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[16.git] / src / midi.c

/* midi.c
 *
 * Adlib OPL2/OPL3 FM synthesizer chipset test program.
 * Play MIDI file using the OPLx synthesizer (well, poorly anyway)
 * (C) 2010-2012 Jonathan Campbell.
 * Hackipedia DOS library.
 *
 * This code is licensed under the LGPL.
 * <insert LGPL legal text here>
 *
 * Compiles for intended target environments:
 *   - MS-DOS [pure DOS mode, or Windows or OS/2 DOS Box]
 */
 
#include <stdio.h>
#include <conio.h> /* this is where Open Watcom hides the outp() etc. functions */
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <malloc.h>
#include <ctype.h>
#include <fcntl.h>
#include <math.h>
#include <dos.h>

#include "src/lib/doslib/vga.h"
#include "src/lib/doslib/dos.h"
#include "src/lib/doslib/8254.h"                /* 8254 timer */
#include "src/lib/doslib/8259.h"
#include "src/lib/doslib/vgagui.h"
#include "src/lib/doslib/vgatty.h"
#include "src/lib/doslib/adlib.h"

/* one per OPL channel */
struct midi_note {
        unsigned char           note_number;
        unsigned char           note_velocity;
        unsigned char           note_track;     /* from what MIDI track */
        unsigned char           note_channel;   /* from what MIDI channel */
        unsigned int            busy:1;         /* if occupied */
};

struct midi_channel {
        unsigned char           program;
};

struct midi_track {
        /* track data, raw */
        unsigned char*          raw;            /* raw data base */
        unsigned char*          fence;          /* raw data end (last byte + 1) */
        unsigned char*          read;           /* raw data read ptr */
        /* state */
        unsigned long           us_per_quarter_note; /* Microseconds per quarter note (def 120 BPM) */
        unsigned long           us_tick_cnt_mtpq; /* Microseconds advanced (up to 10000 us or one unit at 100Hz) x ticks per quarter note */
        unsigned long           wait;
        unsigned char           last_status;    /* MIDI last status byte */
        unsigned int            eof:1;          /* we hit the end of the track */
};

#define MIDI_MAX_CHANNELS       16
#define MIDI_MAX_TRACKS         64

struct midi_note                midi_notes[ADLIB_FM_VOICES];
struct midi_channel             midi_ch[MIDI_MAX_CHANNELS];
struct midi_track               midi_trk[MIDI_MAX_TRACKS];
static unsigned int             midi_trk_count=0;
static volatile unsigned char   midi_playing=0;

/* MIDI params. Nobody ever said it was a straightforward standard!
 * NTS: These are for reading reference. Internally we convert everything to 100Hz time base. */
static unsigned int ticks_per_quarter_note=0;   /* "Ticks per beat" */

static void (interrupt *old_irq0)();
static volatile unsigned long irq0_ticks=0;
static volatile unsigned int irq0_cnt=0,irq0_add=0,irq0_max=0;

#if TARGET_MSDOS == 16 && (defined(__LARGE__) || defined(__COMPACT__))
static inline unsigned long farptr2phys(unsigned char far *p) { /* take 16:16 pointer convert to physical memory address */
        return ((unsigned long)FP_SEG(p) << 4UL) + ((unsigned long)FP_OFF(p));
}
#endif

static inline unsigned char midi_trk_read(struct midi_track *t) {
        unsigned char c;

        /* NTS: 16-bit large/compact builds MUST compare pointers as unsigned long to compare FAR pointers correctly! */
        if (t->read == NULL || (unsigned long)t->read >= (unsigned long)t->fence) {
                t->eof = 1;
                return 0xFF;
        }

        c = *(t->read);
#if TARGET_MSDOS == 16 && (defined(__LARGE__) || defined(__COMPACT__))
        if (FP_OFF(t->read) >= 0xF) /* 16:16 far pointer aware (NTS: Programs reassigning this pointer MUST normalize the FAR pointer) */
                t->read = MK_FP(FP_SEG(t->read)+0x1,0);
        else
                t->read++;
#else
        t->read++;
#endif
        return c;
}

void midi_trk_end(struct midi_track *t) {
        t->wait = ~0UL;
        t->read = t->fence;
}

void midi_trk_skip(struct midi_track *t,unsigned long len) {
        unsigned long rem;

        /* NTS: 16-bit large/compact builds MUST compare pointers as unsigned long to compare FAR pointers correctly! */
        if (t->read == NULL || (unsigned long)t->read >= (unsigned long)t->fence)
                return;

        if (len > 0xFFF0UL) {
                midi_trk_end(t);
                return;
        }
#if TARGET_MSDOS == 16 && (defined(__LARGE__) || defined(__COMPACT__))
        {
                unsigned long tt;

                tt = farptr2phys(t->read);
                rem = farptr2phys(t->fence) - tt;
                if (rem > len) rem = len;
                tt += rem;
                t->read = MK_FP(tt>>4,tt&0xF);
        }
#else
        rem = (unsigned long)(t->fence - t->read);
        if (len > rem) len = rem;
        t->read += len;
#endif
}

static const uint32_t midikeys_freqs[0x80] = {
        0x00082d01,     /* key 0 = 8.17579891564371Hz */
        0x0008a976,     /* key 1 = 8.66195721802725Hz */
        0x00092d51,     /* key 2 = 9.17702399741899Hz */
        0x0009b904,     /* key 3 = 9.72271824131503Hz */
        0x000a4d05,     /* key 4 = 10.3008611535272Hz */
        0x000ae9d3,     /* key 5 = 10.9133822322814Hz */
        0x000b8ff4,     /* key 6 = 11.5623257097386Hz */
        0x000c3ff6,     /* key 7 = 12.2498573744297Hz */
        0x000cfa70,     /* key 8 = 12.9782717993733Hz */
        0x000dc000,     /* key 9 = 13.75Hz */
        0x000e914f,     /* key 10 = 14.5676175474403Hz */
        0x000f6f11,     /* key 11 = 15.4338531642539Hz */
        0x00105a02,     /* key 12 = 16.3515978312874Hz */
        0x001152ec,     /* key 13 = 17.3239144360545Hz */
        0x00125aa2,     /* key 14 = 18.354047994838Hz */
        0x00137208,     /* key 15 = 19.4454364826301Hz */
        0x00149a0a,     /* key 16 = 20.6017223070544Hz */
        0x0015d3a6,     /* key 17 = 21.8267644645627Hz */
        0x00171fe9,     /* key 18 = 23.1246514194771Hz */
        0x00187fed,     /* key 19 = 24.4997147488593Hz */
        0x0019f4e0,     /* key 20 = 25.9565435987466Hz */
        0x001b8000,     /* key 21 = 27.5Hz */
        0x001d229e,     /* key 22 = 29.1352350948806Hz */
        0x001ede22,     /* key 23 = 30.8677063285078Hz */
        0x0020b404,     /* key 24 = 32.7031956625748Hz */
        0x0022a5d8,     /* key 25 = 34.647828872109Hz */
        0x0024b545,     /* key 26 = 36.7080959896759Hz */
        0x0026e410,     /* key 27 = 38.8908729652601Hz */
        0x00293414,     /* key 28 = 41.2034446141087Hz */
        0x002ba74d,     /* key 29 = 43.6535289291255Hz */
        0x002e3fd2,     /* key 30 = 46.2493028389543Hz */
        0x0030ffda,     /* key 31 = 48.9994294977187Hz */
        0x0033e9c0,     /* key 32 = 51.9130871974931Hz */
        0x00370000,     /* key 33 = 55Hz */
        0x003a453d,     /* key 34 = 58.2704701897612Hz */
        0x003dbc44,     /* key 35 = 61.7354126570155Hz */
        0x00416809,     /* key 36 = 65.4063913251497Hz */
        0x00454bb0,     /* key 37 = 69.295657744218Hz */
        0x00496a8b,     /* key 38 = 73.4161919793519Hz */
        0x004dc820,     /* key 39 = 77.7817459305202Hz */
        0x00526829,     /* key 40 = 82.4068892282175Hz */
        0x00574e9b,     /* key 41 = 87.307057858251Hz */
        0x005c7fa4,     /* key 42 = 92.4986056779086Hz */
        0x0061ffb5,     /* key 43 = 97.9988589954373Hz */
        0x0067d380,     /* key 44 = 103.826174394986Hz */
        0x006e0000,     /* key 45 = 110Hz */
        0x00748a7b,     /* key 46 = 116.540940379522Hz */
        0x007b7888,     /* key 47 = 123.470825314031Hz */
        0x0082d012,     /* key 48 = 130.812782650299Hz */
        0x008a9760,     /* key 49 = 138.591315488436Hz */
        0x0092d517,     /* key 50 = 146.832383958704Hz */
        0x009b9041,     /* key 51 = 155.56349186104Hz */
        0x00a4d053,     /* key 52 = 164.813778456435Hz */
        0x00ae9d36,     /* key 53 = 174.614115716502Hz */
        0x00b8ff49,     /* key 54 = 184.997211355817Hz */
        0x00c3ff6a,     /* key 55 = 195.997717990875Hz */
        0x00cfa700,     /* key 56 = 207.652348789973Hz */
        0x00dc0000,     /* key 57 = 220Hz */
        0x00e914f6,     /* key 58 = 233.081880759045Hz */
        0x00f6f110,     /* key 59 = 246.941650628062Hz */
        0x0105a025,     /* key 60 = 261.625565300599Hz */
        0x01152ec0,     /* key 61 = 277.182630976872Hz */
        0x0125aa2e,     /* key 62 = 293.664767917408Hz */
        0x01372082,     /* key 63 = 311.126983722081Hz */
        0x0149a0a7,     /* key 64 = 329.62755691287Hz */
        0x015d3a6d,     /* key 65 = 349.228231433004Hz */
        0x0171fe92,     /* key 66 = 369.994422711634Hz */
        0x0187fed4,     /* key 67 = 391.995435981749Hz */
        0x019f4e00,     /* key 68 = 415.304697579945Hz */
        0x01b80000,     /* key 69 = 440Hz */
        0x01d229ec,     /* key 70 = 466.16376151809Hz */
        0x01ede220,     /* key 71 = 493.883301256124Hz */
        0x020b404a,     /* key 72 = 523.251130601197Hz */
        0x022a5d81,     /* key 73 = 554.365261953744Hz */
        0x024b545c,     /* key 74 = 587.329535834815Hz */
        0x026e4104,     /* key 75 = 622.253967444162Hz */
        0x0293414f,     /* key 76 = 659.25511382574Hz */
        0x02ba74da,     /* key 77 = 698.456462866008Hz */
        0x02e3fd24,     /* key 78 = 739.988845423269Hz */
        0x030ffda9,     /* key 79 = 783.990871963499Hz */
        0x033e9c01,     /* key 80 = 830.60939515989Hz */
        0x03700000,     /* key 81 = 880Hz */
        0x03a453d8,     /* key 82 = 932.32752303618Hz */
        0x03dbc440,     /* key 83 = 987.766602512248Hz */
        0x04168094,     /* key 84 = 1046.50226120239Hz */
        0x0454bb03,     /* key 85 = 1108.73052390749Hz */
        0x0496a8b8,     /* key 86 = 1174.65907166963Hz */
        0x04dc8208,     /* key 87 = 1244.50793488832Hz */
        0x0526829e,     /* key 88 = 1318.51022765148Hz */
        0x0574e9b5,     /* key 89 = 1396.91292573202Hz */
        0x05c7fa49,     /* key 90 = 1479.97769084654Hz */
        0x061ffb53,     /* key 91 = 1567.981743927Hz */
        0x067d3802,     /* key 92 = 1661.21879031978Hz */
        0x06e00000,     /* key 93 = 1760Hz */
        0x0748a7b1,     /* key 94 = 1864.65504607236Hz */
        0x07b78880,     /* key 95 = 1975.5332050245Hz */
        0x082d0128,     /* key 96 = 2093.00452240479Hz */
        0x08a97607,     /* key 97 = 2217.46104781498Hz */
        0x092d5171,     /* key 98 = 2349.31814333926Hz */
        0x09b90410,     /* key 99 = 2489.01586977665Hz */
        0x0a4d053c,     /* key 100 = 2637.02045530296Hz */
        0x0ae9d36b,     /* key 101 = 2793.82585146403Hz */
        0x0b8ff493,     /* key 102 = 2959.95538169308Hz */
        0x0c3ff6a7,     /* key 103 = 3135.96348785399Hz */
        0x0cfa7005,     /* key 104 = 3322.43758063956Hz */
        0x0dc00000,     /* key 105 = 3520Hz */
        0x0e914f62,     /* key 106 = 3729.31009214472Hz */
        0x0f6f1100,     /* key 107 = 3951.06641004899Hz */
        0x105a0250,     /* key 108 = 4186.00904480958Hz */
        0x1152ec0e,     /* key 109 = 4434.92209562995Hz */
        0x125aa2e3,     /* key 110 = 4698.63628667852Hz */
        0x13720820,     /* key 111 = 4978.03173955329Hz */
        0x149a0a79,     /* key 112 = 5274.04091060592Hz */
        0x15d3a6d6,     /* key 113 = 5587.65170292806Hz */
        0x171fe927,     /* key 114 = 5919.91076338615Hz */
        0x187fed4e,     /* key 115 = 6271.92697570799Hz */
        0x19f4e00a,     /* key 116 = 6644.87516127912Hz */
        0x1b800000,     /* key 117 = 7040Hz */
        0x1d229ec4,     /* key 118 = 7458.62018428944Hz */
        0x1ede2200,     /* key 119 = 7902.13282009799Hz */
        0x20b404a1,     /* key 120 = 8372.01808961916Hz */
        0x22a5d81c,     /* key 121 = 8869.84419125991Hz */
        0x24b545c7,     /* key 122 = 9397.27257335704Hz */
        0x26e41040,     /* key 123 = 9956.06347910659Hz */
        0x293414f2,     /* key 124 = 10548.0818212118Hz */
        0x2ba74dac,     /* key 125 = 11175.3034058561Hz */
        0x2e3fd24f,     /* key 126 = 11839.8215267723Hz */
        0x30ffda9c      /* key 127 = 12543.853951416Hz */
};

static uint32_t midi_note_freq(struct midi_channel *ch,unsigned char key) {
        return midikeys_freqs[key&0x7F];
}

static struct midi_note *get_fm_note(struct midi_track *t,struct midi_channel *ch,unsigned char key,unsigned char do_alloc) {
        unsigned int tch = (unsigned int)(t - midi_trk); /* pointer math */
        unsigned int ach = (unsigned int)(ch - midi_ch); /* pointer math */
        unsigned int i,freen=~0;

        for (i=0;i < ADLIB_FM_VOICES;i++) {
                if (midi_notes[i].busy) {
                        if (midi_notes[i].note_channel == ach && midi_notes[i].note_track == tch && midi_notes[i].note_number == key)
                                return &midi_notes[i];
                }
                else {
                        if (freen == ~0) freen = i;
                }
        }

        if (do_alloc && freen != ~0) return &midi_notes[freen];
        return NULL;
}

static void drop_fm_note(struct midi_channel *ch,unsigned char key) {
        unsigned int ach = (unsigned int)(ch - midi_ch); /* pointer math */
        unsigned int i;

        for (i=0;i < ADLIB_FM_VOICES;i++) {
                if (midi_notes[i].busy && midi_notes[i].note_channel == ach) {
                        midi_notes[i].busy = 0;
                        break;
                }
        }
}

static inline void on_key_aftertouch(struct midi_track *t,struct midi_channel *ch,unsigned char key,unsigned char vel) {
        struct midi_note *note = get_fm_note(t,ch,key,/*do_alloc*/0);
        uint32_t freq = midi_note_freq(ch,key);
        unsigned int ach;

        if (note == NULL) return;

        note->busy = 1;
        note->note_number = key;
        note->note_velocity = vel;
        note->note_track = (unsigned int)(t - midi_trk);
        note->note_channel = (unsigned int)(ch - midi_ch);
        ach = (unsigned int)(note - midi_notes); /* which FM channel? */
        adlib_freq_to_fm_op(&adlib_fm[ach].mod,(double)freq / 65536);
        adlib_fm[ach].mod.attack_rate = vel >> 3; /* 0-127 to 0-15 */
        adlib_fm[ach].mod.sustain_level = vel >> 3;
        adlib_fm[ach].mod.key_on = 1;
        adlib_update_groupA0(ach,&adlib_fm[ach]);
}

static inline void on_key_on(struct midi_track *t,struct midi_channel *ch,unsigned char key,unsigned char vel) {
        struct midi_note *note = get_fm_note(t,ch,key,/*do_alloc*/1);
        uint32_t freq = midi_note_freq(ch,key);
        unsigned int ach;

        /* HACK: Ignore percussion */
        if ((ch->program >= 8 && ch->program <= 15)/*Chromatic percussion*/ ||
                (ch->program >= 112 && ch->program <= 119)/*Percussive*/ ||
                ch == &midi_ch[9]/*MIDI channel 10 (DAMN YOU 1-BASED COUNTING)*/)
                return;

        if (note == NULL) {
                /* then we'll have to knock one off to make room */
                drop_fm_note(ch,key);
                note = get_fm_note(t,ch,key,1);
                if (note == NULL) return;
        }

        note->busy = 1;
        note->note_number = key;
        note->note_velocity = vel;
        note->note_track = (unsigned int)(t - midi_trk);
        note->note_channel = (unsigned int)(ch - midi_ch);
        ach = (unsigned int)(note - midi_notes); /* which FM channel? */
        adlib_freq_to_fm_op(&adlib_fm[ach].mod,(double)freq / 65536);
        adlib_fm[ach].mod.attack_rate = vel >> 3; /* 0-127 to 0-15 */
        adlib_fm[ach].mod.sustain_level = vel >> 3;
        adlib_fm[ach].mod.key_on = 1;
        adlib_update_groupA0(ach,&adlib_fm[ach]);
}

static inline void on_key_off(struct midi_track *t,struct midi_channel *ch,unsigned char key,unsigned char vel) {
        struct midi_note *note = get_fm_note(t,ch,key,/*do_alloc*/0);
        uint32_t freq = midi_note_freq(ch,key);
        unsigned int ach;

        if (note == NULL) return;

        note->busy = 0;
        ach = (unsigned int)(note - midi_notes); /* which FM channel? */
        adlib_freq_to_fm_op(&adlib_fm[ach].mod,(double)freq / 65536);
        adlib_fm[ach].mod.attack_rate = vel >> 3; /* 0-127 to 0-15 */
        adlib_fm[ach].mod.sustain_level = vel >> 3;
        adlib_fm[ach].mod.key_on = 0;
        adlib_update_groupA0(ach,&adlib_fm[ach]);
}

static inline void on_control_change(struct midi_track *t,struct midi_channel *ch,unsigned char num,unsigned char val) {
}

static inline void on_program_change(struct midi_track *t,struct midi_channel *ch,unsigned char inst) {
        ch->program = inst;
}

static inline void on_channel_aftertouch(struct midi_track *t,struct midi_channel *ch,unsigned char velocity) {
}

static inline void on_pitch_bend(struct midi_track *t,struct midi_channel *ch,int bend/*-8192 to 8192*/) {
}

unsigned long midi_trk_read_delta(struct midi_track *t) {
        unsigned long tc = 0;
        unsigned char c = 0,b;

        /* NTS: 16-bit large/compact builds MUST compare pointers as unsigned long to compare FAR pointers correctly! */
        if (t->read == NULL || (unsigned long)t->read >= (unsigned long)t->fence)
                return tc;

        while (c < 4) {
                b = midi_trk_read(t);
                tc = (tc << 7UL) + (unsigned long)(b&0x7F);
                if (!(b&0x80)) break;
                c++;
        }

        return tc;
}

void midi_tick_track(unsigned int i) {
        struct midi_track *t = midi_trk + i;
        struct midi_channel *ch;
        unsigned char b,c,d;
        int cnt=0;

        /* NTS: 16-bit large/compact builds MUST compare pointers as unsigned long to compare FAR pointers correctly! */
        if (t->read == NULL || (unsigned long)t->read >= (unsigned long)t->fence) {
                t->eof = 1;
                return;
        }

        t->us_tick_cnt_mtpq += 10000UL * (unsigned long)ticks_per_quarter_note;
        while (t->us_tick_cnt_mtpq >= t->us_per_quarter_note) {
                t->us_tick_cnt_mtpq -= t->us_per_quarter_note;
                cnt++;

                while (t->wait == 0) {
                        if ((unsigned long)t->read >= (unsigned long)t->fence) {
                                t->eof = 1;
                                break;
                        }

                        /* read pointer should be pointing at MIDI event bytes, just after the time delay */
                        b = midi_trk_read(t);
                        if (b&0x80) {
                                if (b < 0xF8) {
                                        if (b >= 0xF0)
                                                t->last_status = 0;
                                        else
                                                t->last_status = b;
                                }
                                if (b != 0x00 && ((b&0xF8) != 0xF0))
                                        c = midi_trk_read(t);
                        }
                        else {
                                /* blegh. last status */
                                c = b;
                                b = t->last_status;
                        }
                        switch (b>>4) {
                                case 0x8: { /* note off */
                                        d = midi_trk_read(t);
                                        ch = midi_ch + (b&0xF); /* c=key d=velocity */
                                        on_key_off(t,ch,c,d);
                                        } break;
                                case 0x9: { /* note on */
                                        d = midi_trk_read(t);
                                        ch = midi_ch + (b&0xF); /* c=key d=velocity */
                                        if (d != 0) on_key_on(t,ch,c,d); /* "A Note On with a velocity of 0 is actually a note off" Bleh, really? */
                                        else on_key_off(t,ch,c,d);
                                        } break;
                                case 0xA: { /* polyphonic aftertouch */
                                        d = midi_trk_read(t);
                                        ch = midi_ch + (b&0xF); /* c=key d=velocity */
                                        on_key_aftertouch(t,ch,c,d);
                                        } break;
                                case 0xB: { /* control change */
                                        d = midi_trk_read(t);
                                        ch = midi_ch + (b&0xF); /* c=key d=velocity */
                                        on_control_change(t,ch,c,d);
                                        } break;
                                case 0xC: { /* program change */
                                        on_program_change(t,ch,c); /* c=instrument d=not used */
                                        } break;
                                case 0xD: { /* channel aftertouch */
                                        on_channel_aftertouch(t,ch,c); /* c=velocity d=not used */
                                        } break;
                                case 0xE: { /* pitch bend */
                                        d = midi_trk_read(t);
                                        on_pitch_bend(t,ch,((c&0x7F)|((d&0x7F)<<7))-8192); /* c=LSB d=MSB */
                                        } break;
                                case 0xF: { /* event */
                                        if (b == 0xFF) {
                                                if (c == 0x7F) { /* c=type d=len */
                                                        unsigned long len = midi_trk_read_delta(t);
//                                                      fprintf(stderr,"Type 0x7F len=%lu %p/%p/%p\n",len,t->raw,t->read,t->fence);
                                                        if (len < 512UL) {
                                                                /* unknown */
                                                                midi_trk_skip(t,len);
                                                        }
                                                        else {
                                                                midi_trk_end(t);
                                                        }
                                                }
                                                else if (c < 0x7F) {
                                                        d = midi_trk_read(t);

                                                        if (c == 0x51 && d >= 3) {
                                                                d -= 3;
                                                                t->us_per_quarter_note = ((unsigned long)midi_trk_read(t)<<16UL)+
                                                                        ((unsigned long)midi_trk_read(t)<<8UL)+
                                                                        ((unsigned long)midi_trk_read(t)<<0UL);

                                                                if (1/*TODO: If format 0 or format 1*/) {
                                                                        /* Ugh. Unless format 2, the tempo applies to all tracks */
                                                                        int j;

                                                                        for (j=0;j < midi_trk_count;j++) {
                                                                                if (j != i) midi_trk[j].us_per_quarter_note =
                                                                                        t->us_per_quarter_note;
                                                                        }
                                                                }
                                                        }
                                                        else {
//                                                              fprintf(stderr,"Type 0x%02x len=%lu %p/%p/%p\n",c,d,t->raw,t->read,t->fence);
                                                        }

                                                        midi_trk_skip(t,d);
                                                }
                                                else {
                                                        fprintf(stderr,"t=%u Unknown MIDI f message 0x%02x 0x%02x %p/%p/%p\n",i,b,c,t->raw,t->read,t->fence);
                                                }
                                        }
                                        else {
                                                unsigned long len = midi_trk_read_delta(t);
//                                              fprintf(stderr,"Sysex len=%lu %p/%p/%p\n",len,t->raw,t->read,t->fence);
                                                midi_trk_skip(t,len);
                                        }
                                        } break;
                                default:
                                        if (b != 0x00) {
                                                fprintf(stderr,"t=%u Unknown MIDI message 0x%02x at %p/%p/%p\n",i,b,t->raw,t->read,t->fence);
                                                midi_trk_end(t);
                                        }
                                        break;
                        };

                        /* and then read the next event */
                        t->wait = midi_trk_read_delta(t);
                }
                if (t->wait != 0) {
                        t->wait--;
                }
        }
}

void adlib_shut_up();
void midi_reset_tracks();
void midi_reset_channels();

void midi_tick() {
        if (midi_playing) {
                unsigned int i;
                int eof=0;

                for (i=0;i < midi_trk_count;i++) {
                        midi_tick_track(i);
                        eof += midi_trk[i].eof?1:0;
                }

                if (eof >= midi_trk_count) {
                        adlib_shut_up();
                        midi_reset_tracks();
                        midi_reset_channels();
                }
        }
}

/* WARNING: subroutine call in interrupt handler. make sure you compile with -zu flag for large/compact memory models */
void interrupt irq0() {
//      midi_tick();
        irq0_ticks++;
        if ((irq0_cnt += irq0_add) >= irq0_max) {
                irq0_cnt -= irq0_max;
                old_irq0();
        }
        else {
                p8259_OCW2(0,P8259_OCW2_NON_SPECIFIC_EOI);
        }
}

void adlib_shut_up() {
        int i;

        memset(adlib_fm,0,sizeof(adlib_fm));
        memset(&adlib_reg_bd,0,sizeof(adlib_reg_bd));
        for (i=0;i < adlib_fm_voices;i++) {
                struct adlib_fm_operator *f;
                f = &adlib_fm[i].mod;
                f->ch_a = f->ch_b = f->ch_c = f->ch_d = 1;
                f = &adlib_fm[i].car;
                f->ch_a = f->ch_b = f->ch_c = f->ch_d = 1;
        }

        for (i=0;i < adlib_fm_voices;i++) {
                struct adlib_fm_operator *f;

                midi_notes[i].busy = 0;
                midi_notes[i].note_channel = 0;

                f = &adlib_fm[i].mod;
                f->mod_multiple = 1;
                f->total_level = 63 - 16;
                f->attack_rate = 15;
                f->decay_rate = 4;
                f->sustain_level = 0;
                f->release_rate = 8;
                f->f_number = 400;
                f->sustain = 1;
                f->octave = 4;
                f->key_on = 0;

                f = &adlib_fm[i].car;
                f->mod_multiple = 1;
                f->total_level = 63 - 16;
                f->attack_rate = 15;
                f->decay_rate = 4;
                f->sustain_level = 0;
                f->release_rate = 8;
                f->f_number = 0;
                f->sustain = 1;
                f->octave = 0;
                f->key_on = 0;
        }

        adlib_apply_all();
}

void midi_reset_track(unsigned int i) {
        struct midi_track *t;

        if (i >= MIDI_MAX_TRACKS) return;
        t = &midi_trk[i];
        t->eof = 0;
        t->last_status = 0;
        t->us_tick_cnt_mtpq = 0;
        t->us_per_quarter_note = (60000000UL / 120UL); /* 120BPM */
        t->read = midi_trk[i].raw;
        t->wait = midi_trk_read_delta(t); /* and then the read pointer will point at the MIDI event when wait counts down */
}

void midi_reset_tracks() {
        int i;

        for (i=0;i < midi_trk_count;i++)
                midi_reset_track(i);
}

void midi_reset_channels() {
        int i;

        for (i=0;i < MIDI_MAX_CHANNELS;i++) {
                midi_ch[i].program = 0;
        }
}

int load_midi_file(const char *path) {
        unsigned char tmp[256];
        unsigned int tracks=0;
        unsigned int tracki=0;
        int fd;

        fd = open(path,O_RDONLY|O_BINARY);
        if (fd < 0) {
                printf("Failed to load file %s\n",path);
                return 0;
        }

        ticks_per_quarter_note = 0;
        while (read(fd,tmp,8) == 8) {
                uint32_t sz;

                sz =    ((uint32_t)tmp[4] << (uint32_t)24) |
                        ((uint32_t)tmp[5] << (uint32_t)16) |
                        ((uint32_t)tmp[6] << (uint32_t)8) |
                        ((uint32_t)tmp[7] << (uint32_t)0);
                if (!memcmp(tmp,"MThd",4)) {
                        unsigned short t,tdiv;

                        if (sz < 6 || sz > 255) {
                                fprintf(stderr,"Invalid MThd size %lu\n",(unsigned long)sz);
                                goto err;
                        }
                        if (read(fd,tmp,(int)sz) != (int)sz) {
                                fprintf(stderr,"MThd read error\n");
                                goto err;
                        }

                        /* byte 0-1 = format type (0,1 or 2) */
                        /* byte 2-3 = number of tracks */
                        /* byte 4-5 = time divison */
                        t = tmp[1] | (tmp[0] << 8);
                        if (t > 1) {
                                fprintf(stderr,"MThd type %u not supported\n",t);
                                goto err; /* we only take type 0 or 1, don't support 2 */
                        }
                        tracks = tmp[3] | (tmp[2] << 8);
                        if (tracks > MIDI_MAX_TRACKS) {
                                fprintf(stderr,"MThd too many (%u) tracks\n",tracks);
                                goto err;
                        }
                        tdiv = tmp[5] | (tmp[4] << 8);
                        if (tdiv & 0x8000) {
                                fprintf(stderr,"MThd SMPTE time division not supported\n");
                                goto err; /* we do not support the SMPTE form */
                        }
                        if (tdiv == 0) {
                                fprintf(stderr,"MThd time division == 0\n");
                                goto err;
                        }
                        ticks_per_quarter_note = tdiv;
                }
                else if (!memcmp(tmp,"MTrk",4)) {
                        if (sz == 0UL) continue;
#if TARGET_MSDOS == 16 && (defined(__LARGE__) || defined(__COMPACT__))
                        if (sz > (640UL << 10UL)) goto err; /* 640KB */
#elif TARGET_MSDOS == 32
                        if (sz > (1UL << 20UL)) goto err; /* 1MB */
#else
                        if (sz > (60UL << 10UL)) goto err; /* 60KB */
#endif
                        if (tracki >= MIDI_MAX_TRACKS) goto err;
#if TARGET_MSDOS == 16 && (defined(__LARGE__) || defined(__COMPACT__))
                        {
                                unsigned segv;

                                /* NTS: _fmalloc() is still limited to 64KB sizes */
                                if (_dos_allocmem((unsigned)((sz+15UL)>>4UL),&segv) != 0) goto err;
                                midi_trk[tracki].raw = MK_FP(segv,0);
                        }
#else
                        midi_trk[tracki].raw = malloc(sz);
#endif
                        if (midi_trk[tracki].raw == NULL) goto err;
                        midi_trk[tracki].read = midi_trk[tracki].raw;
#if TARGET_MSDOS == 16 && (defined(__LARGE__) || defined(__COMPACT__))
                        {
                                unsigned char far *p = midi_trk[tracki].raw;
                                unsigned long rem = (unsigned long)sz;
                                unsigned long cando;
                                unsigned read;

                                while (rem != 0UL) {
                                        read = 0;

                                        cando = 0x10000UL - (unsigned long)FP_OFF(p);
                                        if (cando > rem) cando = rem;
                                        if (cando > 0xFFFFUL) cando = 0xFFFFUL; /* we're limited to 64KB-1 of reading */

                                        if (_dos_read(fd,p,(unsigned)cando,&read) != 0) goto err;
                                        if (read != (unsigned)cando) goto err;

                                        rem -= cando;
                                        if ((((unsigned long)FP_OFF(p))+cando) == 0x10000UL)
                                                p = MK_FP(FP_SEG(p)+0x1000,0);
                                        else
                                                p += (unsigned)cando;
                                }

                                cando = farptr2phys(p);
                                midi_trk[tracki].fence = MK_FP(cando>>4,cando&0xF);
                        }
#else
                        midi_trk[tracki].fence = midi_trk[tracki].raw + (unsigned)sz;
                        if (read(fd,midi_trk[tracki].raw,(unsigned)sz) != (int)sz) goto err;
#endif
                        tracki++;
                }
                else {
                        fprintf(stderr,"Unknown MIDI chunk %c%c%c%c\n",tmp[0],tmp[1],tmp[2],tmp[3]);
                        goto err;
                }
        }
        if (tracki == 0 || ticks_per_quarter_note == 0) goto err;
        midi_trk_count = tracki;

        fprintf(stderr,"Ticks per quarter note: %u\n",ticks_per_quarter_note);

        close(fd);
        return 1;
err:
        close(fd);
        return 0;
}

int main(int argc,char **argv) {
        unsigned long ptick;
        int i,c;

        printf("ADLIB FM test program\n");
        if (argc < 2) {
                printf("You must specify a MIDI file to play\n");
                return 1;
        }

        if (!probe_vga()) {
                printf("Cannot init VGA\n");
                return 1;
        }
        if (!init_adlib()) {
                printf("Cannot init library\n");
                return 1;
        }
        if (!probe_8254()) { /* we need the timer to keep time with the music */
                printf("8254 timer not found\n");
                return 1;
        }

        for (i=0;i < MIDI_MAX_TRACKS;i++) {
                midi_trk[i].raw = NULL;
                midi_trk[i].read = NULL;
                midi_trk[i].fence = NULL;
        }

        if (load_midi_file(argv[1]) == 0) {
                printf("Failed to load MIDI\n");
                return 1;
        }

        write_8254_system_timer(T8254_REF_CLOCK_HZ / 100); /* tick faster at 100Hz please */
        irq0_cnt = 0;
        irq0_add = 182;
        irq0_max = 1000; /* about 18.2Hz */
        old_irq0 = _dos_getvect(8);/*IRQ0*/
        _dos_setvect(8,irq0);

        adlib_shut_up();
        midi_reset_channels();
        midi_reset_tracks();
        _cli();
        irq0_ticks = ptick = 0;
        _sti();
        midi_playing = 1;

        while (1) {
                unsigned long adv;

                _cli();
                adv = irq0_ticks - ptick;
                if (adv >= 100UL) adv = 100UL;
                ptick = irq0_ticks;
                _sti();

                while (adv != 0) {
                        midi_tick();
                        adv--;
                }

                if (kbhit()) {
                        c = getch();
                        if (c == 0) c = getch() << 8;

                        if (c == 27) {
                                break;
                        }
                }
        }

        midi_playing = 0;
        adlib_shut_up();
        shutdown_adlib();
        _dos_setvect(8,old_irq0);
        write_8254_system_timer(0); /* back to normal 18.2Hz */

        for (i=0;i < MIDI_MAX_TRACKS;i++) {
                if (midi_trk[i].raw) {
#if TARGET_MSDOS == 16 && (defined(__LARGE__) || defined(__COMPACT__))
                        _dos_freemem(FP_SEG(midi_trk[i].raw)); /* NTS: Because we allocated with _dos_allocmem */
#else
                        free(midi_trk[i].raw);
#endif
                        midi_trk[i].raw = NULL;
                }
                midi_trk[i].fence = NULL;
                midi_trk[i].read = NULL;
        }

        return 0;
}