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FishMarket 1.0
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FishMarket v1.0.iso
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fishies
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326-350
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disk_349
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med
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source
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player.zoo
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songloader.c
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C/C++ Source or Header
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1990-04-08
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8KB
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312 lines
/* songloader.c by Teijo Kinnunen 1990 */
#include <exec/types.h>
#include <exec/memory.h>
#include <libraries/dos.h>
#ifdef LATTICE
#include <dos.h>
#include <string.h>
#include <proto/exec.h>
#include <proto/dos.h>
#endif
UWORD chip zeroptr;
struct ObjSong {
UBYTE vol[32];
UWORD rep[32],replen[32];
UWORD blocks;
UBYTE playseq[100];
UWORD songlen;
BYTE playtransp;
UBYTE flags;
UWORD slide;
UBYTE midichan[32],midipres[32];
} song;
static UWORD lohkoja,tempo;
struct Lohko { UBYTE numtracks; UBYTE pad[3]; UBYTE music[768]; } *blocks[100];
struct Soitin { ULONG length; UWORD type; } *samples[32];
#define M0F_LINEMSK0F 0x1
#define M0F_LINEMSK1F 0x2
#define M0F_FXMSK0F 0x4
#define M0F_FXMSK1F 0x8
#define M0F_LINEMSK00 0x10
#define M0F_LINEMSK10 0x20
#define M0F_FXMSK00 0x40
#define M0F_FXMSK10 0x80
BOOL LataaKappale();
static BOOL NewInstrument(),diskerr(),AllocBlock();
static void FreeBlocksAndSamples();
static BOOL FRead(fh,ptr,len)
BPTR fh;
char *ptr;
long len;
{
return((BOOL)(Read(fh,ptr,len) != len));
}
static UBYTE GetNibble(mem,nbnum)
UBYTE *mem;
UWORD *nbnum;
{
UBYTE *mloc = mem + (*nbnum / 2),res;
if(*nbnum & 0x1) res = *mloc & 0x0f;
else res = *mloc >> 4;
(*nbnum)++;
return(res);
}
static UWORD GetNibbles(mem,nbnum,nbs)
UBYTE *mem;
UWORD *nbnum;
UBYTE nbs;
{
UWORD res = 0;
while(nbs--) { res <<= 4; res |= GetNibble(mem,nbnum); }
return(res);
}
static void UnpackBlock(bnum,from)
UWORD bnum;
UBYTE *from;
{
UBYTE *to = blocks[bnum]->music,lcnt,trkn = blocks[bnum]->numtracks;
ULONG linemsk0 = *((ULONG *)from),linemsk1 = *((ULONG *)from + 1);
ULONG fxmsk0 = *((ULONG *)from + 2),fxmsk1 = *((ULONG *)from + 3);
ULONG *lmptr = &linemsk0,*fxptr = &fxmsk0;
UWORD fromn = 0,lmsk;
UBYTE *fromst = from + 16,bcnt,*tmpto;
from += 16;
for(lcnt = 0; lcnt < 64; lcnt++) {
if(lcnt == 32) { lmptr = &linemsk1; fxptr = &fxmsk1; }
if(*lmptr & 0x80000000) {
lmsk = GetNibbles(fromst,&fromn,(UBYTE)(trkn / 4));
lmsk <<= (16 - trkn);
tmpto = to;
for(bcnt = 0; bcnt < trkn; bcnt++) {
if(lmsk & 0x8000) {
*tmpto = (UBYTE)GetNibbles(fromst,
&fromn,2);
*(tmpto+1) = (GetNibble(fromst,
&fromn) << 4);
}
lmsk <<= 1; tmpto += 3;
}
}
if(*fxptr & 0x80000000) {
lmsk = GetNibbles(fromst,&fromn,(UBYTE)(trkn / 4));
lmsk <<= (16 - trkn);
tmpto = to;
for(bcnt = 0; bcnt < trkn; bcnt++) {
if(lmsk & 0x8000) {
*(tmpto+1) |= GetNibble(fromst,
&fromn);
*(tmpto+2) = (UBYTE)GetNibbles(
fromst,&fromn,2);
}
lmsk <<= 1; tmpto += 3;
}
}
to += 3 * trkn;
*lmptr <<= 1; *fxptr <<= 1;
}
}
static BOOL Load200Song(fh)
BPTR fh;
{
ULONG zmsk,*conv = 0;
UWORD convsz;
UBYTE scnt,namech,blkcnt;
if(FRead(fh,(char *)(&zmsk),4)) return(diskerr(fh,0)); /* MED\x03 */
for(scnt = 0; scnt < 32; scnt++) {
for(;;) {
if(FRead(fh,&namech,1)) return(diskerr(fh,0));
if(namech == '\0') break;
}
}
if(FRead(fh,(char *)(&zmsk),4)) return(diskerr(fh,0));
for(scnt = 0; scnt < 32; scnt++) {
if(zmsk & 0x80000000) {
if(FRead(fh,&song.vol[scnt],1)) return(diskerr(fh,0));
} else song.vol[scnt] = 0;
zmsk <<= 1;
}
if(FRead(fh,(char *)(&zmsk),4)) return(diskerr(fh,0));
for(scnt = 0; scnt < 32; scnt++) {
if(zmsk & 0x80000000) {
if(FRead(fh,(char *)(&song.rep[scnt]),2)) return(diskerr(fh,0));
} else song.rep[scnt] = 0;
zmsk <<= 1;
}
if(FRead(fh,(char *)(&zmsk),4)) return(diskerr(fh,0));
for(scnt = 0; scnt < 32; scnt++) {
if(zmsk & 0x80000000) {
if(FRead(fh,(char *)(&song.replen[scnt]),2)) return(diskerr(fh,0));
} else song.replen[scnt] = 0;
zmsk <<= 1;
}
if(FRead(fh,(char *)(&song.blocks),2)) return(diskerr(fh,0));
if(FRead(fh,(char *)(&song.songlen),2)) return(diskerr(fh,0));
if(FRead(fh,song.playseq,song.songlen)) return(diskerr(fh,0));
if(FRead(fh,(char *)(&tempo),2)) return(diskerr(fh,0));
if(FRead(fh,(char *)(&song.playtransp),4)) return(diskerr(fh,0));
for(scnt = 0; scnt < 20; scnt++) { /* skip 20 bytes (jump,color) */
if(FRead(fh,&namech,1)) return(diskerr(fh,0));
}
if(FRead(fh,(char *)(&zmsk),4)) return(diskerr(fh,0));
for(scnt = 0; scnt < 32; scnt++) {
if(zmsk & 0x80000000) {
if(FRead(fh,&song.midichan[scnt],1)) return(diskerr(fh,0));
} else song.midichan[scnt] = 0;
zmsk <<= 1;
}
if(FRead(fh,(char *)(&zmsk),4)) return(diskerr(fh,0));
for(scnt = 0; scnt < 32; scnt++) {
if(zmsk & 0x80000000) {
if(FRead(fh,&song.midipres[scnt],1)) return(diskerr(fh,0));
} else song.midipres[scnt] = 0;
zmsk <<= 1;
}
lohkoja = 0;
for(blkcnt = 0; blkcnt < song.blocks; blkcnt++) {
if(FRead(fh,&scnt,1)) return(diskerr(fh,0));
if(AllocBlock(blkcnt,scnt)) return(diskerr(fh,"No memory."));
lohkoja++;
if(FRead(fh,&scnt,1)) return(diskerr(fh,0));
if(FRead(fh,(char *)(&convsz),2)) return(diskerr(fh,0));
if(!(conv = AllocMem(convsz+16,MEMF_PUBLIC|MEMF_CLEAR))) return(diskerr(fh,"No memory."));
if(scnt & M0F_LINEMSK00) *conv = 0L;
else if(scnt & M0F_LINEMSK0F) *conv = 0xffffffff;
else if(FRead(fh,(UBYTE *)conv,4)) return(diskerr(fh,0));
if(scnt & M0F_LINEMSK10) *(conv+1) = 0L;
else if(scnt & M0F_LINEMSK1F) *(conv+1) = 0xffffffff;
else if(FRead(fh,(UBYTE *)(conv + 1),4)) return(diskerr(fh,0));
if(scnt & M0F_FXMSK00) *(conv+2) = 0L;
else if(scnt & M0F_FXMSK0F) *(conv+2) = 0xffffffff;
else if(FRead(fh,(UBYTE *)(conv + 2),4)) return(diskerr(fh,0));
if(scnt & M0F_FXMSK10) *(conv+3) = 0L;
else if(scnt & M0F_FXMSK1F) *(conv+3) = 0xffffffff;
else if(FRead(fh,(UBYTE *)(conv + 3),4)) return(diskerr(fh,0));
if(FRead(fh,(UBYTE *)(conv + 4),convsz)) return(diskerr(fh,0));
UnpackBlock((UWORD)blkcnt,(UBYTE *)conv);
FreeMem(conv,convsz+16); conv = 0;
}
return(FALSE);
}
static BOOL LoadAttachedInstrs(fh)
BPTR fh;
{
ULONG imsk,instrnum;
struct Soitin loaded;
if(FRead(fh,(char *)(&imsk),4)) return(diskerr(0,0));
instrnum = 0;
while(instrnum < 31) {
imsk <<= 1; /* There's no instrument #0 */
instrnum++;
if(imsk & 0x80000000) {
if(FRead(fh,(char *)(&loaded),sizeof(struct Soitin)))
return(diskerr(0,0));
if(NewInstrument(loaded.length,instrnum))
return(diskerr(0,"Out of memory."));
samples[instrnum]->type = loaded.type;
if(FRead(fh,((char *)samples[instrnum]) +
sizeof(struct Soitin),loaded.length))
return(diskerr(0,0));
}
}
return(FALSE);
}
static BOOL NewInstrument(size,num)
ULONG size;
UWORD num;
{
if(samples[num]) {
FreeMem((void *)samples[num],samples[num]->length +
sizeof(struct Soitin));
samples[num] = NULL;
}
samples[num] = AllocMem(size + sizeof(struct Soitin),
MEMF_PUBLIC|MEMF_CHIP|MEMF_CLEAR);
if(!samples[num]) return(TRUE);
samples[num]->length = size;
return(FALSE);
}
BOOL LoadSong(name)
char *name;
{
BPTR fh;
char tunnus[5];
StopPlayer();
FreeBlocksAndSamples();
if(!(fh = Open(name,MODE_OLDFILE))) return(diskerr(fh,0));
if(Read(fh,tunnus,4) != 4) return(diskerr(fh,"Not a song!"));
tunnus[4] = '\0';
Seek(fh,0,OFFSET_BEGINNING);
if(AllocBlock(0,4)) return(diskerr(fh,"No memory."));
lohkoja = 0;
if(!strcmp(tunnus,"MED\x03")) {
if(Load200Song(fh)) return(diskerr(fh,0));
} else return(diskerr(fh,"Not a MEDV2.00 song!!"));
if(song.flags & 0x8) LoadAttachedInstrs(fh);
Close(fh);
SetTempo(tempo);
return(FALSE);
}
static BOOL diskerr(fh,txt)
BPTR fh;
char *txt; /* some text about error (if 0, call IoErr()) */
{
if(fh) Close(fh);
/* Add code here, if you want error handling. */
return(TRUE);
}
static void FreeBlock(num)
UWORD num;
{
if(blocks[num]) {
FreeMem(blocks[num],4 + blocks[num]->numtracks * 3 * 64);
blocks[num] = 0L;
}
}
static BOOL AllocBlock(num,tracks) /* TRUE = error, FALSE = ok!! */
UWORD num;
UBYTE tracks;
{
if(blocks[num]) {
if(blocks[num]->numtracks == tracks) return(FALSE);
FreeBlock(num);
}
if(!(blocks[num] = AllocMem(4 + (3 * 64) * tracks,MEMF_PUBLIC|
MEMF_CLEAR))) return(TRUE);
blocks[num]->numtracks = tracks;
return(FALSE);
}
static void FreeAllBlocks()
{
int cnt;
for(cnt = 0; cnt < 100; cnt++) FreeBlock(cnt);
}
static void FreeSamples()
{
UWORD scnt;
for(scnt = 1; scnt < 32; scnt++)
if(samples[scnt]) {
FreeMem((void *)samples[scnt],samples[scnt]->length
+ sizeof(struct Soitin));
samples[scnt] = NULL;
}
}
void FreeBlocksAndSamples()
{
FreeAllBlocks();
FreeSamples();
}
