duke3d/buildengine/kdmeng.c

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// "Build Engine & Tools" Copyright (c) 1993-1997 Ken Silverman
// Ken Silverman's official web site: "http://www.advsys.net/ken"
// See the included license file "BUILDLIC.TXT" for license info.
// This file has been modified from Ken Silverman's original release
#include <malloc.h>
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <fcntl.h>
#include <sys/types.h>
#include <sys/stat.h>
#include "platform.h"
#include "pragmas.h"
#include "cache1d.h"
#if (!defined PLATFORM_DOS)
#error This should only be compiled for the DOS/386 target.
#endif
#define NUMCHANNELS 16
#define MAXWAVES 256
#define MAXTRACKS 256
#define MAXNOTES 8192
#define MAXEFFECTS 16
//Actual sound parameters after initsb was called
long samplerate, numspeakers, bytespersample, intspersec, kdmqual;
//KWV wave variables
long numwaves;
char instname[MAXWAVES][16];
long wavleng[MAXWAVES];
long repstart[MAXWAVES], repleng[MAXWAVES];
long finetune[MAXWAVES];
//Other useful wave variables
long totsndbytes, totsndmem, wavoffs[MAXWAVES];
//Effects array
long eff[MAXEFFECTS][256];
//KDM song variables:
long kdmversionum, numnotes, numtracks;
char trinst[MAXTRACKS], trquant[MAXTRACKS];
char trvol1[MAXTRACKS], trvol2[MAXTRACKS];
long nttime[MAXNOTES];
char nttrack[MAXNOTES], ntfreq[MAXNOTES];
char ntvol1[MAXNOTES], ntvol2[MAXNOTES];
char ntfrqeff[MAXNOTES], ntvoleff[MAXNOTES], ntpaneff[MAXNOTES];
//Other useful song variables:
long timecount, notecnt, musicstatus, musicrepeat;
long kdmasm1, kdmasm2, kdmasm3, kdmasm4;
static char digistat = 0, musistat = 0;
char *snd = NULL, kwvname[20] = {""};
#define MAXBYTESPERTIC 1024+128
static long stemp[MAXBYTESPERTIC];
//Sound reading information
long splc[NUMCHANNELS], sinc[NUMCHANNELS], soff[NUMCHANNELS];
long svol1[NUMCHANNELS], svol2[NUMCHANNELS];
long volookup[NUMCHANNELS<<9];
long swavenum[NUMCHANNELS];
long frqeff[NUMCHANNELS], frqoff[NUMCHANNELS];
long voleff[NUMCHANNELS], voloff[NUMCHANNELS];
long paneff[NUMCHANNELS], panoff[NUMCHANNELS];
static long globposx, globposy, globxvect, globyvect;
static long xplc[NUMCHANNELS], yplc[NUMCHANNELS], vol[NUMCHANNELS];
static long vdist[NUMCHANNELS], sincoffs[NUMCHANNELS];
static char chanstat[NUMCHANNELS];
long frqtable[256];
static long mixerval = 0;
static long kdminprep = 0, kdmintinprep = 0;
static long dmacheckport, dmachecksiz;
void (__interrupt __far *oldsbhandler)();
void __interrupt __far sbhandler(void);
long samplediv, oldtimerfreq, chainbackcnt, chainbackstart;
char *pcsndptr, pcsndlookup[256], bufferside;
long samplecount, pcsndbufsiz, pcrealmodeint;
static short kdmvect = 0x8;
static unsigned short kdmpsel, kdmrseg, kdmroff;
static unsigned long kdmpoff;
void (__interrupt __far *oldpctimerhandler)();
#define KDMCODEBYTES 256
static char pcrealbuffer[KDMCODEBYTES] = //See pckdm.asm
{
0x50,0x53,0x51,0x52,0x32,0xC0,0xE6,0x42,0xB0,0x20,
0xE6,0x20,0x5A,0x59,0x5B,0x58,0xCF,
};
//Sound interrupt information
long sbport = 0x220, sbirq = 0x7, sbdma8 = 0x1, sbdma16 = 0x1;
char dmapagenum[8] = {0x87,0x83,0x81,0x82,0x8f,0x8b,0x89,0x8a};
long sbdma, sbver;
unsigned short sndselector;
volatile long sndoffs, sndoffsplc, sndoffsxor, sndplc, sndend;
static long bytespertic, sndbufsiz;
char qualookup[512*16];
long ramplookup[64];
unsigned short sndseg = 0;
#ifdef PLATFORM_DOS
extern long monolocomb(long,long,long,long,long,long);
#pragma aux monolocomb parm [eax][ebx][ecx][edx][esi][edi];
extern long monohicomb(long,long,long,long,long,long);
#pragma aux monohicomb parm [eax][ebx][ecx][edx][esi][edi];
extern long stereolocomb(long,long,long,long,long,long);
#pragma aux stereolocomb parm [eax][ebx][ecx][edx][esi][edi];
extern long stereohicomb(long,long,long,long,long,long);
#pragma aux stereohicomb parm [eax][ebx][ecx][edx][esi][edi];
extern long setuppctimerhandler(long,long,long,long,long,long);
#pragma aux setuppctimerhandler parm [eax][ebx][ecx][edx][esi][edi];
extern void interrupt pctimerhandler();
extern long pcbound2char(long,long,long);
#pragma aux pcbound2char parm [ecx][esi][edi];
extern long bound2char(long,long,long);
#pragma aux bound2char parm [ecx][esi][edi];
extern long bound2short(long,long,long);
#pragma aux bound2short parm [ecx][esi][edi];
static long oneshr10 = 0x3a800000, oneshl14 = 0x46800000;
void fsin(long *i1);
#pragma aux fsin =\
"fldpi",\
"fimul dword ptr [eax]",\
"fmul dword ptr [oneshr10]",\
"fsin",\
"fmul dword ptr [oneshl14]",\
"fistp dword ptr [eax]",\
parm [eax]\
unsigned short convallocate(long i1);
#pragma aux convallocate =\
"mov ax, 0x100",\
"int 0x31",\
"jnc nocarry",\
"mov ax, 0",\
"nocarry: mov sndselector, dx",\
parm [bx]\
modify [eax edx]\
void convdeallocate(long i1);
#pragma aux convdeallocate =\
"mov ax, 0x101",\
"mov dx, sndselector",\
"int 0x31",\
parm [dx]\
modify [eax edx]\
long resetsb(void);
#pragma aux resetsb =\
"mov edx, sbport",\
"add edx, 0x6",\
"mov al, 1",\
"out dx, al",\
"xor al, al",\
"delayreset: dec al",\
"jnz delayreset",\
"out dx, al",\
"mov ecx, 65536",\
"empty: mov edx, sbport",\
"add edx, 0xe",\
"in al, dx",\
"test al, al",\
"jns nextattempt",\
"sub dl, 4",\
"in al, dx",\
"cmp al, 0aah",\
"je resetok",\
"dec ecx",\
"nextattempt: jnz empty",\
"mov eax, -1",\
"jmp resetend",\
"resetok: xor eax, eax",\
"resetend:",\
modify [ebx ecx edx]\
long sbin(void);
#pragma aux sbin =\
"xor eax, eax",\
"mov dx, word ptr sbport[0]",\
"add dl, 0xe",\
"busy: in al, dx",\
"or al, al",\
"jns busy",\
"sub dl, 4",\
"in al, dx",\
modify [edx]\
void sbout(long i1);
#pragma aux sbout =\
"mov dx, word ptr sbport[0]",\
"add dl, 0xc",\
"mov ah, al",\
"busy: in al, dx",\
"or al, al",\
"js busy",\
"mov al, ah",\
"out dx, al",\
parm [eax]\
modify [edx]\
long sbmixin(long);
#pragma aux sbmixin =\
"mov dx, word ptr sbport[0]",\
"add dl, 0x4",\
"out dx, al",\
"inc dx",\
"xor eax, eax",\
"in al, dx",\
parm [eax]\
modify [edx]\
void sbmixout(long i1, long i2);
#pragma aux sbmixout =\
"mov dx, word ptr sbport[0]",\
"add dl, 0x4",\
"out dx, al",\
"inc dx",\
"mov al, bl",\
"out dx, al",\
parm [eax][ebx]\
modify [edx]\
void findpas(void);
#pragma aux findpas =\
"mov eax, 0x0000bc00",\
"mov ebx, 0x00003f3f",\
"int 0x2f",\
"xor bx, cx",\
"xor bx, dx",\
"cmp bx, 0x4d56",\
"stc",\
"jne nopasfound",\
"mov eax, 0x0000bc04",\
"int 0x2f",\
"mov edx, 0x0000ffff",\
"and ebx, edx",\
"and ecx, edx",\
"mov sbdma, ebx",\
"mov sbirq, ecx",\
"clc",\
"nopasfound:",\
"sbb eax, eax",\
modify [eax ebx ecx edx]\
void calcvolookupmono(long i1, long i2, long i3);
#pragma aux calcvolookupmono =\
"mov ecx, 64",\
"lea edx, [eax+ebx]",\
"add ebx, ebx",\
"begit: mov dword ptr [edi], eax",\
"mov dword ptr [edi+4], edx",\
"add eax, ebx",\
"add edx, ebx",\
"mov dword ptr [edi+8], eax",\
"mov dword ptr [edi+12], edx",\
"add eax, ebx",\
"add edx, ebx",\
"add edi, 16",\
"dec ecx",\
"jnz begit",\
parm [edi][eax][ebx]\
modify [ecx edx]\
void calcvolookupstereo(long i1, long i2, long i3, long i4, long i5);
#pragma aux calcvolookupstereo =\
"mov esi, 128",\
"begit: mov dword ptr [edi], eax",\
"mov dword ptr [edi+4], ecx",\
"add eax, ebx",\
"add ecx, edx",\
"mov dword ptr [edi+8], eax",\
"mov dword ptr [edi+12], ecx",\
"add eax, ebx",\
"add ecx, edx",\
"add edi, 16",\
"dec esi",\
"jnz begit",\
parm [edi][eax][ebx][ecx][edx]\
modify [esi]\
long gettimerval(void);
#pragma aux gettimerval =\
"xor eax, eax",\
"xor ebx, ebx",\
"mov ecx, 65536",\
"xor edx, edx",\
"loopit: mov al, 0x4",\
"out 0x43, al",\
"in al, 0x40",\
"mov dl, al",\
"in al, 0x40",\
"mov dh, al",\
"cmp ebx, edx",\
"dec ecx",\
"ja loopit",\
"jz endit",\
"mov ebx, edx",\
"jmp loopit",\
"endit: mov eax, ebx",\
modify [eax ebx ecx edx]\
#pragma aux klabs =\
"test eax, eax",\
"jns skipnegate",\
"neg eax",\
"skipnegate:",\
parm [eax]\
#pragma aux mulscale16 =\
"imul ebx",\
"shrd eax, edx, 16",\
parm nomemory [eax][ebx]\
modify exact [eax edx]\
#pragma aux mulscale24 =\
"imul ebx",\
"shrd eax, edx, 24",\
parm nomemory [eax][ebx]\
modify exact [eax edx]\
#pragma aux mulscale30 =\
"imul ebx",\
"shrd eax, edx, 30",\
parm nomemory [eax][ebx]\
modify exact [eax edx]\
#pragma aux dmulscale28 =\
"imul edx",\
"mov ebx, eax",\
"mov eax, esi",\
"mov esi, edx",\
"imul edi",\
"add eax, ebx",\
"adc edx, esi",\
"shrd eax, edx, 28",\
parm nomemory [eax][edx][esi][edi]\
modify exact [eax ebx edx esi]\
#pragma aux clearbuf =\
"snot: mov dword ptr [edi], eax",\
"add edi, 4",\
"loop snot",\
parm [edi][ecx][eax]\
#pragma aux copybuf =\
"snot: mov eax, dword ptr [esi]",\
"mov dword ptr [edi], eax",\
"add esi, 4",\
"add edi, 4",\
"loop snot",\
parm [esi][edi][ecx]\
modify [eax]\
#pragma aux koutp =\
"out dx, al",\
parm [edx][eax]\
#pragma aux koutpw =\
"out dx, ax",\
parm [edx][eax]\
#pragma aux kinp =\
"xor eax, eax",\
"in al, dx",\
parm [edx]\
#pragma aux msqrtasm =\
"mov eax, 0x40000000",\
"mov ebx, 0x20000000",\
"begit: cmp ecx, eax",\
"jl skip",\
"sub ecx, eax",\
"lea eax, [eax+ebx*4]",\
"skip: sub eax, ebx",\
"shr eax, 1",\
"shr ebx, 2",\
"jnz begit",\
"cmp ecx, eax",\
"sbb eax, -1",\
"shr eax, 1",\
parm nomemory [ecx]\
modify exact [eax ebx ecx]
#endif
void initsb(char dadigistat, char damusistat, long dasamplerate, char danumspeakers, char dabytespersample, char daintspersec, char daquality)
{
// DDOI - this should probably be stubbed in sdl_driver.c
#ifdef PLATFORM_DOS
long i, j, k;
digistat = dadigistat;
musistat = damusistat;
if ((digistat == 0) && (musistat != 1))
return;
samplerate = dasamplerate;
if (samplerate < 6000) samplerate = 6000;
if (samplerate > 48000) samplerate = 48000;
numspeakers = danumspeakers;
if (numspeakers < 1) numspeakers = 1;
if (numspeakers > 2) numspeakers = 2;
bytespersample = dabytespersample;
if (bytespersample < 1) bytespersample = 1;
if (bytespersample > 2) bytespersample = 2;
intspersec = daintspersec;
if (intspersec < 1) intspersec = 1;
if (intspersec > 120) intspersec = 120;
kdmqual = daquality;
if (kdmqual < 0) kdmqual = 0;
if (kdmqual > 1) kdmqual = 1;
switch(digistat)
{
case 1:
getsbset();
if (resetsb() != 0) { digistat = musistat = 0; break; }
sbout(0xe1);
sbver = (sbin()<<8);
sbver += sbin();
if (sbver < 0x0201) samplerate = min(samplerate,22050);
if (sbver < 0x0300) numspeakers = 1;
if (sbver < 0x0400)
{
samplerate = min(samplerate,44100>>(numspeakers-1));
bytespersample = 1;
}
if (bytespersample == 2) sbdma = sbdma16; else sbdma = sbdma8;
break;
case 2:
findpas(); // If == -1 then print not found & quit
koutp(0xf8a,128);
break;
case 13:
if (numspeakers == 2) numspeakers = 1;
if (bytespersample == 2) bytespersample = 1;
break;
}
bytespertic = (((samplerate/120)+1)&~1);
sndbufsiz = bytespertic*(120/intspersec);
if (sndseg == 0) //Allocate DMA buffer in conventional memory
{
if ((sndseg = convallocate(((sndbufsiz<<(bytespersample+numspeakers))+15)>>4)) == 0)
{
printf("Could not allocation conventional memory for digitized music\n");
exit(0);
}
sndoffs = (((long)sndseg)<<4);
if ((sndoffs&65535)+(sndbufsiz<<(bytespersample+numspeakers-1)) >= 65536) //64K DMA page check
sndoffs += (sndbufsiz<<(bytespersample+numspeakers-1));
sndoffsplc = sndoffs;
sndoffsxor = sndoffsplc ^ (sndoffsplc+(sndbufsiz<<(bytespersample+numspeakers-2)));
}
j = (((11025L*2093)/samplerate)<<13);
for(i=1;i<76;i++)
{
frqtable[i] = j;
j = mulscale30(j,1137589835); //(pow(2,1/12)<<30) = 1137589835
}
for(i=0;i>=-14;i--) frqtable[i&255] = (frqtable[(i+12)&255]>>1);
loadwaves("WAVES.KWV");
timecount = notecnt = musicstatus = musicrepeat = 0;
clearbuf((void *)(FP_OFF(stemp)),sizeof(stemp)>>2,32768L);
for(i=0;i<256;i++)
for(j=0;j<16;j++)
{
qualookup[(j<<9)+i] = (((-i)*j+8)>>4);
qualookup[(j<<9)+i+256] = (((256-i)*j+8)>>4);
}
for(i=0;i<(samplerate>>11);i++)
{
j = 1536 - (i<<10)/(samplerate>>11);
fsin(&j);
ramplookup[i] = ((16384-j)<<1);
}
for(i=0;i<256;i++)
{
j = i*90; fsin(&j);
eff[0][i] = 65536+j/9;
eff[1][i] = min(58386+((i*(65536-58386))/30),65536);
eff[2][i] = max(69433+((i*(65536-69433))/30),65536);
j = (i*2048)/120; fsin(&j);
eff[3][i] = 65536+(j<<2);
j = (i*2048)/30; fsin(&j);
eff[4][i] = 65536+j;
switch((i>>1)%3)
{
case 0: eff[5][i] = 65536; break;
case 1: eff[5][i] = 65536*330/262; break;
case 2: eff[5][i] = 65536*392/262; break;
}
eff[6][i] = min((i<<16)/120,65536);
eff[7][i] = max(65536-(i<<16)/120,0);
}
switch(digistat)
{
case 1: case 2:
if (sbirq < 8)
{
oldsbhandler = _dos_getvect(sbirq+0x8); //Set new IRQ7 vector
_disable(); _dos_setvect(sbirq+0x8, sbhandler); _enable();
koutp(0x21,kinp(0x21) & ~(1<<(sbirq&7)));
}
else
{
oldsbhandler = _dos_getvect(sbirq+0x68); //Set new SB IRQ vector
_disable(); _dos_setvect(sbirq+0x68, sbhandler); _enable();
koutp(0xa1,kinp(0xa1) & ~(1<<(sbirq&7)));
}
break;
}
musicoff();
if (digistat != 255)
{
preparesndbuf();
if (digistat != 13) preparesndbuf();
if ((digistat == 1) || (digistat == 2))
{
if (sbdma < 4)
{
dmacheckport = (sbdma<<1)+1;
dmachecksiz = (sndbufsiz<<(bytespersample+numspeakers-1))-1;
koutp(0xa,sbdma+4); //Set up DMA REGISTERS
koutp(0xc,0);
koutp(0xb,0x58+sbdma); //&H58 - auto-init, &H48 - 1 block only
koutp(sbdma<<1,sndoffs&255);
koutp(sbdma<<1,(sndoffs>>8)&255);
koutp(dmacheckport,dmachecksiz&255);
koutp(dmacheckport,(dmachecksiz>>8)&255);
koutp(dmapagenum[sbdma],((sndoffs>>16)&255));
koutp(0xa,sbdma);
}
else
{
dmacheckport = ((sbdma&3)<<2)+0xc2;
dmachecksiz = ((sndbufsiz<<(bytespersample+numspeakers-1))>>1)-1;
koutp(0xd4,sbdma); //Set up DMA REGISTERS
koutp(0xd8,0);
koutp(0xd6,0x58+(sbdma&3)); //&H58 - auto-init, &H48 - 1 block only
koutp(dmacheckport-2,(sndoffs>>1)&255);
koutp(dmacheckport-2,((sndoffs>>1)>>8)&255);
koutp(dmacheckport,dmachecksiz&255);
koutp(dmacheckport,(dmachecksiz>>8)&255);
koutp(dmapagenum[sbdma],((sndoffs>>16)&255));
koutp(0xd4,sbdma&3);
}
}
switch(digistat)
{
case 1:
sbout(0xd1); //SB Speaker on
if (sbver < 0x0400)
{
sbout(0x40); //SB Set speed
sbout(256-(1000000/(samplerate<<(numspeakers-1))));
}
if (sbver < 0x0200)
{
sbout(0x14); //SB 1-shot mode
i = sndbufsiz-1;
sbout(i&255);
sbout((i>>8)&255);
}
else
{
if (sbver < 0x0400)
{
//Set length for auto-init mode
i = (sndbufsiz<<(numspeakers+bytespersample-2))-1;
sbout(0x48);
sbout(i&255);
sbout((i>>8)&255);
if (numspeakers == 2) //SB set stereo
{
sbmixout(0L,0L);
sbmixout(0xe,sbmixin(0xe)|2);
}
if ((samplerate<<(numspeakers-1)) <= 22050)
sbout(0x1c); //Start SB interrupts!
else
sbout(0x90); //High Speed DMA
}
else
{
sbout(0x41);
sbout((samplerate>>8)&255);
sbout(samplerate&255);
sbout(0xc6-((bytespersample-1)<<4));
sbout(((bytespersample-1)<<4)+((numspeakers-1)<<5));
i = (sndbufsiz<<(numspeakers-1))-1;
sbout(i&255);
sbout((i>>8)&255);
}
}
break;
case 2:
koutp(0xf88,128);
koutp(0xb8a,0);
i = (1193180L>>(numspeakers-1)) / samplerate;
koutp(0x138b,0x36); koutp(0x1388,i&255); koutp(0x1388,i>>8);
i = (sndbufsiz<<(bytespersample+numspeakers-2));
koutp(0x138b,0x74); koutp(0x1389,i&255); koutp(0x1389,i>>8);
koutp(0x8389,0x3+((bytespersample-1)<<2)); //0x3=8bit/0x7=16bit
koutp(0xb89,0xdf);
koutp(0xb8b,0x8);
koutp(0xf8a,0xd9+((2-numspeakers)<<5)); //0xd9=play/0xc9=record
koutp(0xb8a,0xe1);
break;
case 13:
samplecount = sndbufsiz;
pcsndptr = (char *)sndoffs;
bufferside = 0;
pcsndbufsiz = sndbufsiz;
pcrealmodeint = 0;
samplediv = 1193280L / samplerate;
j = 0;
for(i=0;i<256;i++)
{
//Scale (65536 normal)
k = mulscale24(j-(samplediv<<7),160000) + (samplediv>>1);
if (k < 0) k = 0;
if (k > samplerate) k = samplerate;
pcsndlookup[i] = (char)(k+1);
j += samplediv;
}
oldtimerfreq = gettimerval();
chainbackstart = oldtimerfreq/samplediv;
chainbackcnt = chainbackstart;
setuppctimerhandler(sndoffs+sndbufsiz,oldtimerfreq,0L,0L,0L,0L);
_disable();
oldpctimerhandler = _dos_getvect(0x8);
installbikdmhandlers();
koutp(0x43,0x34); koutp(0x40,samplediv&255); koutp(0x40,(samplediv>>8)&255);
koutp(0x43,0x90);
koutp(97,kinp(97)|3);
_enable();
break;
}
}
#else
fprintf(stderr, "%s line %d; initsb() called\n", __FILE__, __LINE__);
#endif
}
void getsbset(void)
{
char *sbset;
long i;
sbset = getenv("BLASTER");
i = 0;
while (sbset[i] > 0)
{
switch(sbset[i])
{
case 'A': case 'a':
i++;
sbport = 0;
while (((sbset[i] >= 48) && (sbset[i] <= 57)) ||
((sbset[i] >= 'A') && (sbset[i] <= 'F')) ||
((sbset[i] >= 'a') && (sbset[i] <= 'f')))
{
sbport *= 16;
if ((sbset[i] >= 48) && (sbset[i] <= 57)) sbport += sbset[i]-48;
if ((sbset[i] >= 'A') && (sbset[i] <= 'F')) sbport += sbset[i]-55;
if ((sbset[i] >= 'a') && (sbset[i] <= 'f')) sbport += sbset[i]-55-32;
i++;
}
break;
case 'I': case 'i':
i++;
sbirq = 0;
while ((sbset[i] >= 48) && (sbset[i] <= 57))
{
sbirq *= 10;
sbirq += sbset[i]-48;
i++;
}
break;
case 'D': case 'd':
i++;
sbdma8 = 0;
while ((sbset[i] >= 48) && (sbset[i] <= 57))
{
sbdma8 *= 10;
sbdma8 += sbset[i]-48;
i++;
}
break;
case 'H': case 'h':
i++;
sbdma16 = 0;
while ((sbset[i] >= 48) && (sbset[i] <= 57))
{
sbdma16 *= 10;
sbdma16 += sbset[i]-48;
i++;
}
break;
default:
i++;
break;
}
}
}
#ifdef PLATFORM_DOS
void __interrupt __far sbhandler()
{
switch(digistat)
{
case 1:
if (sbver < 0x0200)
{
sbout(0x14); //SB 1-shot mode
sbout((sndbufsiz-1)&255);
sbout(((sndbufsiz-1)>>8)&255);
kinp(sbport+0xe); //Acknowledge SB
}
else
{
mixerval = sbmixin(0x82);
if (mixerval&1) kinp(sbport+0xe); //Acknowledge 8-bit DMA
if (mixerval&2) kinp(sbport+0xf); //Acknowledge 16-bit DMA
}
break;
case 2:
if ((kinp(0xb89)&8) > 0) koutp(0xb89,0);
break;
}
if (sbirq >= 8) koutp(0xa0,0x20);
koutp(0x20,0x20);
_enable(); preparesndbuf();
}
#endif
uninitsb()
{
#ifdef PLATFORM_DOS
if ((digistat == 0) && (musistat != 1))
return;
if (digistat != 255)
{
if ((digistat == 1) || (digistat == 2)) //Mask off DMA
{
if (sbdma < 4) koutp(0xa,sbdma+4); else koutp(0xd4,sbdma);
}
switch(digistat)
{
case 1:
if (sbver >= 0x0400) sbout(0xda-(bytespersample-1));
resetsb();
sbout(0xd3); //Turn speaker off
break;
case 2:
koutp(0xb8a,32); //Stop interrupts
koutp(0xf8a,0x9); //DMA stop
break;
case 13:
koutp(97,kinp(97)&252);
koutp(0x43,0x34); koutp(0x40,0); koutp(0x40,0);
koutp(0x43,0xbc);
uninstallbikdmhandlers();
break;
}
}
if (snd != 0) free(snd), snd = 0;
if (sndseg != 0) convdeallocate(sndseg), sndseg = 0;
switch(digistat)
{
case 1: case 2:
if (sbirq < 8)
{
koutp(0x21,kinp(0x21) | (1<<(sbirq&7)));
_disable(); _dos_setvect(sbirq+0x8, oldsbhandler); _enable();
}
else
{
koutp(0xa1,kinp(0xa1) | (1<<(sbirq&7)));
_disable(); _dos_setvect(sbirq+0x68, oldsbhandler); _enable();
}
break;
}
#else
fprintf (stderr, "%s line %d, uninitsb() called\n",__FILE__,__LINE__);
#endif
}
void startwave(long wavnum, long dafreq, long davolume1, long davolume2, long dafrqeff, long davoleff, long dapaneff)
{
long i, /*j,*/ chanum;
if ((davolume1|davolume2) == 0) return;
chanum = 0;
for(i=NUMCHANNELS-1;i>0;i--)
if (splc[i] > splc[chanum])
chanum = i;
splc[chanum] = 0; //Disable channel temporarily for clean switch
if (numspeakers == 1)
calcvolookupmono(FP_OFF(volookup)+(chanum<<(9+2)),-(davolume1+davolume2)<<6,(davolume1+davolume2)>>1);
else
calcvolookupstereo(FP_OFF(volookup)+(chanum<<(9+2)),-(davolume1<<7),davolume1,-(davolume2<<7),davolume2);
sinc[chanum] = dafreq;
svol1[chanum] = davolume1;
svol2[chanum] = davolume2;
soff[chanum] = wavoffs[wavnum]+wavleng[wavnum];
splc[chanum] = -(wavleng[wavnum]<<12); //splc's modified last
swavenum[chanum] = wavnum;
frqeff[chanum] = dafrqeff; frqoff[chanum] = 0;
voleff[chanum] = davoleff; voloff[chanum] = 0;
paneff[chanum] = dapaneff; panoff[chanum] = 0;
chanstat[chanum] = 0; sincoffs[chanum] = 0;
}
void setears(long daposx, long daposy, long daxvect, long dayvect)
{
globposx = daposx;
globposy = daposy;
globxvect = daxvect;
globyvect = dayvect;
}
void wsayfollow(char *dafilename, long dafreq, long davol, long *daxplc, long *dayplc, char followstat)
{
char ch1, ch2, bad;
long i, wavnum, chanum;
if (digistat == 0) return;
if (davol <= 0) return;
for(wavnum=numwaves-1;wavnum>=0;wavnum--)
{
bad = 0;
i = 0;
while ((dafilename[i] > 0) && (i < 16))
{
ch1 = dafilename[i]; if ((ch1 >= 97) && (ch1 <= 123)) ch1 -= 32;
ch2 = instname[wavnum][i]; if ((ch2 >= 97) && (ch2 <= 123)) ch2 -= 32;
if (ch1 != ch2) {bad = 1; break;}
i++;
}
if (bad != 0) continue;
chanum = 0;
for(i=NUMCHANNELS-1;i>0;i--) if (splc[i] > splc[chanum]) chanum = i;
splc[chanum] = 0; //Disable channel temporarily for clean switch
if (followstat == 0)
{
xplc[chanum] = *daxplc;
yplc[chanum] = *dayplc;
}
else
{
xplc[chanum] = ((long)daxplc);
yplc[chanum] = ((long)dayplc);
}
vol[chanum] = davol;
vdist[chanum] = 0;
sinc[chanum] = (dafreq*11025)/samplerate;
svol1[chanum] = davol;
svol2[chanum] = davol;
sincoffs[chanum] = 0;
soff[chanum] = wavoffs[wavnum]+wavleng[wavnum];
splc[chanum] = -(wavleng[wavnum]<<12); //splc's modified last
swavenum[chanum] = wavnum;
chanstat[chanum] = followstat+1;
frqeff[chanum] = 0; frqoff[chanum] = 0;
voleff[chanum] = 0; voloff[chanum] = 0;
paneff[chanum] = 0; panoff[chanum] = 0;
return;
}
}
void getsndbufinfo(long *dasndoffsplc, long *dasndbufsiz)
{
*dasndoffsplc = sndoffsplc;
*dasndbufsiz = (sndbufsiz<<(bytespersample+numspeakers-2));
}
void preparesndbuf(void)
{
long i, j, k, voloffs1, voloffs2, *stempptr;
long daswave, dasinc, dacnt;
long ox, oy, x, y;
//char *sndptr, v1, v2;
kdmintinprep++;
if (kdminprep != 0) return;
if ((digistat == 1) || (digistat == 2))
{
i = kinp(dmacheckport); i += (kinp(dmacheckport)<<8);
if (i <= dmachecksiz)
{
i = ((i > 32) && (i <= (dmachecksiz>>1)+32));
if ((sndoffsplc<(sndoffsplc^sndoffsxor)) == i) kdmintinprep++;
}
}
kdminprep = 1;
while (kdmintinprep > 0)
{
sndoffsplc ^= sndoffsxor;
for (i=NUMCHANNELS-1;i>=0;i--)
if ((splc[i] < 0) && (chanstat[i] > 0))
{
if (chanstat[i] == 1)
{
ox = xplc[i];
oy = yplc[i];
}
else
{
stempptr = (long *)xplc[i]; ox = *stempptr;
stempptr = (long *)yplc[i]; oy = *stempptr;
}
ox -= globposx; oy -= globposy;
x = dmulscale28(oy,globxvect,-ox,globyvect);
y = dmulscale28(ox,globxvect,oy,globyvect);
if ((klabs(x) >= 32768) || (klabs(y) >= 32768))
{ splc[i] = 0; continue; }
j = vdist[i];
vdist[i] = msqrtasm(x*x+y*y);
if (j)
{
j = (sinc[i]<<10)/(min(max(vdist[i]-j,-768),768)+1024)-sinc[i];
sincoffs[i] = ((sincoffs[i]*7+j)>>3);
}
voloffs1 = min((vol[i]<<22)/(((x+1536)*(x+1536)+y*y)+1),255);
voloffs2 = min((vol[i]<<22)/(((x-1536)*(x-1536)+y*y)+1),255);
if (numspeakers == 1)
calcvolookupmono(FP_OFF(volookup)+(i<<(9+2)),-(voloffs1+voloffs2)<<6,(voloffs1+voloffs2)>>1);
else
calcvolookupstereo(FP_OFF(volookup)+(i<<(9+2)),-(voloffs1<<7),voloffs1,-(voloffs2<<7),voloffs2);
}
for(dacnt=0;dacnt<sndbufsiz;dacnt+=bytespertic)
{
if (musicstatus > 0) //Gets here 120 times/second
{
while ((notecnt < numnotes) && (timecount >= nttime[notecnt]))
{
j = trinst[nttrack[notecnt]];
k = mulscale24(frqtable[ntfreq[notecnt]],finetune[j]+748);
if (ntvol1[notecnt] == 0) //Note off
{
for(i=NUMCHANNELS-1;i>=0;i--)
if (splc[i] < 0)
if (swavenum[i] == j)
if (sinc[i] == k)
splc[i] = 0;
}
else //Note on
startwave(j,k,ntvol1[notecnt],ntvol2[notecnt],ntfrqeff[notecnt],ntvoleff[notecnt],ntpaneff[notecnt]);
notecnt++;
if (notecnt >= numnotes)
if (musicrepeat > 0)
notecnt = 0, timecount = nttime[0];
}
timecount++;
}
for(i=NUMCHANNELS-1;i>=0;i--)
{
if (splc[i] >= 0) continue;
dasinc = sinc[i]+sincoffs[i];
if (frqeff[i] != 0)
{
dasinc = mulscale16(dasinc,eff[frqeff[i]-1][frqoff[i]]);
frqoff[i]++; if (frqoff[i] >= 256) frqeff[i] = 0;
}
if ((voleff[i]) || (paneff[i]))
{
voloffs1 = svol1[i];
voloffs2 = svol2[i];
if (voleff[i])
{
voloffs1 = mulscale16(voloffs1,eff[voleff[i]-1][voloff[i]]);
voloffs2 = mulscale16(voloffs2,eff[voleff[i]-1][voloff[i]]);
voloff[i]++; if (voloff[i] >= 256) voleff[i] = 0;
}
if (numspeakers == 1)
calcvolookupmono(FP_OFF(volookup)+(i<<(9+2)),-(voloffs1+voloffs2)<<6,(voloffs1+voloffs2)>>1);
else
{
if (paneff[i])
{
voloffs1 = mulscale16(voloffs1,131072-eff[paneff[i]-1][panoff[i]]);
voloffs2 = mulscale16(voloffs2,eff[paneff[i]-1][panoff[i]]);
panoff[i]++; if (panoff[i] >= 256) paneff[i] = 0;
}
calcvolookupstereo(FP_OFF(volookup)+(i<<(9+2)),-(voloffs1<<7),voloffs1,-(voloffs2<<7),voloffs2);
}
}
daswave = swavenum[i];
voloffs1 = FP_OFF(volookup)+(i<<(9+2));
kdmasm1 = repleng[daswave];
kdmasm2 = wavoffs[daswave]+repstart[daswave]+repleng[daswave];
kdmasm3 = (repleng[daswave]<<12); //repsplcoff
kdmasm4 = soff[i];
if (numspeakers == 1)
{
if (kdmqual == 0) splc[i] = monolocomb(0L,voloffs1,bytespertic,dasinc,splc[i],FP_OFF(stemp));
else splc[i] = monohicomb(0L,voloffs1,bytespertic,dasinc,splc[i],FP_OFF(stemp));
}
else
{
if (kdmqual == 0) splc[i] = stereolocomb(0L,voloffs1,bytespertic,dasinc,splc[i],FP_OFF(stemp));
else splc[i] = stereohicomb(0L,voloffs1,bytespertic,dasinc,splc[i],FP_OFF(stemp));
}
soff[i] = kdmasm4;
if ((kdmqual == 0) || (splc[i] >= 0)) continue;
if (numspeakers == 1)
{
if (kdmqual == 0) monolocomb(0L,voloffs1,samplerate>>11,dasinc,splc[i],FP_OFF(stemp)+(bytespertic<<2));
else monohicomb(0L,voloffs1,samplerate>>11,dasinc,splc[i],FP_OFF(stemp)+(bytespertic<<2));
}
else
{
if (kdmqual == 0) stereolocomb(0L,voloffs1,samplerate>>11,dasinc,splc[i],FP_OFF(stemp)+(bytespertic<<3));
else stereohicomb(0L,voloffs1,samplerate>>11,dasinc,splc[i],FP_OFF(stemp)+(bytespertic<<3));
}
}
if (kdmqual)
{
if (numspeakers == 1)
{
for(i=(samplerate>>11)-1;i>=0;i--)
stemp[i] += mulscale16(stemp[i+1024]-stemp[i],ramplookup[i]);
j = bytespertic; k = (samplerate>>11);
copybuf(&stemp[j],&stemp[1024],k);
clearbuf(&stemp[j],k,32768);
}
else
{
for(i=(samplerate>>11)-1;i>=0;i--)
{
j = (i<<1);
stemp[j+0] += mulscale16(stemp[j+1024]-stemp[j+0],ramplookup[i]);
stemp[j+1] += mulscale16(stemp[j+1025]-stemp[j+1],ramplookup[i]);
}
j = (bytespertic<<1); k = ((samplerate>>11)<<1);
copybuf(&stemp[j],&stemp[1024],k);
clearbuf(&stemp[j],k,32768);
}
}
if (numspeakers == 1)
{
if (bytespersample == 1)
{
if (digistat == 13) pcbound2char(bytespertic>>1,FP_OFF(stemp),sndoffsplc+dacnt);
else bound2char(bytespertic>>1,FP_OFF(stemp),sndoffsplc+dacnt);
} else bound2short(bytespertic>>1,FP_OFF(stemp),sndoffsplc+(dacnt<<1));
}
else
{
if (bytespersample == 1) bound2char(bytespertic,FP_OFF(stemp),sndoffsplc+(dacnt<<1));
else bound2short(bytespertic,FP_OFF(stemp),sndoffsplc+(dacnt<<2));
}
}
kdmintinprep--;
}
kdminprep = 0;
}
void wsay(char *dafilename, long dafreq, long volume1, long volume2)
{
unsigned char ch1, ch2;
long i, j, bad;
if (digistat == 0) return;
i = numwaves-1;
do
{
bad = 0;
j = 0;
while ((dafilename[j] > 0) && (j < 16))
{
ch1 = dafilename[j]; if ((ch1 >= 97) && (ch1 <= 123)) ch1 -= 32;
ch2 = instname[i][j]; if ((ch2 >= 97) && (ch2 <= 123)) ch2 -= 32;
if (ch1 != ch2) {bad = 1; break;}
j++;
}
if (bad == 0)
{
startwave(i,(dafreq*11025)/samplerate,volume1,volume2,0L,0L,0L);
return;
}
i--;
} while (i >= 0);
}
void loadwaves(char *wavename)
{
long fil, i, j, dawaversionum;
char filename[80];
strcpy(filename,wavename);
if (strstr(filename,".KWV") == 0) strcat(filename,".KWV");
if ((fil = kopen4load(filename,0)) == -1)
if (strcmp(filename,"WAVES.KWV") != 0)
{
strcpy(filename,"WAVES.KWV");
fil = kopen4load(filename,0);
}
totsndbytes = 0;
if (fil != -1)
{
if (strcmp(kwvname,filename) == 0) { kclose(fil); return; }
strcpy(kwvname,filename);
kread(fil,&dawaversionum,4);
if (dawaversionum != 0) { kclose(fil); return; }
kread(fil,&numwaves,4);
for(i=0;i<numwaves;i++)
{
kread(fil,&instname[i][0],16);
kread(fil,&wavleng[i],4);
kread(fil,&repstart[i],4);
kread(fil,&repleng[i],4);
kread(fil,&finetune[i],4);
wavoffs[i] = totsndbytes;
totsndbytes += wavleng[i];
}
}
else
{
dawaversionum = 0;
numwaves = 0;
}
for(i=numwaves;i<MAXWAVES;i++)
{
for(j=0;j<16;j++) instname[i][j] = 0;
wavoffs[i] = totsndbytes;
wavleng[i] = 0L;
repstart[i] = 0L;
repleng[i] = 0L;
finetune[i] = 0L;
}
if (snd == 0)
{
if ((snd = (char *)malloc(totsndbytes+2)) == 0)
{ printf("Not enough memory for digital music!\n"); exit(0); }
}
for(i=0;i<MAXWAVES;i++) wavoffs[i] += FP_OFF(snd);
if (fil != -1)
{
kread(fil,snd,totsndbytes);
kclose(fil);
}
snd[totsndbytes] = snd[totsndbytes+1] = 128;
}
int loadsong(char *filename)
{
long /*i,*/ fil;
if (musistat != 1) return(0);
musicoff();
filename = strupr(filename);
if (strstr(filename,".KDM") == 0) strcat(filename,".KDM");
if ((fil = kopen4load(filename,0)) == -1)
{
printf("I cannot load %s.\n",filename);
uninitsb();
return(-1);
}
kread(fil,&kdmversionum,4);
if (kdmversionum != 0) return(-2);
kread(fil,&numnotes,4);
kread(fil,&numtracks,4);
kread(fil,trinst,numtracks);
kread(fil,trquant,numtracks);
kread(fil,trvol1,numtracks);
kread(fil,trvol2,numtracks);
kread(fil,nttime,numnotes<<2);
kread(fil,nttrack,numnotes);
kread(fil,ntfreq,numnotes);
kread(fil,ntvol1,numnotes);
kread(fil,ntvol2,numnotes);
kread(fil,ntfrqeff,numnotes);
kread(fil,ntvoleff,numnotes);
kread(fil,ntpaneff,numnotes);
kclose(fil);
return(0);
}
void musicon(void)
{
if (musistat != 1)
return;
notecnt = 0;
timecount = nttime[notecnt];
musicrepeat = 1;
musicstatus = 1;
}
void musicoff(void)
{
long i;
musicstatus = 0;
for(i=0;i<NUMCHANNELS;i++)
splc[i] = 0;
musicrepeat = 0;
timecount = 0;
notecnt = 0;
}
kdmconvalloc32 (long size)
{
#ifdef PLATFORM_DOS
union REGS r;
r.x.eax = 0x0100; //DPMI allocate DOS memory
r.x.ebx = ((size+15)>>4); //Number of paragraphs requested
int386(0x31,&r,&r);
if (r.x.cflag != 0) //Failed
return ((long)0);
return ((long)((r.x.eax&0xffff)<<4)); //Returns full 32-bit offset
#else
fprintf (stderr, "%s line %d; kdmconvalloc32() called\n", __FILE__,
__LINE__);
#endif
}
installbikdmhandlers()
{
#ifdef PLATFORM_DOS
union REGS r;
struct SREGS sr;
long lowp;
void far *fh;
//Get old protected mode handler
r.x.eax = 0x3500+kdmvect; /* DOS get vector (INT 0Ch) */
sr.ds = sr.es = 0;
int386x(0x21,&r,&r,&sr);
kdmpsel = (unsigned short)sr.es;
kdmpoff = r.x.ebx;
//Get old real mode handler
r.x.eax = 0x0200; /* DPMI get real mode vector */
r.h.bl = kdmvect;
int386(0x31,&r,&r);
kdmrseg = (unsigned short)r.x.ecx;
kdmroff = (unsigned short)r.x.edx;
//Allocate memory in low memory to store real mode handler
if ((lowp = kdmconvalloc32(KDMCODEBYTES)) == 0)
{
printf("Can't allocate conventional memory.\n");
exit;
}
memcpy((void *)lowp,(void *)pcrealbuffer,KDMCODEBYTES);
//Set new protected mode handler
r.x.eax = 0x2500+kdmvect; /* DOS set vector (INT 0Ch) */
fh = (void far *)pctimerhandler;
r.x.edx = FP_OFF(fh);
sr.ds = FP_SEG(fh); //DS:EDX == &handler
sr.es = 0;
int386x(0x21,&r,&r,&sr);
//Set new real mode handler (must be after setting protected mode)
r.x.eax = 0x0201;
r.h.bl = kdmvect; //CX:DX == real mode &handler
r.x.ecx = ((lowp>>4)&0xffff); //D32realseg
r.x.edx = 0L; //D32realoff
int386(0x31,&r,&r);
#else
fprintf(stderr,"%s line %d; installbikdmhandlers() called\n", __FILE__,
__LINE__);
#endif
}
uninstallbikdmhandlers()
{
#ifdef PLATFORM_DOS
union REGS r;
struct SREGS sr;
//restore old protected mode handler
r.x.eax = 0x2500+kdmvect; /* DOS set vector (INT 0Ch) */
r.x.edx = kdmpoff;
sr.ds = kdmpsel; /* DS:EDX == &handler */
sr.es = 0;
int386x(0x21,&r,&r,&sr);
//restore old real mode handler
r.x.eax = 0x0201; /* DPMI set real mode vector */
r.h.bl = kdmvect;
r.x.ecx = (unsigned long)kdmrseg; //CX:DX == real mode &handler
r.x.edx = (unsigned long)kdmroff;
int386(0x31,&r,&r);
#else
fprintf(stderr,"%s line %d; uninstallbikdmhandlers() called\n",
__FILE__, __LINE__);
#endif
}