static int mtp_load(struct module_data *m, HIO_HANDLE *f, const int start)
{
struct xmp_module *mod = &m->mod;
struct xmp_event *event;
int i, j, k;
uint8 buffer[25];
int blocksize;
LOAD_INIT();
hio_read(buffer, 6, 1, f);
if (!memcmp(buffer, "SONGOK", 6))
libxmp_set_type(m, "IIgs SoundSmith");
else if (!memcmp(buffer, "IAN92a", 8))
libxmp_set_type(m, "IIgs MegaTracker");
else
return -1;
blocksize = hio_read16l(f);
mod->spd = hio_read16l(f);
hio_seek(f, 10, SEEK_CUR); /* skip 10 reserved bytes */
mod->ins = mod->smp = 15;
if (libxmp_init_instrument(m) < 0)
return -1;
for (i = 0; i < mod->ins; i++) {
if (libxmp_alloc_subinstrument(mod, i, 1) < 0)
return -1;
hio_read(buffer, 1, 22, f);
if (buffer[0]) {
buffer[buffer[0] + 1] = 0;
libxmp_instrument_name(mod, i, buffer + 1, 22);
}
hio_read16l(f); /* skip 2 reserved bytes */
mod->xxi[i].sub[0].vol = hio_read8(f) >> 2;
mod->xxi[i].sub[0].pan = 0x80;
hio_seek(f, 5, SEEK_CUR); /* skip 5 bytes */
}
mod->len = hio_read8(f) & 0x7f;
hio_read8(f);
hio_read(mod->xxo, 1, 128, f);
MODULE_INFO();
hio_seek(f, start + 600, SEEK_SET);
mod->chn = 14;
mod->pat = blocksize / (14 * 64);
mod->trk = mod->pat * mod->chn;
if (libxmp_init_pattern(mod) < 0)
return -1;
/* Read and convert patterns */
D_(D_INFO "Stored patterns: %d", mod->pat);
/* Load notes */
for (i = 0; i < mod->pat; i++) {
if (libxmp_alloc_pattern_tracks(mod, i, 64) < 0)
return -1;
for (j = 0; j < mod->xxp[i]->rows; j++) {
for (k = 0; k < mod->chn; k++) {
event = &EVENT(i, k, j);
event->note = hio_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 = hio_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 = hio_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++) {
HIO_HANDLE *s;
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 = hio_open_file(filename, "rb")) != NULL) {
asif_load(m, s, i);
hio_close(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 rtm_load(struct module_data *m, HIO_HANDLE *f, const int start)
{
struct xmp_module *mod = &m->mod;
int i, j, r;
struct xmp_event *event;
struct ObjectHeader oh;
struct RTMMHeader rh;
struct RTNDHeader rp;
struct RTINHeader ri;
struct RTSMHeader rs;
int offset, smpnum, version;
char tracker_name[21], composer[33];
LOAD_INIT();
if (read_object_header(f, &oh, "RTMM") < 0)
return -1;
version = oh.version;
hio_read(tracker_name, 1, 20, f);
tracker_name[20] = 0;
hio_read(composer, 1, 32, f);
composer[32] = 0;
rh.flags = hio_read16l(f); /* bit 0: linear table, bit 1: track names */
rh.ntrack = hio_read8(f);
rh.ninstr = hio_read8(f);
rh.nposition = hio_read16l(f);
rh.npattern = hio_read16l(f);
rh.speed = hio_read8(f);
rh.tempo = hio_read8(f);
hio_read(&rh.panning, 32, 1, f);
rh.extraDataSize = hio_read32l(f);
/* Sanity check */
if (rh.nposition > 255 || rh.ntrack > 32 || rh.npattern > 255) {
return -1;
}
if (version >= 0x0112)
hio_seek(f, 32, SEEK_CUR); /* skip original name */
for (i = 0; i < rh.nposition; i++) {
mod->xxo[i] = hio_read16l(f);
if (mod->xxo[i] >= rh.npattern) {
return -1;
}
}
strncpy(mod->name, oh.name, 20);
snprintf(mod->type, XMP_NAME_SIZE, "%s RTM %x.%02x",
tracker_name, version >> 8, version & 0xff);
/* strncpy(m->author, composer, XMP_NAME_SIZE); */
mod->len = rh.nposition;
mod->pat = rh.npattern;
mod->chn = rh.ntrack;
mod->trk = mod->chn * mod->pat;
mod->ins = rh.ninstr;
mod->spd = rh.speed;
mod->bpm = rh.tempo;
m->c4rate = C4_NTSC_RATE;
m->period_type = rh.flags & 0x01 ? PERIOD_LINEAR : PERIOD_AMIGA;
MODULE_INFO();
for (i = 0; i < mod->chn; i++)
mod->xxc[i].pan = rh.panning[i] & 0xff;
if (libxmp_init_pattern(mod) < 0)
return -1;
D_(D_INFO "Stored patterns: %d", mod->pat);
offset = 42 + oh.headerSize + rh.extraDataSize;
for (i = 0; i < mod->pat; i++) {
uint8 c;
hio_seek(f, start + offset, SEEK_SET);
if (read_object_header(f, &oh, "RTND") < 0) {
D_(D_CRIT "Error reading pattern %d", i);
return -1;
}
rp.flags = hio_read16l(f);
rp.ntrack = hio_read8(f);
rp.nrows = hio_read16l(f);
rp.datasize = hio_read32l(f);
/* Sanity check */
if (rp.ntrack > rh.ntrack || rp.nrows > 256) {
return -1;
}
offset += 42 + oh.headerSize + rp.datasize;
if (libxmp_alloc_pattern_tracks(mod, i, rp.nrows) < 0)
return -1;
for (r = 0; r < rp.nrows; r++) {
for (j = 0; /*j < rp.ntrack */; j++) {
c = hio_read8(f);
if (c == 0) /* next row */
break;
/* Sanity check */
if (j >= rp.ntrack) {
return -1;
}
event = &EVENT(i, j, r);
if (c & 0x01) { /* set track */
j = hio_read8(f);
/* Sanity check */
if (j >= rp.ntrack) {
return -1;
}
event = &EVENT(i, j, r);
}
if (c & 0x02) { /* read note */
event->note = hio_read8(f) + 1;
if (event->note == 0xff) {
event->note = XMP_KEY_OFF;
} else {
event->note += 12;
}
}
if (c & 0x04) /* read instrument */
event->ins = hio_read8(f);
if (c & 0x08) /* read effect */
event->fxt = hio_read8(f);
if (c & 0x10) /* read parameter */
event->fxp = hio_read8(f);
if (c & 0x20) /* read effect 2 */
event->f2t = hio_read8(f);
if (c & 0x40) /* read parameter 2 */
event->f2p = hio_read8(f);
}
}
}
/*
* load instruments
*/
D_(D_INFO "Instruments: %d", mod->ins);
hio_seek(f, start + offset, SEEK_SET);
/* ESTIMATED value! We don't know the actual value at this point */
mod->smp = MAX_SAMP;
if (libxmp_init_instrument(m) < 0)
return -1;
smpnum = 0;
for (i = 0; i < mod->ins; i++) {
struct xmp_instrument *xxi = &mod->xxi[i];
if (read_object_header(f, &oh, "RTIN") < 0) {
D_(D_CRIT "Error reading instrument %d", i);
return -1;
}
libxmp_instrument_name(mod, i, (uint8 *)&oh.name, 32);
if (oh.headerSize == 0) {
D_(D_INFO "[%2X] %-26.26s %2d ", i,
xxi->name, xxi->nsm);
ri.nsample = 0;
continue;
}
ri.nsample = hio_read8(f);
ri.flags = hio_read16l(f); /* bit 0 : default panning enabled */
if (hio_read(&ri.table, 1, 120, f) != 120)
return -1;
ri.volumeEnv.npoint = hio_read8(f);
/* Sanity check */
if (ri.volumeEnv.npoint >= 12)
return -1;
for (j = 0; j < 12; j++) {
ri.volumeEnv.point[j].x = hio_read32l(f);
ri.volumeEnv.point[j].y = hio_read32l(f);
}
ri.volumeEnv.sustain = hio_read8(f);
ri.volumeEnv.loopstart = hio_read8(f);
ri.volumeEnv.loopend = hio_read8(f);
ri.volumeEnv.flags = hio_read16l(f); /* bit 0:enable 1:sus 2:loop */
ri.panningEnv.npoint = hio_read8(f);
/* Sanity check */
if (ri.panningEnv.npoint >= 12)
return -1;
for (j = 0; j < 12; j++) {
ri.panningEnv.point[j].x = hio_read32l(f);
ri.panningEnv.point[j].y = hio_read32l(f);
}
ri.panningEnv.sustain = hio_read8(f);
ri.panningEnv.loopstart = hio_read8(f);
ri.panningEnv.loopend = hio_read8(f);
ri.panningEnv.flags = hio_read16l(f);
ri.vibflg = hio_read8(f);
ri.vibsweep = hio_read8(f);
ri.vibdepth = hio_read8(f);
ri.vibrate = hio_read8(f);
ri.volfade = hio_read16l(f);
if (version >= 0x0110) {
ri.midiPort = hio_read8(f);
ri.midiChannel = hio_read8(f);
ri.midiProgram = hio_read8(f);
ri.midiEnable = hio_read8(f);
}
if (version >= 0x0112) {
ri.midiTranspose = hio_read8(f);
ri.midiBenderRange = hio_read8(f);
ri.midiBaseVolume = hio_read8(f);
ri.midiUseVelocity = hio_read8(f);
}
xxi->nsm = ri.nsample;
D_(D_INFO "[%2X] %-26.26s %2d", i, xxi->name, xxi->nsm);
if (xxi->nsm > 16)
xxi->nsm = 16;
if (libxmp_alloc_subinstrument(mod, i, xxi->nsm) < 0)
return -1;
for (j = 0; j < 120; j++)
xxi->map[j].ins = ri.table[j];
/* Envelope */
xxi->rls = ri.volfade;
xxi->aei.npt = ri.volumeEnv.npoint;
xxi->aei.sus = ri.volumeEnv.sustain;
xxi->aei.lps = ri.volumeEnv.loopstart;
xxi->aei.lpe = ri.volumeEnv.loopend;
xxi->aei.flg = ri.volumeEnv.flags;
xxi->pei.npt = ri.panningEnv.npoint;
xxi->pei.sus = ri.panningEnv.sustain;
xxi->pei.lps = ri.panningEnv.loopstart;
xxi->pei.lpe = ri.panningEnv.loopend;
xxi->pei.flg = ri.panningEnv.flags;
for (j = 0; j < xxi->aei.npt; j++) {
xxi->aei.data[j * 2 + 0] = ri.volumeEnv.point[j].x;
xxi->aei.data[j * 2 + 1] = ri.volumeEnv.point[j].y / 2;
}
for (j = 0; j < xxi->pei.npt; j++) {
xxi->pei.data[j * 2 + 0] = ri.panningEnv.point[j].x;
xxi->pei.data[j * 2 + 1] = 32 + ri.panningEnv.point[j].y / 2;
}
/* For each sample */
for (j = 0; j < xxi->nsm; j++, smpnum++) {
struct xmp_subinstrument *sub = &xxi->sub[j];
struct xmp_sample *xxs;
if (read_object_header(f, &oh, "RTSM") < 0) {
D_(D_CRIT "Error reading sample %d", j);
return -1;
}
rs.flags = hio_read16l(f);
rs.basevolume = hio_read8(f);
rs.defaultvolume = hio_read8(f);
rs.length = hio_read32l(f);
rs.loop = hio_read32l(f);
rs.loopbegin = hio_read32l(f);
rs.loopend = hio_read32l(f);
rs.basefreq = hio_read32l(f);
rs.basenote = hio_read8(f);
rs.panning = hio_read8(f);
libxmp_c2spd_to_note(rs.basefreq, &sub->xpo, &sub->fin);
sub->xpo += 48 - rs.basenote;
sub->vol = rs.defaultvolume * rs.basevolume / 0x40;
sub->pan = 0x80 + rs.panning * 2;
sub->vwf = ri.vibflg;
sub->vde = ri.vibdepth << 2;
sub->vra = ri.vibrate;
sub->vsw = ri.vibsweep;
sub->sid = smpnum;
if (smpnum >= mod->smp) {
mod->xxs = libxmp_realloc_samples(mod->xxs,
&mod->smp, mod->smp * 3 / 2);
if (mod->xxs == NULL)
return -1;
}
xxs = &mod->xxs[smpnum];
libxmp_copy_adjust(xxs->name, (uint8 *)oh.name, 31);
xxs->len = rs.length;
xxs->lps = rs.loopbegin;
xxs->lpe = rs.loopend;
xxs->flg = 0;
if (rs.flags & 0x02) {
xxs->flg |= XMP_SAMPLE_16BIT;
xxs->len >>= 1;
xxs->lps >>= 1;
xxs->lpe >>= 1;
}
xxs->flg |= rs.loop & 0x03 ? XMP_SAMPLE_LOOP : 0;
xxs->flg |= rs.loop == 2 ? XMP_SAMPLE_LOOP_BIDIR : 0;
D_(D_INFO " [%1x] %05x%c%05x %05x %c "
"V%02x F%+04d P%02x R%+03d",
j, xxs->len,
xxs->flg & XMP_SAMPLE_16BIT ? '+' : ' ',
xxs->lps, xxs->lpe,
xxs->flg & XMP_SAMPLE_LOOP_BIDIR ? 'B' :
xxs->flg & XMP_SAMPLE_LOOP ? 'L' : ' ',
sub->vol, sub->fin, sub->pan, sub->xpo);
if (libxmp_load_sample(m, f, SAMPLE_FLAG_DIFF, xxs, NULL) < 0)
return -1;
}
}
static int gdm_load(struct module_data *m, HIO_HANDLE *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();
hio_read32b(f); /* skip magic */
hio_read(mod->name, 1, 32, f);
hio_seek(f, 32, SEEK_CUR); /* skip author */
hio_seek(f, 7, SEEK_CUR);
vermaj = hio_read8(f);
vermin = hio_read8(f);
tracker = hio_read16l(f);
tvmaj = hio_read8(f);
tvmin = hio_read8(f);
if (tracker == 0) {
libxmp_set_type(m, "GDM %d.%02d (2GDM %d.%02d)",
vermaj, vermin, tvmaj, tvmin);
} else {
libxmp_set_type(m, "GDM %d.%02d (unknown tracker %d.%02d)",
vermaj, vermin, tvmaj, tvmin);
}
hio_read(panmap, 32, 1, f);
for (i = 0; i < 32; i++) {
if (panmap[i] == 255) {
panmap[i] = 8;
mod->xxc[i].vol = 0;
mod->xxc[i].flg |= XMP_CHANNEL_MUTE;
} else if (panmap[i] == 16) {
panmap[i] = 8;
}
mod->xxc[i].pan = 0x80 + (panmap[i] - 8) * 16;
}
mod->gvl = hio_read8(f);
mod->spd = hio_read8(f);
mod->bpm = hio_read8(f);
/*origfmt =*/ hio_read16l(f);
ord_ofs = hio_read32l(f);
mod->len = hio_read8(f) + 1;
pat_ofs = hio_read32l(f);
mod->pat = hio_read8(f) + 1;
ins_ofs = hio_read32l(f);
smp_ofs = hio_read32l(f);
mod->ins = mod->smp = hio_read8(f) + 1;
m->c4rate = C4_NTSC_RATE;
MODULE_INFO();
hio_seek(f, start + ord_ofs, SEEK_SET);
for (i = 0; i < mod->len; i++)
mod->xxo[i] = hio_read8(f);
/* Read instrument data */
hio_seek(f, start + ins_ofs, SEEK_SET);
if (libxmp_init_instrument(m) < 0)
return -1;
for (i = 0; i < mod->ins; i++) {
int flg, c4spd, vol, pan;
if (libxmp_alloc_subinstrument(mod, i, 1) < 0)
return -1;
if (hio_read(buffer, 1, 32, f) != 32)
return -1;
libxmp_instrument_name(mod, i, buffer, 32);
hio_seek(f, 12, SEEK_CUR); /* skip filename */
hio_read8(f); /* skip EMS handle */
mod->xxs[i].len = hio_read32l(f);
mod->xxs[i].lps = hio_read32l(f);
mod->xxs[i].lpe = hio_read32l(f);
flg = hio_read8(f);
c4spd = hio_read16l(f);
vol = hio_read8(f);
pan = hio_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;
libxmp_c2spd_to_note(c4spd, &mod->xxi[i].sub[0].xpo, &mod->xxi[i].sub[0].fin);
mod->xxi[i].sub[0].sid = i;
mod->xxs[i].flg = 0;
if (mod->xxs[i].len > 0)
mod->xxi[i].nsm = 1;
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 pw_load(struct module_data *m, HIO_HANDLE *h, const int start)
{
struct xmp_module *mod = &m->mod;
struct xmp_event *event;
struct mod_header mh;
uint8 mod_event[4];
HIO_HANDLE *f;
FILE *temp;
char *name;
char *temp_name;
int i, j;
/* Prowizard depacking */
if ((temp = make_temp_file(&temp_name)) == NULL) {
goto err;
}
if (pw_wizardry(h, temp, &name) < 0) {
fclose(temp);
goto err2;
}
/* Module loading */
if ((f = hio_open_file(temp)) == NULL) {
goto err2;
}
if (hio_seek(f, 0, start) < 0) {
goto err3;
}
hio_read(&mh.name, 20, 1, f);
for (i = 0; i < 31; i++) {
hio_read(&mh.ins[i].name, 22, 1, f);
mh.ins[i].size = hio_read16b(f);
mh.ins[i].finetune = hio_read8(f);
mh.ins[i].volume = hio_read8(f);
mh.ins[i].loop_start = hio_read16b(f);
mh.ins[i].loop_size = hio_read16b(f);
}
mh.len = hio_read8(f);
mh.restart = hio_read8(f);
hio_read(&mh.order, 128, 1, f);
hio_read(&mh.magic, 4, 1, f);
if (memcmp(mh.magic, "M.K.", 4)) {
goto err3;
}
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;
snprintf(mod->name, XMP_NAME_SIZE, "%s", (char *)mh.name);
snprintf(mod->type, XMP_NAME_SIZE, "%s", name);
MODULE_INFO();
if (libxmp_init_instrument(m) < 0) {
goto err3;
}
for (i = 0; i < mod->ins; i++) {
if (libxmp_alloc_subinstrument(mod, i, 1) < 0)
goto err3;
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].rls = 0xfff;
if (mod->xxs[i].len > 0)
mod->xxi[i].nsm = 1;
libxmp_instrument_name(mod, i, 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);
}
if (libxmp_init_pattern(mod) < 0) {
goto err3;
}
/* Load and convert patterns */
D_(D_INFO "Stored patterns: %d", mod->pat);
for (i = 0; i < mod->pat; i++) {
if (libxmp_alloc_pattern_tracks(mod, i, 64) < 0)
goto err3;
for (j = 0; j < (64 * 4); j++) {
event = &EVENT(i, j % 4, j / 4);
hio_read(mod_event, 1, 4, f);
libxmp_decode_protracker_event(event, mod_event);
}
}
m->period_type = PERIOD_MODRNG;
/* Load samples */
D_(D_INFO "Stored samples: %d", mod->smp);
for (i = 0; i < mod->smp; i++) {
if (libxmp_load_sample(m, f, 0, &mod->xxs[i], NULL) < 0)
goto err3;
}
hio_close(f);
unlink_temp_file(temp_name);
return 0;
err3:
hio_close(f);
err2:
unlink_temp_file(temp_name);
err:
return -1;
}
static int ptdt_load(struct module_data *m, HIO_HANDLE *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];
hio_read(&mh.name, 20, 1, f);
for (i = 0; i < 31; i++) {
hio_read(&mh.ins[i].name, 22, 1, f);
mh.ins[i].size = hio_read16b(f);
mh.ins[i].finetune = hio_read8(f);
mh.ins[i].volume = hio_read8(f);
mh.ins[i].loop_start = hio_read16b(f);
mh.ins[i].loop_size = hio_read16b(f);
}
mh.len = hio_read8(f);
mh.restart = hio_read8(f);
hio_read(&mh.order, 128, 1, f);
hio_read(&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;
if (libxmp_init_instrument(m) < 0)
return -1;
for (i = 0; i < mod->ins; i++) {
if (libxmp_alloc_subinstrument(mod, i, 1) < 0)
return -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;
if (mod->xxs[i].len > 0)
mod->xxi[i].nsm = 1;
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].rls = 0xfff;
libxmp_instrument_name(mod, i, 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);
}
if (libxmp_init_pattern(mod) < 0)
return -1;
/* Load and convert patterns */
D_(D_INFO "Stored patterns: %d", mod->pat);
for (i = 0; i < mod->pat; i++) {
if (libxmp_alloc_pattern_tracks(mod, i, 64) < 0)
return -1;
for (j = 0; j < (64 * 4); j++) {
event = &EVENT(i, j % 4, j / 4);
hio_read(mod_event, 1, 4, f);
libxmp_decode_protracker_event(event, mod_event);
}
}
m->period_type = PERIOD_MODRNG;
/* Load samples */
D_(D_INFO "Stored samples: %d", mod->smp);
for (i = 0; i < mod->smp; i++) {
if (!mod->xxs[i].len)
continue;
if (libxmp_load_sample(m, f, 0, &mod->xxs[i], NULL) < 0)
return -1;
}
return 0;
}
static int chip_load(struct module_data *m, HIO_HANDLE *f, const int start)
{
struct xmp_module *mod = &m->mod;
struct mod_header mh;
uint8 *tidx;
int i, j, tnum;
LOAD_INIT();
if ((tidx = calloc(1, 1024)) == NULL) {
goto err;
}
hio_read(&mh.name, 20, 1, f);
hio_read16b(f);
for (i = 0; i < 31; i++) {
hio_read(&mh.ins[i].name, 22, 1, f);
mh.ins[i].size = hio_read16b(f);
mh.ins[i].finetune = hio_read8(f);
mh.ins[i].volume = hio_read8(f);
mh.ins[i].loop_start = hio_read16b(f);
mh.ins[i].loop_size = hio_read16b(f);
}
hio_read(&mh.magic, 4, 1, f);
mh.len = hio_read8(f);
/* Sanity check */
if (mh.len > 128) {
goto err2;
}
mh.restart = hio_read8(f);
hio_read(tidx, 1024, 1, f);
hio_read16b(f);
mod->chn = 4;
mod->ins = 31;
mod->smp = mod->ins;
mod->len = mh.len;
mod->pat = mh.len;
mod->rst = mh.restart;
tnum = 0;
for (i = 0; i < mod->len; i++) {
mod->xxo[i] = i;
for (j = 0; j < 4; j++) {
int t = tidx[2 * (4 * i + j)];
if (t > tnum)
tnum = t;
}
}
mod->trk = tnum + 1;
strncpy(mod->name, (char *)mh.name, 20);
libxmp_set_type(m, "Chiptracker");
MODULE_INFO();
if (libxmp_init_instrument(m) < 0)
goto err2;
for (i = 0; i < mod->ins; i++) {
struct xmp_instrument *xxi = &mod->xxi[i];
struct xmp_sample *xxs = &mod->xxs[i];
struct xmp_subinstrument *sub;
if (libxmp_alloc_subinstrument(mod, i, 1) < 0)
goto err2;
sub = &xxi->sub[0];
xxs->len = 2 * mh.ins[i].size;
xxs->lps = mh.ins[i].loop_start;
xxs->lpe = xxs->lps + 2 * mh.ins[i].loop_size;
xxs->flg = mh.ins[i].loop_size > 1 ? XMP_SAMPLE_LOOP : 0;
sub->fin = (int8) (mh.ins[i].finetune << 4);
sub->vol = mh.ins[i].volume;
sub->pan = 0x80;
sub->sid = i;
if (xxs->len > 0)
xxi->nsm = 1;
libxmp_instrument_name(mod, i, mh.ins[i].name, 22);
}
if (libxmp_init_pattern(mod) < 0)
goto err2;
for (i = 0; i < mod->len; i++) {
if (libxmp_alloc_pattern(mod, i) < 0)
goto err2;
mod->xxp[i]->rows = 64;
for (j = 0; j < 4; j++) {
int t = tidx[2 * (4 * i + j)];
mod->xxp[i]->index[j] = t;
}
}
/* Load and convert tracks */
D_(D_INFO "Stored tracks: %d", mod->trk);
for (i = 0; i < mod->trk; i++) {
if (libxmp_alloc_track(mod, i, 64) < 0)
goto err2;
for (j = 0; j < 64; j++) {
struct xmp_event *event = &mod->xxt[i]->event[j];
uint8 e[4];
hio_read(e, 1, 4, f);
if (e[0] && e[0] != 0xa8)
event->note = 13 + e[0] / 2;
event->ins = e[1];
event->fxt = e[2] & 0x0f;
event->fxp = e[3];
}
}
m->period_type = PERIOD_MODRNG;
/* Load samples */
D_(D_INFO "Stored samples: %d", mod->smp);
for (i = 0; i < mod->smp; i++) {
if (mod->xxs[i].len == 0)
continue;
if (libxmp_load_sample(m, f, SAMPLE_FLAG_FULLREP, &mod->xxs[i], NULL) < 0)
goto err2;
}
free(tidx);
return 0;
err2:
free(tidx);
err:
return -1;
}
static int tcb_load(struct module_data *m, HIO_HANDLE *f, const int start)
{
struct xmp_module *mod = &m->mod;
struct xmp_event *event;
int i, j, k;
uint8 buffer[10];
int base_offs, soffs[16];
uint8 unk1[16], unk2[16], unk3[16];
LOAD_INIT();
hio_read(buffer, 8, 1, f);
libxmp_set_type(m, "TCB Tracker", buffer);
hio_read16b(f); /* ? */
mod->pat = hio_read16b(f);
mod->ins = 16;
mod->smp = mod->ins;
mod->chn = 4;
mod->trk = mod->pat * mod->chn;
m->quirk |= QUIRK_MODRNG;
hio_read16b(f); /* ? */
for (i = 0; i < 128; i++)
mod->xxo[i] = hio_read8(f);
mod->len = hio_read8(f);
hio_read8(f); /* ? */
hio_read16b(f); /* ? */
MODULE_INFO();
if (libxmp_init_instrument(m) < 0)
return -1;
/* Read instrument names */
for (i = 0; i < mod->ins; i++) {
if (libxmp_alloc_subinstrument(mod, i, 1) < 0)
return -1;
hio_read(buffer, 8, 1, f);
libxmp_instrument_name(mod, i, buffer, 8);
}
hio_read16b(f); /* ? */
for (i = 0; i < 5; i++)
hio_read16b(f);
for (i = 0; i < 5; i++)
hio_read16b(f);
for (i = 0; i < 5; i++)
hio_read16b(f);
if (libxmp_init_pattern(mod) < 0)
return -1;
/* Read and convert patterns */
D_(D_INFO "Stored patterns: %d ", mod->pat);
for (i = 0; i < mod->pat; i++) {
if (libxmp_alloc_pattern_tracks(mod, i, 64) < 0)
return -1;
for (j = 0; j < mod->xxp[i]->rows; j++) {
for (k = 0; k < mod->chn; k++) {
int b;
event = &EVENT (i, k, j);
b = hio_read8(f);
if (b) {
event->note = 12 * (b >> 4);
event->note += (b & 0xf) + 36;
}
b = hio_read8(f);
event->ins = b >> 4;
if (event->ins)
event->ins += 1;
if (b &= 0x0f) {
switch (b) {
case 0xd:
event->fxt = FX_BREAK;
event->fxp = 0;
break;
default:
printf("---> %02x\n", b);
}
}
}
}
}
base_offs = hio_tell(f);
hio_read32b(f); /* remaining size */
/* Read instrument data */
for (i = 0; i < mod->ins; i++) {
mod->xxi[i].sub[0].vol = hio_read8(f) / 2;
mod->xxi[i].sub[0].pan = 0x80;
unk1[i] = hio_read8(f);
unk2[i] = hio_read8(f);
unk3[i] = hio_read8(f);
}
for (i = 0; i < mod->ins; i++) {
soffs[i] = hio_read32b(f);
mod->xxs[i].len = hio_read32b(f);
}
hio_read32b(f);
hio_read32b(f);
hio_read32b(f);
hio_read32b(f);
for (i = 0; i < mod->ins; i++) {
mod->xxi[i].nsm = !!(mod->xxs[i].len);
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;
mod->xxi[i].sub[0].sid = i;
D_(D_INFO "[%2X] %-8.8s %04x %04x %04x %c "
"V%02x %02x %02x %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, unk1[i], unk2[i], unk3[i]);
}
/* Read samples */
D_(D_INFO "Stored samples: %d", mod->smp);
for (i = 0; i < mod->ins; i++) {
hio_seek(f, start + base_offs + soffs[i], SEEK_SET);
if (libxmp_load_sample(m, f, SAMPLE_FLAG_UNS, &mod->xxs[i], NULL) < 0)
return -1;
}
return 0;
}
