raze-gles/source/libxmp-lite/src/it_load.c
terminx 8de955053c Update libxmp-lite
git-svn-id: https://svn.eduke32.com/eduke32@8132 1a8010ca-5511-0410-912e-c29ae57300e0
2019-09-20 23:29:40 +02:00

1400 lines
31 KiB
C

/* Extended Module Player
* Copyright (C) 1996-2018 Claudio Matsuoka and Hipolito Carraro Jr
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#ifndef LIBXMP_CORE_DISABLE_IT
#include <time.h>
#include "loader.h"
#include "it.h"
#include "period.h"
#define MAGIC_IMPM MAGIC4('I','M','P','M')
#define MAGIC_IMPI MAGIC4('I','M','P','I')
#define MAGIC_IMPS MAGIC4('I','M','P','S')
static int it_test(HIO_HANDLE *, char *, const int);
static int it_load(struct module_data *, HIO_HANDLE *, const int);
extern const struct format_loader libxmp_loader_it;
const struct format_loader libxmp_loader_it = {
"Impulse Tracker",
it_test,
it_load
};
#ifndef LIBXMP_CORE_PLAYER /* */
#if defined(__WATCOMC__)
#undef localtime_r
#define localtime_r _localtime
#elif !defined(HAVE_LOCALTIME_R) || defined(_WIN32)
#undef localtime_r
#define localtime_r libxmp_localtime_r
static struct tm *libxmp_localtime_r(const time_t * timep, struct tm *result)
{
/* Note: Win32 localtime() is thread-safe */
memcpy(result, localtime(timep), sizeof(struct tm));
return result;
}
#endif
#endif /* ! LIBXMP_CORE_PLAYER */
static int it_test(HIO_HANDLE * f, char *t, const int start)
{
if (hio_read32b(f) != MAGIC_IMPM)
return -1;
libxmp_read_title(f, t, 26);
return 0;
}
#define FX_NONE 0xff
#define FX_XTND 0xfe
#define L_CHANNELS 64
static const uint8 fx[] = {
/* */ FX_NONE,
/* A */ FX_S3M_SPEED,
/* B */ FX_JUMP,
/* C */ FX_IT_BREAK,
/* D */ FX_VOLSLIDE,
/* E */ FX_PORTA_DN,
/* F */ FX_PORTA_UP,
/* G */ FX_TONEPORTA,
/* H */ FX_VIBRATO,
/* I */ FX_TREMOR,
/* J */ FX_S3M_ARPEGGIO,
/* K */ FX_VIBRA_VSLIDE,
/* L */ FX_TONE_VSLIDE,
/* M */ FX_TRK_VOL,
/* N */ FX_TRK_VSLIDE,
/* O */ FX_OFFSET,
/* P */ FX_IT_PANSLIDE,
/* Q */ FX_MULTI_RETRIG,
/* R */ FX_TREMOLO,
/* S */ FX_XTND,
/* T */ FX_IT_BPM,
/* U */ FX_FINE_VIBRATO,
/* V */ FX_GLOBALVOL,
/* W */ FX_GVOL_SLIDE,
/* X */ FX_SETPAN,
/* Y */ FX_PANBRELLO,
/* Z */ FX_FLT_CUTOFF
};
int itsex_decompress8 (HIO_HANDLE *, uint8 *, int, int);
int itsex_decompress16 (HIO_HANDLE *, int16 *, int, int);
static void xlat_fx(int c, struct xmp_event *e, uint8 *last_fxp, int new_fx)
{
uint8 h = MSN(e->fxp), l = LSN(e->fxp);
switch (e->fxt = fx[e->fxt]) {
case FX_XTND: /* Extended effect */
e->fxt = FX_EXTENDED;
if (h == 0 && e->fxp == 0) {
e->fxp = last_fxp[c];
h = MSN(e->fxp);
l = LSN(e->fxp);
} else {
last_fxp[c] = e->fxp;
}
switch (h) {
case 0x1: /* Glissando */
e->fxp = 0x30 | l;
break;
case 0x2: /* Finetune -- not supported */
e->fxt = e->fxp = 0;
break;
case 0x3: /* Vibrato wave */
e->fxp = 0x40 | l;
break;
case 0x4: /* Tremolo wave */
e->fxp = 0x70 | l;
break;
case 0x5: /* Panbrello wave */
if (l <= 3) {
e->fxt = FX_PANBRELLO_WF;
e->fxp = l;
} else {
e->fxt = e->fxp = 0;
}
break;
case 0x6: /* Pattern delay */
e->fxp = 0xe0 | l;
break;
case 0x7: /* Instrument functions */
e->fxt = FX_IT_INSTFUNC;
e->fxp &= 0x0f;
break;
case 0x8: /* Set pan position */
e->fxt = FX_SETPAN;
e->fxp = l << 4;
break;
case 0x9: /* 0x91 = set surround */
e->fxt = FX_SURROUND;
e->fxp = l;
break;
case 0xa: /* High offset */
e->fxt = FX_HIOFFSET;
e->fxp = l;
break;
case 0xb: /* Pattern loop */
e->fxp = 0x60 | l;
break;
case 0xc: /* Note cut */
case 0xd: /* Note delay */
if ((e->fxp = l) == 0)
e->fxp++; /* SD0 and SC0 become SD1 and SC1 */
e->fxp |= h << 4;
break;
case 0xe: /* Pattern row delay */
e->fxt = FX_IT_ROWDELAY;
e->fxp = l;
break;
default:
e->fxt = e->fxp = 0;
}
break;
case FX_FLT_CUTOFF:
if (e->fxp > 0x7f && e->fxp < 0x90) { /* Resonance */
e->fxt = FX_FLT_RESN;
e->fxp = (e->fxp - 0x80) * 16;
} else { /* Cutoff */
e->fxp *= 2;
}
break;
case FX_TREMOR:
if (!new_fx && e->fxp != 0) {
e->fxp = ((MSN(e->fxp) + 1) << 4) | (LSN(e->fxp) + 1);
}
break;
case FX_GLOBALVOL:
if (e->fxp > 0x80) { /* See storlek test 16 */
e->fxt = e->fxp = 0;
}
break;
case FX_NONE: /* No effect */
e->fxt = e->fxp = 0;
break;
}
}
static void xlat_volfx(struct xmp_event *event)
{
int b;
b = event->vol;
event->vol = 0;
if (b <= 0x40) {
event->vol = b + 1;
} else if (b >= 65 && b <= 74) { /* A */
event->f2t = FX_F_VSLIDE_UP_2;
event->f2p = b - 65;
} else if (b >= 75 && b <= 84) { /* B */
event->f2t = FX_F_VSLIDE_DN_2;
event->f2p = b - 75;
} else if (b >= 85 && b <= 94) { /* C */
event->f2t = FX_VSLIDE_UP_2;
event->f2p = b - 85;
} else if (b >= 95 && b <= 104) { /* D */
event->f2t = FX_VSLIDE_DN_2;
event->f2p = b - 95;
} else if (b >= 105 && b <= 114) { /* E */
event->f2t = FX_PORTA_DN;
event->f2p = (b - 105) << 2;
} else if (b >= 115 && b <= 124) { /* F */
event->f2t = FX_PORTA_UP;
event->f2p = (b - 115) << 2;
} else if (b >= 128 && b <= 192) { /* pan */
if (b == 192) {
event->f2p = 0xff;
} else {
event->f2p = (b - 128) << 2;
}
event->f2t = FX_SETPAN;
} else if (b >= 193 && b <= 202) { /* G */
uint8 val[10] = {
0x00, 0x01, 0x04, 0x08, 0x10,
0x20, 0x40, 0x60, 0x80, 0xff
};
event->f2t = FX_TONEPORTA;
event->f2p = val[b - 193];
} else if (b >= 203 && b <= 212) { /* H */
event->f2t = FX_VIBRATO;
event->f2p = b - 203;
}
}
static void fix_name(uint8 *s, int l)
{
int i;
/* IT names can have 0 at start of data, replace with space */
for (l--, i = 0; i < l; i++) {
if (s[i] == 0)
s[i] = ' ';
}
for (i--; i >= 0 && s[i] == ' '; i--) {
if (s[i] == ' ')
s[i] = 0;
}
}
static int read_envelope(struct xmp_envelope *ei, struct it_envelope *env,
HIO_HANDLE *f)
{
int i;
uint8 buf[82];
if (hio_read(buf, 1, 82, f) != 82) {
return -1;
}
env->flg = buf[0];
env->num = MIN(buf[1], 25); /* Clamp to IT max */
env->lpb = buf[2];
env->lpe = buf[3];
env->slb = buf[4];
env->sle = buf[5];
for (i = 0; i < 25; i++) {
env->node[i].y = buf[6 + i * 3];
env->node[i].x = readmem16l(buf + 7 + i * 3);
}
ei->flg = env->flg & IT_ENV_ON ? XMP_ENVELOPE_ON : 0;
if (env->flg & IT_ENV_LOOP) {
ei->flg |= XMP_ENVELOPE_LOOP;
}
if (env->flg & IT_ENV_SLOOP) {
ei->flg |= XMP_ENVELOPE_SUS | XMP_ENVELOPE_SLOOP;
}
if (env->flg & IT_ENV_CARRY) {
ei->flg |= XMP_ENVELOPE_CARRY;
}
ei->npt = env->num;
ei->sus = env->slb;
ei->sue = env->sle;
ei->lps = env->lpb;
ei->lpe = env->lpe;
if (ei->npt > 0 && ei->npt <= 25 /* XMP_MAX_ENV_POINTS */ ) {
for (i = 0; i < ei->npt; i++) {
ei->data[i * 2] = env->node[i].x;
ei->data[i * 2 + 1] = env->node[i].y;
}
} else {
ei->flg &= ~XMP_ENVELOPE_ON;
}
return 0;
}
static void identify_tracker(struct module_data *m, struct it_file_header *ifh)
{
#ifndef LIBXMP_CORE_PLAYER
char tracker_name[40];
int sample_mode = ~ifh->flags & IT_USE_INST;
switch (ifh->cwt >> 8) {
case 0x00:
strcpy(tracker_name, "unmo3");
break;
case 0x01:
case 0x02: /* test from Schism Tracker sources */
if (ifh->cmwt == 0x0200 && ifh->cwt == 0x0214
&& ifh->flags == 9 && ifh->special == 0
&& ifh->hilite_maj == 0 && ifh->hilite_min == 0
&& ifh->insnum == 0 && ifh->patnum + 1 == ifh->ordnum
&& ifh->gv == 128 && ifh->mv == 100 && ifh->is == 1
&& ifh->sep == 128 && ifh->pwd == 0
&& ifh->msglen == 0 && ifh->msgofs == 0 && ifh->rsvd == 0) {
strcpy(tracker_name, "OpenSPC conversion");
} else if (ifh->cmwt == 0x0200 && ifh->cwt == 0x0217) {
strcpy(tracker_name, "ModPlug Tracker 1.16");
/* ModPlug Tracker files aren't really IMPM 2.00 */
ifh->cmwt = sample_mode ? 0x100 : 0x214;
} else if (ifh->cwt == 0x0216) {
strcpy(tracker_name, "Impulse Tracker 2.14v3");
} else if (ifh->cwt == 0x0217) {
strcpy(tracker_name, "Impulse Tracker 2.14v5");
} else if (ifh->cwt == 0x0214 && !memcmp(&ifh->rsvd, "CHBI", 4)) {
strcpy(tracker_name, "Chibi Tracker");
} else {
snprintf(tracker_name, 40, "Impulse Tracker %d.%02x",
(ifh->cwt & 0x0f00) >> 8, ifh->cwt & 0xff);
}
break;
case 0x08:
case 0x7f:
if (ifh->cwt == 0x0888) {
strcpy(tracker_name, "OpenMPT 1.17");
} else if (ifh->cwt == 0x7fff) {
strcpy(tracker_name, "munch.py");
} else {
snprintf(tracker_name, 40, "unknown (%04x)", ifh->cwt);
}
break;
default:
switch (ifh->cwt >> 12) {
case 0x1:{
uint16 cwtv = ifh->cwt & 0x0fff;
struct tm version;
time_t version_sec;
if (cwtv > 0x50) {
version_sec = ((cwtv - 0x050) * 86400) + 1254355200;
if (localtime_r(&version_sec, &version)) {
snprintf(tracker_name, 40,
"Schism Tracker %04d-%02d-%02d",
version.tm_year + 1900,
version.tm_mon + 1,
version.tm_mday);
}
} else {
snprintf(tracker_name, 40,
"Schism Tracker 0.%x", cwtv);
}
break; }
case 0x5:
snprintf(tracker_name, 40, "OpenMPT %d.%02x",
(ifh->cwt & 0x0f00) >> 8, ifh->cwt & 0xff);
if (memcmp(&ifh->rsvd, "OMPT", 4))
strncat(tracker_name, " (compat.)", 39);
break;
case 0x06:
snprintf(tracker_name, 40, "BeRoTracker %d.%02x",
(ifh->cwt & 0x0f00) >> 8, ifh->cwt & 0xff);
break;
default:
snprintf(tracker_name, 40, "unknown (%04x)", ifh->cwt);
}
}
libxmp_set_type(m, "%s IT %d.%02x", tracker_name, ifh->cmwt >> 8,
ifh->cmwt & 0xff);
#else
libxmp_set_type(m, "Impulse Tracker");
#endif
}
static int load_old_it_instrument(struct xmp_instrument *xxi, HIO_HANDLE *f)
{
int inst_map[120], inst_rmap[XMP_MAX_KEYS];
struct it_instrument1_header i1h;
int c, k, j;
uint8 buf[64];
if (hio_read(buf, 1, 64, f) != 64) {
return -1;
}
i1h.magic = readmem32b(buf);
if (i1h.magic != MAGIC_IMPI) {
D_(D_CRIT "bad instrument magic");
return -1;
}
memcpy(i1h.dosname, buf + 4, 12);
i1h.zero = buf[16];
i1h.flags = buf[17];
i1h.vls = buf[18];
i1h.vle = buf[19];
i1h.sls = buf[20];
i1h.sle = buf[21];
i1h.fadeout = readmem16l(buf + 24);
i1h.nna = buf[26];
i1h.dnc = buf[27];
i1h.trkvers = readmem16l(buf + 28);
i1h.nos = buf[30];
memcpy(i1h.name, buf + 32, 26);
fix_name(i1h.name, 26);
if (hio_read(&i1h.keys, 1, 240, f) != 240) {
return -1;
}
if (hio_read(&i1h.epoint, 1, 200, f) != 200) {
return -1;
}
if (hio_read(&i1h.enode, 1, 50, f) != 50) {
return -1;
}
libxmp_copy_adjust(xxi->name, i1h.name, 25);
xxi->rls = i1h.fadeout << 7;
xxi->aei.flg = 0;
if (i1h.flags & IT_ENV_ON) {
xxi->aei.flg |= XMP_ENVELOPE_ON;
}
if (i1h.flags & IT_ENV_LOOP) {
xxi->aei.flg |= XMP_ENVELOPE_LOOP;
}
if (i1h.flags & IT_ENV_SLOOP) {
xxi->aei.flg |= XMP_ENVELOPE_SUS | XMP_ENVELOPE_SLOOP;
}
if (i1h.flags & IT_ENV_CARRY) {
xxi->aei.flg |= XMP_ENVELOPE_SUS | XMP_ENVELOPE_CARRY;
}
xxi->aei.lps = i1h.vls;
xxi->aei.lpe = i1h.vle;
xxi->aei.sus = i1h.sls;
xxi->aei.sue = i1h.sle;
for (k = 0; k < 25 && i1h.enode[k * 2] != 0xff; k++) ;
/* Sanity check */
if (k >= 25 || i1h.enode[k * 2] != 0xff) {
return -1;
}
for (xxi->aei.npt = k; k--;) {
xxi->aei.data[k * 2] = i1h.enode[k * 2];
xxi->aei.data[k * 2 + 1] = i1h.enode[k * 2 + 1];
}
/* See how many different instruments we have */
for (j = 0; j < 120; j++)
inst_map[j] = -1;
for (k = j = 0; j < XMP_MAX_KEYS; j++) {
c = j < 120 ? i1h.keys[j * 2 + 1] - 1 : -1;
if (c < 0 || c >= 120) {
xxi->map[j].ins = 0;
xxi->map[j].xpo = 0;
continue;
}
if (inst_map[c] == -1) {
inst_map[c] = k;
inst_rmap[k] = c;
k++;
}
xxi->map[j].ins = inst_map[c];
xxi->map[j].xpo = i1h.keys[j * 2] - j;
}
xxi->nsm = k;
xxi->vol = 0x40;
if (k) {
xxi->sub = (struct xmp_subinstrument *)calloc(sizeof(struct xmp_subinstrument), k);
if (xxi->sub == NULL) {
return -1;
}
for (j = 0; j < k; j++) {
struct xmp_subinstrument *sub = &xxi->sub[j];
sub->sid = inst_rmap[j];
sub->nna = i1h.nna;
sub->dct =
i1h.dnc ? XMP_INST_DCT_NOTE : XMP_INST_DCT_OFF;
sub->dca = XMP_INST_DCA_CUT;
sub->pan = -1;
}
}
D_(D_INFO "[ ] %-26.26s %d %-4.4s %4d %2d %c%c%c %3d",
/*i,*/ i1h.name,
i1h.nna,
i1h.dnc ? "on" : "off",
i1h.fadeout,
xxi->aei.npt,
xxi->aei.flg & XMP_ENVELOPE_ON ? 'V' : '-',
xxi->aei.flg & XMP_ENVELOPE_LOOP ? 'L' : '-',
xxi->aei.flg & XMP_ENVELOPE_SUS ? 'S' : '-', xxi->nsm);
return 0;
}
static int load_new_it_instrument(struct xmp_instrument *xxi, HIO_HANDLE *f)
{
int inst_map[120], inst_rmap[XMP_MAX_KEYS];
struct it_instrument2_header i2h;
struct it_envelope env;
int dca2nna[] = { 0, 2, 3 };
int c, k, j;
uint8 buf[64];
if (hio_read(buf, 1, 64, f) != 64) {
return -1;
}
i2h.magic = readmem32b(buf);
if (i2h.magic != MAGIC_IMPI) {
D_(D_CRIT "bad instrument magic");
return -1;
}
memcpy(i2h.dosname, buf + 4, 12);
i2h.zero = buf[16];
i2h.nna = buf[17];
i2h.dct = buf[18];
i2h.dca = buf[19];
/* Sanity check */
if (i2h.dca > 3) {
/* Northern Sky has an instrument with DCA 3 */
D_(D_WARN "bad instrument dca: %d", i2h.dca);
i2h.dca = 0;
}
i2h.fadeout = readmem16l(buf + 20);
i2h.pps = buf[22];
i2h.ppc = buf[23];
i2h.gbv = buf[24];
i2h.dfp = buf[25];
i2h.rv = buf[26];
i2h.rp = buf[27];
i2h.trkvers = readmem16l(buf + 28);
i2h.nos = buf[30];
memcpy(i2h.name, buf + 32, 26);
fix_name(i2h.name, 26);
i2h.ifc = buf[58];
i2h.ifr = buf[59];
i2h.mch = buf[60];
i2h.mpr = buf[61];
i2h.mbnk = readmem16l(buf + 62);
if (hio_read(&i2h.keys, 1, 240, f) != 240) {
D_(D_CRIT "key map read error");
return -1;
}
libxmp_copy_adjust(xxi->name, i2h.name, 25);
xxi->rls = i2h.fadeout << 6;
/* Envelopes */
if (read_envelope(&xxi->aei, &env, f) < 0) {
return -1;
}
if (read_envelope(&xxi->pei, &env, f) < 0) {
return -1;
}
if (read_envelope(&xxi->fei, &env, f) < 0) {
return -1;
}
if (xxi->pei.flg & XMP_ENVELOPE_ON) {
for (j = 0; j < xxi->pei.npt; j++)
xxi->pei.data[j * 2 + 1] += 32;
}
if (xxi->aei.flg & XMP_ENVELOPE_ON && xxi->aei.npt == 0) {
xxi->aei.npt = 1;
}
if (xxi->pei.flg & XMP_ENVELOPE_ON && xxi->pei.npt == 0) {
xxi->pei.npt = 1;
}
if (xxi->fei.flg & XMP_ENVELOPE_ON && xxi->fei.npt == 0) {
xxi->fei.npt = 1;
}
if (env.flg & IT_ENV_FILTER) {
xxi->fei.flg |= XMP_ENVELOPE_FLT;
for (j = 0; j < env.num; j++) {
xxi->fei.data[j * 2 + 1] += 32;
xxi->fei.data[j * 2 + 1] *= 4;
}
} else {
/* Pitch envelope is *50 to get fine interpolation */
for (j = 0; j < env.num; j++)
xxi->fei.data[j * 2 + 1] *= 50;
}
/* See how many different instruments we have */
for (j = 0; j < 120; j++)
inst_map[j] = -1;
for (k = j = 0; j < 120; j++) {
c = i2h.keys[j * 2 + 1] - 1;
if (c < 0 || c >= 120) {
xxi->map[j].ins = 0xff; /* No sample */
xxi->map[j].xpo = 0;
continue;
}
if (inst_map[c] == -1) {
inst_map[c] = k;
inst_rmap[k] = c;
k++;
}
xxi->map[j].ins = inst_map[c];
xxi->map[j].xpo = i2h.keys[j * 2] - j;
}
xxi->nsm = k;
xxi->vol = i2h.gbv >> 1;
if (k) {
xxi->sub = (struct xmp_subinstrument *)calloc(sizeof(struct xmp_subinstrument), k);
if (xxi->sub == NULL)
return -1;
for (j = 0; j < k; j++) {
struct xmp_subinstrument *sub = &xxi->sub[j];
sub->sid = inst_rmap[j];
sub->nna = i2h.nna;
sub->dct = i2h.dct;
sub->dca = dca2nna[i2h.dca];
sub->pan = i2h.dfp & 0x80 ? -1 : i2h.dfp * 4;
sub->ifc = i2h.ifc;
sub->ifr = i2h.ifr;
sub->rvv = ((int)i2h.rp << 8) | i2h.rv;
}
}
D_(D_INFO "[ ] %-26.26s %d %d %d %4d %4d %2x "
"%02x %c%c%c %3d %02x %02x",
/*i,*/ i2h.name,
i2h.nna, i2h.dct, i2h.dca,
i2h.fadeout,
i2h.gbv,
i2h.dfp & 0x80 ? 0x80 : i2h.dfp * 4,
i2h.rv,
xxi->aei.flg & XMP_ENVELOPE_ON ? 'V' : '-',
xxi->pei.flg & XMP_ENVELOPE_ON ? 'P' : '-',
env.flg & 0x01 ? env.flg & 0x80 ? 'F' : 'P' : '-',
xxi->nsm, i2h.ifc, i2h.ifr);
return 0;
}
static int load_it_sample(struct module_data *m, int i, int start,
int sample_mode, HIO_HANDLE *f)
{
struct it_sample_header ish;
struct xmp_module *mod = &m->mod;
struct xmp_sample *xxs, *xsmp;
int j, k;
uint8 buf[80];
if (sample_mode) {
mod->xxi[i].sub = (struct xmp_subinstrument *)calloc(sizeof(struct xmp_subinstrument), 1);
if (mod->xxi[i].sub == NULL) {
return -1;
}
}
if (hio_read(buf, 1, 80, f) != 80) {
return -1;
}
ish.magic = readmem32b(buf);
/* Changed to continue to allow use-brdg.it and use-funk.it to
* load correctly (both IT 2.04)
*/
if (ish.magic != MAGIC_IMPS) {
return 0;
}
xxs = &mod->xxs[i];
xsmp = &m->xsmp[i];
memcpy(ish.dosname, buf + 4, 12);
ish.zero = buf[16];
ish.gvl = buf[17];
ish.flags = buf[18];
ish.vol = buf[19];
memcpy(ish.name, buf + 20, 26);
fix_name(ish.name, 26);
ish.convert = buf[46];
ish.dfp = buf[47];
ish.length = readmem32l(buf + 48);
ish.loopbeg = readmem32l(buf + 52);
ish.loopend = readmem32l(buf + 56);
ish.c5spd = readmem32l(buf + 60);
ish.sloopbeg = readmem32l(buf + 64);
ish.sloopend = readmem32l(buf + 68);
ish.sample_ptr = readmem32l(buf + 72);
ish.vis = buf[76];
ish.vid = buf[77];
ish.vir = buf[78];
ish.vit = buf[79];
if (ish.flags & IT_SMP_16BIT) {
xxs->flg = XMP_SAMPLE_16BIT;
}
xxs->len = ish.length;
/* Sanity check */
if (xxs->len > MAX_SAMPLE_SIZE) {
return -1;
}
xxs->lps = ish.loopbeg;
xxs->lpe = ish.loopend;
xxs->flg |= ish.flags & IT_SMP_LOOP ? XMP_SAMPLE_LOOP : 0;
xxs->flg |= ish.flags & IT_SMP_BLOOP ? XMP_SAMPLE_LOOP_BIDIR : 0;
xxs->flg |= ish.flags & IT_SMP_SLOOP ? XMP_SAMPLE_SLOOP : 0;
xxs->flg |= ish.flags & IT_SMP_BSLOOP ? XMP_SAMPLE_SLOOP_BIDIR : 0;
if (ish.flags & IT_SMP_SLOOP) {
memcpy(xsmp, xxs, sizeof (struct xmp_sample));
xsmp->lps = ish.sloopbeg;
xsmp->lpe = ish.sloopend;
xsmp->flg |= XMP_SAMPLE_LOOP;
xsmp->flg &= ~XMP_SAMPLE_LOOP_BIDIR;
if (ish.flags & IT_SMP_BSLOOP) {
xsmp->flg |= XMP_SAMPLE_LOOP_BIDIR;
}
}
if (sample_mode) {
/* Create an instrument for each sample */
mod->xxi[i].sub[0].vol = ish.vol;
mod->xxi[i].sub[0].pan = 0x80;
mod->xxi[i].sub[0].sid = i;
mod->xxi[i].nsm = !!(xxs->len);
libxmp_instrument_name(mod, i, ish.name, 25);
} else {
libxmp_copy_adjust(xxs->name, ish.name, 25);
}
D_(D_INFO "\n[%2X] %-26.26s %05x%c%05x %05x %05x %05x "
"%02x%02x %02x%02x %5d ",
i, sample_mode ? xxs->name : mod->xxi[i].name,
xxs->len,
ish.flags & IT_SMP_16BIT ? '+' : ' ',
MIN(xxs->lps, 0xfffff), MIN(xxs->lpe, 0xfffff),
MIN(ish.sloopbeg, 0xfffff), MIN(ish.sloopend, 0xfffff),
ish.flags, ish.convert, ish.vol, ish.gvl, ish.c5spd);
/* Convert C5SPD to relnote/finetune
*
* In IT we can have a sample associated with two or more
* instruments, but c5spd is a sample attribute -- so we must
* scan all xmp instruments to set the correct transposition
*/
for (j = 0; j < mod->ins; j++) {
for (k = 0; k < mod->xxi[j].nsm; k++) {
struct xmp_subinstrument *sub = &mod->xxi[j].sub[k];
if (sub->sid == i) {
sub->vol = ish.vol;
sub->gvl = ish.gvl;
sub->vra = ish.vis; /* sample to sub-instrument vibrato */
sub->vde = ish.vid >> 1;
sub->vwf = ish.vit;
sub->vsw = (0xff - ish.vir) >> 1;
libxmp_c2spd_to_note(ish.c5spd,
&mod->xxi[j].sub[k].xpo,
&mod->xxi[j].sub[k].fin);
/* Set sample pan (overrides subinstrument) */
if (ish.dfp & 0x80) {
sub->pan = (ish.dfp & 0x7f) * 4;
} else if (sample_mode) {
sub->pan = -1;
}
}
}
}
if (ish.flags & IT_SMP_SAMPLE && xxs->len > 1) {
int cvt = 0;
if (0 != hio_seek(f, start + ish.sample_ptr, SEEK_SET))
return -1;
if (xxs->lpe > xxs->len || xxs->lps >= xxs->lpe)
xxs->flg &= ~XMP_SAMPLE_LOOP;
if (~ish.convert & IT_CVT_SIGNED)
cvt |= SAMPLE_FLAG_UNS;
/* compressed samples */
if (ish.flags & IT_SMP_COMP) {
uint8 *buf;
int ret;
buf = (uint8 *)calloc(1, xxs->len * 2);
if (buf == NULL)
return -1;
if (ish.flags & IT_SMP_16BIT) {
itsex_decompress16(f, (int16 *)buf, xxs->len,
ish.convert & IT_CVT_DIFF);
#ifdef WORDS_BIGENDIAN
/* decompression generates native-endian
* samples, but we want little-endian
*/
cvt |= SAMPLE_FLAG_BIGEND;
#endif
} else {
itsex_decompress8(f, (uint8 *)buf, xxs->len,
ish.convert & IT_CVT_DIFF);
}
if (ish.flags & IT_SMP_SLOOP) {
long pos = hio_tell(f);
if (pos < 0) {
free(buf);
return -1;
}
ret = libxmp_load_sample(m, NULL, SAMPLE_FLAG_NOLOAD |
cvt, &m->xsmp[i], buf);
if (ret < 0) {
free(buf);
return -1;
}
hio_seek(f, pos, SEEK_SET);
}
ret = libxmp_load_sample(m, NULL, SAMPLE_FLAG_NOLOAD | cvt,
&mod->xxs[i], buf);
if (ret < 0) {
free(buf);
return -1;
}
free(buf);
} else {
if (ish.flags & IT_SMP_SLOOP) {
long pos = hio_tell(f);
if (pos < 0) {
return -1;
}
if (libxmp_load_sample(m, f, cvt, &m->xsmp[i], NULL) < 0)
return -1;
hio_seek(f, pos, SEEK_SET);
}
if (libxmp_load_sample(m, f, cvt, &mod->xxs[i], NULL) < 0)
return -1;
}
}
return 0;
}
static int load_it_pattern(struct module_data *m, int i, int new_fx,
HIO_HANDLE *f)
{
struct xmp_module *mod = &m->mod;
struct xmp_event *event, dummy, lastevent[L_CHANNELS];
uint8 mask[L_CHANNELS];
uint8 last_fxp[64];
int r, c, pat_len;
uint8 b;
r = 0;
memset(last_fxp, 0, 64);
memset(lastevent, 0, L_CHANNELS * sizeof(struct xmp_event));
memset(&dummy, 0, sizeof(struct xmp_event));
pat_len = hio_read16l(f) /* - 4 */ ;
mod->xxp[i]->rows = hio_read16l(f);
if (libxmp_alloc_tracks_in_pattern(mod, i) < 0) {
return -1;
}
memset(mask, 0, L_CHANNELS);
hio_read16l(f);
hio_read16l(f);
while (--pat_len >= 0) {
b = hio_read8(f);
if (!b) {
r++;
continue;
}
c = (b - 1) & 63;
if (b & 0x80) {
mask[c] = hio_read8(f);
pat_len--;
}
/*
* WARNING: we IGNORE events in disabled channels. Disabled
* channels should be muted only, but we don't know the
* real number of channels before loading the patterns and
* we don't want to set it to 64 channels.
*/
if (c >= mod->chn || r >= mod->xxp[i]->rows) {
event = &dummy;
} else {
event = &EVENT(i, c, r);
}
if (mask[c] & 0x01) {
b = hio_read8(f);
/* From ittech.txt:
* Note ranges from 0->119 (C-0 -> B-9)
* 255 = note off, 254 = notecut
* Others = note fade (already programmed into IT's player
* but not available in the editor)
*/
switch (b) {
case 0xff: /* key off */
b = XMP_KEY_OFF;
break;
case 0xfe: /* cut */
b = XMP_KEY_CUT;
break;
default:
if (b > 119) { /* fade */
b = XMP_KEY_FADE;
} else {
b++; /* note */
}
}
lastevent[c].note = event->note = b;
pat_len--;
}
if (mask[c] & 0x02) {
b = hio_read8(f);
lastevent[c].ins = event->ins = b;
pat_len--;
}
if (mask[c] & 0x04) {
b = hio_read8(f);
lastevent[c].vol = event->vol = b;
xlat_volfx(event);
pat_len--;
}
if (mask[c] & 0x08) {
b = hio_read8(f);
if (b > 31) {
D_(D_WARN "invalid effect %#02x", b);
hio_read8(f);
} else {
event->fxt = b;
event->fxp = hio_read8(f);
xlat_fx(c, event, last_fxp, new_fx);
lastevent[c].fxt = event->fxt;
lastevent[c].fxp = event->fxp;
}
pat_len -= 2;
}
if (mask[c] & 0x10) {
event->note = lastevent[c].note;
}
if (mask[c] & 0x20) {
event->ins = lastevent[c].ins;
}
if (mask[c] & 0x40) {
event->vol = lastevent[c].vol;
xlat_volfx(event);
}
if (mask[c] & 0x80) {
event->fxt = lastevent[c].fxt;
event->fxp = lastevent[c].fxp;
}
}
return 0;
}
static int it_load(struct module_data *m, HIO_HANDLE *f, const int start)
{
struct xmp_module *mod = &m->mod;
int c, i, j;
struct it_file_header ifh;
int max_ch;
uint32 *pp_ins; /* Pointers to instruments */
uint32 *pp_smp; /* Pointers to samples */
uint32 *pp_pat; /* Pointers to patterns */
int new_fx, sample_mode;
LOAD_INIT();
/* Load and convert header */
ifh.magic = hio_read32b(f);
if (ifh.magic != MAGIC_IMPM) {
return -1;
}
hio_read(&ifh.name, 26, 1, f);
ifh.hilite_min = hio_read8(f);
ifh.hilite_maj = hio_read8(f);
ifh.ordnum = hio_read16l(f);
ifh.insnum = hio_read16l(f);
ifh.smpnum = hio_read16l(f);
ifh.patnum = hio_read16l(f);
ifh.cwt = hio_read16l(f);
ifh.cmwt = hio_read16l(f);
ifh.flags = hio_read16l(f);
ifh.special = hio_read16l(f);
ifh.gv = hio_read8(f);
ifh.mv = hio_read8(f);
ifh.is = hio_read8(f);
ifh.it = hio_read8(f);
ifh.sep = hio_read8(f);
ifh.pwd = hio_read8(f);
/* Sanity check */
if (ifh.gv > 0x80 || ifh.mv > 0x80) {
goto err;
}
ifh.msglen = hio_read16l(f);
ifh.msgofs = hio_read32l(f);
ifh.rsvd = hio_read32l(f);
hio_read(&ifh.chpan, 64, 1, f);
hio_read(&ifh.chvol, 64, 1, f);
strncpy(mod->name, (char *)ifh.name, XMP_NAME_SIZE);
mod->len = ifh.ordnum;
mod->ins = ifh.insnum;
mod->smp = ifh.smpnum;
mod->pat = ifh.patnum;
/* Sanity check */
if (mod->ins > 255 || mod->smp > 255 || mod->pat > 255) {
goto err;
}
if (mod->ins) {
pp_ins = (uint32 *)calloc(4, mod->ins);
if (pp_ins == NULL)
goto err;
} else {
pp_ins = NULL;
}
pp_smp = (uint32 *)calloc(4, mod->smp);
if (pp_smp == NULL)
goto err2;
pp_pat = (uint32 *)calloc(4, mod->pat);
if (pp_pat == NULL)
goto err3;
mod->spd = ifh.is;
mod->bpm = ifh.it;
sample_mode = ~ifh.flags & IT_USE_INST;
if (ifh.flags & IT_LINEAR_FREQ) {
m->period_type = PERIOD_LINEAR;
}
if (!sample_mode && ifh.cmwt >= 0x200) {
m->quirk |= QUIRK_INSVOL;
}
for (i = 0; i < 64; i++) {
struct xmp_channel *xxc = &mod->xxc[i];
if (ifh.chpan[i] == 100) { /* Surround -> center */
xxc->flg |= XMP_CHANNEL_SURROUND;
}
if (ifh.chpan[i] & 0x80) { /* Channel mute */
xxc->flg |= XMP_CHANNEL_MUTE;
}
if (ifh.flags & IT_STEREO) {
xxc->pan = (int)ifh.chpan[i] * 0x80 >> 5;
if (xxc->pan > 0xff)
xxc->pan = 0xff;
} else {
xxc->pan = 0x80;
}
xxc->vol = ifh.chvol[i];
}
if (mod->len <= XMP_MAX_MOD_LENGTH) {
hio_read(mod->xxo, 1, mod->len, f);
} else {
hio_read(mod->xxo, 1, XMP_MAX_MOD_LENGTH, f);
hio_seek(f, mod->len - XMP_MAX_MOD_LENGTH, SEEK_CUR);
mod->len = XMP_MAX_MOD_LENGTH;
}
new_fx = ifh.flags & IT_OLD_FX ? 0 : 1;
for (i = 0; i < mod->ins; i++)
pp_ins[i] = hio_read32l(f);
for (i = 0; i < mod->smp; i++)
pp_smp[i] = hio_read32l(f);
for (i = 0; i < mod->pat; i++)
pp_pat[i] = hio_read32l(f);
m->c4rate = C4_NTSC_RATE;
identify_tracker(m, &ifh);
MODULE_INFO();
D_(D_INFO "Instrument/FX mode: %s/%s",
sample_mode ? "sample" : ifh.cmwt >= 0x200 ?
"new" : "old", ifh.flags & IT_OLD_FX ? "old" : "IT");
if (sample_mode)
mod->ins = mod->smp;
if (libxmp_init_instrument(m) < 0)
goto err4;
/* Alloc extra samples for sustain loop */
if (mod->smp > 0) {
m->xsmp = (struct xmp_sample *)calloc(sizeof (struct xmp_sample), mod->smp);
if (m->xsmp == NULL) {
goto err4;
}
}
D_(D_INFO "Instruments: %d", mod->ins);
for (i = 0; i < mod->ins; i++) {
/*
* IT files can have three different instrument types: 'New'
* instruments, 'old' instruments or just samples. We need a
* different loader for each of them.
*/
struct xmp_instrument *xxi = &mod->xxi[i];
if (!sample_mode && ifh.cmwt >= 0x200) {
/* New instrument format */
if (hio_seek(f, start + pp_ins[i], SEEK_SET) < 0) {
goto err4;
}
if (load_new_it_instrument(xxi, f) < 0) {
goto err4;
}
} else if (!sample_mode) {
/* Old instrument format */
if (hio_seek(f, start + pp_ins[i], SEEK_SET) < 0) {
goto err4;
}
if (load_old_it_instrument(xxi, f) < 0) {
goto err4;
}
}
}
D_(D_INFO "Stored Samples: %d", mod->smp);
for (i = 0; i < mod->smp; i++) {
if (hio_seek(f, start + pp_smp[i], SEEK_SET) < 0) {
goto err4;
}
if (load_it_sample(m, i, start, sample_mode, f) < 0) {
goto err4;
}
}
D_(D_INFO "Stored patterns: %d", mod->pat);
/* Effects in muted channels are processed, so scan patterns first to
* see the real number of channels
*/
max_ch = 0;
for (i = 0; i < mod->pat; i++) {
uint8 mask[L_CHANNELS];
int pat_len;
/* If the offset to a pattern is 0, the pattern is empty */
if (pp_pat[i] == 0)
continue;
hio_seek(f, start + pp_pat[i], SEEK_SET);
pat_len = hio_read16l(f) /* - 4 */ ;
hio_read16l(f);
memset(mask, 0, L_CHANNELS);
hio_read16l(f);
hio_read16l(f);
while (--pat_len >= 0) {
int b = hio_read8(f);
if (b == 0)
continue;
c = (b - 1) & 63;
if (c > max_ch)
max_ch = c;
if (b & 0x80) {
mask[c] = hio_read8(f);
pat_len--;
}
if (mask[c] & 0x01) {
hio_read8(f);
pat_len--;
}
if (mask[c] & 0x02) {
hio_read8(f);
pat_len--;
}
if (mask[c] & 0x04) {
hio_read8(f);
pat_len--;
}
if (mask[c] & 0x08) {
hio_read8(f);
hio_read8(f);
pat_len -= 2;
}
}
}
/* Set the number of channels actually used
*/
mod->chn = max_ch + 1;
mod->trk = mod->pat * mod->chn;
if (libxmp_init_pattern(mod) < 0) {
goto err4;
}
/* Read patterns */
for (i = 0; i < mod->pat; i++) {
if (libxmp_alloc_pattern(mod, i) < 0) {
goto err4;
}
/* If the offset to a pattern is 0, the pattern is empty */
if (pp_pat[i] == 0) {
mod->xxp[i]->rows = 64;
for (j = 0; j < mod->chn; j++) {
int tnum = i * mod->chn + j;
if (libxmp_alloc_track(mod, tnum, 64) < 0)
goto err4;
mod->xxp[i]->index[j] = tnum;
}
continue;
}
if (hio_seek(f, start + pp_pat[i], SEEK_SET) < 0) {
D_(D_CRIT "error seeking to %d", start + pp_pat[i]);
goto err4;
}
if (load_it_pattern(m, i, new_fx, f) < 0) {
D_(D_CRIT "error loading pattern %d", i);
goto err4;
}
}
free(pp_pat);
free(pp_smp);
free(pp_ins);
/* Song message */
if (ifh.special & IT_HAS_MSG) {
if ((m->comment = (char *)malloc(ifh.msglen)) != NULL) {
hio_seek(f, start + ifh.msgofs, SEEK_SET);
D_(D_INFO "Message length : %d", ifh.msglen);
for (j = 0; j + 1 < ifh.msglen; j++) {
int b = hio_read8(f);
if (b == '\r') {
b = '\n';
} else if ((b < 32 || b > 127) && b != '\n'
&& b != '\t') {
b = '.';
}
m->comment[j] = b;
}
if (ifh.msglen > 0) {
m->comment[j] = 0;
}
}
}
/* Format quirks */
m->quirk |= QUIRKS_IT | QUIRK_ARPMEM;
if (ifh.flags & IT_LINK_GXX) {
m->quirk |= QUIRK_PRENV;
} else {
m->quirk |= QUIRK_UNISLD;
}
if (new_fx) {
m->quirk |= QUIRK_VIBHALF | QUIRK_VIBINV;
} else {
m->quirk &= ~QUIRK_VIBALL;
m->quirk |= QUIRK_ITOLDFX;
}
if (sample_mode) {
m->quirk &= ~(QUIRK_VIRTUAL | QUIRK_RSTCHN);
}
m->gvolbase = 0x80;
m->gvol = ifh.gv;
m->read_event_type = READ_EVENT_IT;
return 0;
err4:
free(pp_pat);
err3:
free(pp_smp);
err2:
free(pp_ins);
err:
return -1;
}
#endif /* LIBXMP_CORE_DISABLE_IT */