseg[i])
continue;
PATTERN_ALLOC (i);
m->xxp[i]->rows = 64;
TRACK_ALLOC (i);
fseek(f, start + 16L * pfh.patseg[i], SEEK_SET);
r = 0;
while (r < 64) {
fread (&b, 1, 1, f);
if (!b) {
r++;
continue;
}
c = b & PTM_CH_MASK;
if (c >= m->xxh->chn)
continue;
event = &EVENT (i, c, r);
if (b & PTM_NI_FOLLOW) {
fread (&n, 1, 1, f);
switch (n) {
case 255:
n = 0;
break; /* Empty note */
case 254:
n = XMP_KEY_OFF;
break; /* Key off */
}
event->note = n;
fread (&n, 1, 1, f);
event->ins = n;
}
if (b & PTM_FX_FOLLOWS) {
event->fxt = read8(f);
event->fxp = read8(f);
if (event->fxt > 0x17)
event->fxt = event->fxp = 0;
switch (event->fxt) {
case 0x0e: /* Extended effect */
if (MSN(event->fxp) == 0x8) { /* Pan set */
event->fxt = FX_SETPAN;
event->fxp = LSN (event->fxp) << 4;
}
break;
case 0x10: /* Set global volume */
event->fxt = FX_GLOBALVOL;
break;
case 0x11: /* Multi retrig */
event->fxt = FX_MULTI_RETRIG;
break;
case 0x12: /* Fine vibrato */
event->fxt = FX_FINE4_VIBRA;
break;
case 0x13: /* Note slide down */
event->fxt = FX_NSLIDE_DN;
break;
case 0x14: /* Note slide up */
event->fxt = FX_NSLIDE_UP;
break;
case 0x15: /* Note slide down + retrig */
event->fxt = FX_NSLIDE_R_DN;
break;
case 0x16: /* Note slide up + retrig */
event->fxt = FX_NSLIDE_R_UP;
break;
case 0x17: /* Reverse sample */
event->fxt = event->fxp = 0;
break;
}
}
if (b & PTM_VOL_FOLLOWS) {
event->vol = read8(f) + 1;
}
}
reportv(ctx, 0, ".");
}
reportv(ctx, 0, "\nStored samples : %d ", m->xxh->smp);
for (i = 0; i < m->xxh->smp; i++) {
if (!m->xxs[i].len)
continue;
fseek(f, start + smp_ofs[m->xxi[i][0].sid], SEEK_SET);
xmp_drv_loadpatch(ctx, f, m->xxi[i][0].sid, m->c4rate,
XMP_SMP_8BDIFF, &m->xxs[m->xxi[i][0].sid], NULL);
reportv(ctx, 0, ".");
}
reportv(ctx, 0, "\n");
m->vol_xlat = ptm_vol;
for (i = 0; i < m->xxh->chn; i++)
m->xxc[i].pan = pfh.chset[i] << 4;
return 0;
}
static int gdm_load(struct module_data *m, xmp_file f, const int start)
{
struct xmp_module *mod = &m->mod;
struct xmp_event *event;
int vermaj, vermin, tvmaj, tvmin, tracker;
int origfmt, ord_ofs, pat_ofs, ins_ofs, smp_ofs;
uint8 buffer[32], panmap[32];
int i;
LOAD_INIT();
read32b(f); /* skip magic */
xmp_fread(mod->name, 1, 32, f);
xmp_fseek(f, 32, SEEK_CUR); /* skip author */
xmp_fseek(f, 7, SEEK_CUR);
vermaj = read8(f);
vermin = read8(f);
tracker = read16l(f);
tvmaj = read8(f);
tvmin = read8(f);
if (tracker == 0) {
set_type(m, "GDM %d.%02d (2GDM %d.%02d)",
vermaj, vermin, tvmaj, tvmin);
} else {
set_type(m, "GDM %d.%02d (unknown tracker %d.%02d)",
vermaj, vermin, tvmaj, tvmin);
}
xmp_fread(panmap, 32, 1, f);
for (i = 0; i < 32; i++) {
if (panmap[i] != 0xff)
mod->chn = i + 1;
if (panmap[i] == 16)
panmap[i] = 8;
mod->xxc[i].pan = 0x80 + (panmap[i] - 8) * 16;
}
mod->gvl = read8(f);
mod->spd = read8(f);
mod->bpm = read8(f);
origfmt = read16l(f);
ord_ofs = read32l(f);
mod->len = read8(f) + 1;
pat_ofs = read32l(f);
mod->pat = read8(f) + 1;
ins_ofs = read32l(f);
smp_ofs = read32l(f);
mod->ins = mod->smp = read8(f) + 1;
mod->trk = mod->pat * mod->chn;
MODULE_INFO();
xmp_fseek(f, start + ord_ofs, SEEK_SET);
for (i = 0; i < mod->len; i++)
mod->xxo[i] = read8(f);
/* Read instrument data */
xmp_fseek(f, start + ins_ofs, SEEK_SET);
INSTRUMENT_INIT();
for (i = 0; i < mod->ins; i++) {
int flg, c4spd, vol, pan;
mod->xxi[i].sub = calloc(sizeof (struct xmp_subinstrument), 1);
xmp_fread(buffer, 32, 1, f);
copy_adjust(mod->xxi[i].name, buffer, 32);
xmp_fseek(f, 12, SEEK_CUR); /* skip filename */
read8(f); /* skip EMS handle */
mod->xxs[i].len = read32l(f);
mod->xxs[i].lps = read32l(f);
mod->xxs[i].lpe = read32l(f);
flg = read8(f);
c4spd = read16l(f);
vol = read8(f);
pan = read8(f);
mod->xxi[i].sub[0].vol = vol > 0x40 ? 0x40 : vol;
mod->xxi[i].sub[0].pan = pan > 15 ? 0x80 : 0x80 + (pan - 8) * 16;
c2spd_to_note(c4spd, &mod->xxi[i].sub[0].xpo, &mod->xxi[i].sub[0].fin);
mod->xxi[i].nsm = !!(mod->xxs[i].len);
mod->xxi[i].sub[0].sid = i;
mod->xxs[i].flg = 0;
if (flg & 0x01) {
mod->xxs[i].flg |= XMP_SAMPLE_LOOP;
}
if (flg & 0x02) {
mod->xxs[i].flg |= XMP_SAMPLE_16BIT;
mod->xxs[i].len >>= 1;
mod->xxs[i].lps >>= 1;
mod->xxs[i].lpe >>= 1;
}
D_(D_INFO "[%2X] %-32.32s %05x%c%05x %05x %c V%02x P%02x %5d",
i, mod->xxi[i].name,
mod->xxs[i].len,
mod->xxs[i].flg & XMP_SAMPLE_16BIT ? '+' : ' ',
mod->xxs[i].lps,
mod->xxs[i].lpe,
mod->xxs[i].flg & XMP_SAMPLE_LOOP ? 'L' : ' ',
mod->xxi[i].sub[0].vol,
mod->xxi[i].sub[0].pan,
c4spd);
}
static int ptdt_load(struct module_data *m, FILE *f, const int start)
{
struct xmp_module *mod = &m->mod;
int i, j;
struct xmp_event *event;
struct mod_header mh;
uint8 mod_event[4];
fread(&mh.name, 20, 1, f);
for (i = 0; i < 31; i++) {
fread(&mh.ins[i].name, 22, 1, f);
mh.ins[i].size = read16b(f);
mh.ins[i].finetune = read8(f);
mh.ins[i].volume = read8(f);
mh.ins[i].loop_start = read16b(f);
mh.ins[i].loop_size = read16b(f);
}
mh.len = read8(f);
mh.restart = read8(f);
fread(&mh.order, 128, 1, f);
fread(&mh.magic, 4, 1, f);
mod->ins = 31;
mod->smp = mod->ins;
mod->chn = 4;
mod->len = mh.len;
mod->rst = mh.restart;
memcpy(mod->xxo, mh.order, 128);
for (i = 0; i < 128; i++) {
if (mod->xxo[i] > mod->pat)
mod->pat = mod->xxo[i];
}
mod->pat++;
mod->trk = mod->chn * mod->pat;
INSTRUMENT_INIT();
for (i = 0; i < mod->ins; i++) {
mod->xxi[i].sub = calloc(sizeof (struct xmp_subinstrument), 1);
mod->xxs[i].len = 2 * mh.ins[i].size;
mod->xxs[i].lps = 2 * mh.ins[i].loop_start;
mod->xxs[i].lpe = mod->xxs[i].lps + 2 * mh.ins[i].loop_size;
mod->xxs[i].flg = mh.ins[i].loop_size > 1 ? XMP_SAMPLE_LOOP : 0;
mod->xxi[i].sub[0].fin = (int8)(mh.ins[i].finetune << 4);
mod->xxi[i].sub[0].vol = mh.ins[i].volume;
mod->xxi[i].sub[0].pan = 0x80;
mod->xxi[i].sub[0].sid = i;
mod->xxi[i].nsm = !!(mod->xxs[i].len);
mod->xxi[i].rls = 0xfff;
copy_adjust(mod->xxi[i].name, mh.ins[i].name, 22);
D_(D_INFO "[%2X] %-22.22s %04x %04x %04x %c V%02x %+d",
i, mod->xxi[i].name,
mod->xxs[i].len, mod->xxs[i].lps,
mod->xxs[i].lpe,
mh.ins[i].loop_size > 1 ? 'L' : ' ',
mod->xxi[i].sub[0].vol,
mod->xxi[i].sub[0].fin >> 4);
}
PATTERN_INIT();
/* Load and convert patterns */
D_(D_INFO "Stored patterns: %d", mod->pat);
for (i = 0; i < mod->pat; i++) {
PATTERN_ALLOC(i);
mod->xxp[i]->rows = 64;
TRACK_ALLOC(i);
for (j = 0; j < (64 * 4); j++) {
event = &EVENT(i, j % 4, j / 4);
fread(mod_event, 1, 4, f);
cvt_pt_event(event, mod_event);
}
}
m->quirk |= QUIRK_MODRNG;
/* Load samples */
D_(D_INFO "Stored samples: %d", mod->smp);
for (i = 0; i < mod->smp; i++) {
if (!mod->xxs[i].len)
continue;
load_sample(f, 0, &mod->xxs[mod->xxi[i].sub[0].sid], NULL);
}
return 0;
}
static int dtt_load(struct module_data *m, xmp_file f, const int start)
{
struct xmp_module *mod = &m->mod;
struct xmp_event *event;
int i, j, k;
int n;
uint8 buf[100];
uint32 flags;
uint32 pofs[256];
uint8 plen[256];
int sdata[64];
LOAD_INIT();
read32b(f);
set_type(m, "Desktop Tracker");
xmp_fread(buf, 1, 64, f);
strncpy(mod->name, (char *)buf, XMP_NAME_SIZE);
xmp_fread(buf, 1, 64, f);
/* strncpy(m->author, (char *)buf, XMP_NAME_SIZE); */
flags = read32l(f);
mod->chn = read32l(f);
mod->len = read32l(f);
xmp_fread(buf, 1, 8, f);
mod->spd = read32l(f);
mod->rst = read32l(f);
mod->pat = read32l(f);
mod->ins = mod->smp = read32l(f);
mod->trk = mod->pat * mod->chn;
xmp_fread(mod->xxo, 1, (mod->len + 3) & ~3L, f);
MODULE_INFO();
for (i = 0; i < mod->pat; i++) {
int x = read32l(f);
if (i < 256)
pofs[i] = x;
}
n = (mod->pat + 3) & ~3L;
for (i = 0; i < n; i++) {
int x = read8(f);
if (i < 256)
plen[i] = x;
}
INSTRUMENT_INIT();
/* Read instrument names */
for (i = 0; i < mod->ins; i++) {
int c2spd, looplen;
mod->xxi[i].sub = calloc(sizeof (struct xmp_subinstrument), 1);
read8(f); /* note */
mod->xxi[i].sub[0].vol = read8(f) >> 1;
mod->xxi[i].sub[0].pan = 0x80;
read16l(f); /* not used */
c2spd = read32l(f); /* period? */
read32l(f); /* sustain start */
read32l(f); /* sustain length */
mod->xxs[i].lps = read32l(f);
looplen = read32l(f);
mod->xxs[i].flg = looplen > 0 ? XMP_SAMPLE_LOOP : 0;
mod->xxs[i].lpe = mod->xxs[i].lps + looplen;
mod->xxs[i].len = read32l(f);
xmp_fread(buf, 1, 32, f);
copy_adjust(mod->xxi[i].name, (uint8 *)buf, 32);
sdata[i] = read32l(f);
mod->xxi[i].nsm = !!(mod->xxs[i].len);
mod->xxi[i].sub[0].sid = i;
D_(D_INFO "[%2X] %-32.32s %04x %04x %04x %c V%02x %d\n",
i, mod->xxi[i].name, mod->xxs[i].len,
mod->xxs[i].lps, mod->xxs[i].lpe,
mod->xxs[i].flg & XMP_SAMPLE_LOOP ? 'L' : ' ',
mod->xxi[i].sub[0].vol, c2spd);
}
PATTERN_INIT();
/* Read and convert patterns */
D_(D_INFO "Stored patterns: %d", mod->pat);
for (i = 0; i < mod->pat; i++) {
PATTERN_ALLOC(i);
mod->xxp[i]->rows = plen[i];
TRACK_ALLOC(i);
xmp_fseek(f, start + pofs[i], SEEK_SET);
for (j = 0; j < mod->xxp[i]->rows; j++) {
for (k = 0; k < mod->chn; k++) {
uint32 x;
event = &EVENT (i, k, j);
x = read32l(f);
event->ins = (x & 0x0000003f);
event->note = (x & 0x00000fc0) >> 6;
event->fxt = (x & 0x0001f000) >> 12;
if (event->note)
event->note += 48;
/* sorry, we only have room for two effects */
if (x & (0x1f << 17)) {
event->f2p = (x & 0x003e0000) >> 17;
x = read32l(f);
event->fxp = (x & 0x000000ff);
event->f2p = (x & 0x0000ff00) >> 8;
} else {
event->fxp = (x & 0xfc000000) >> 18;
}
}
}