view playercode/munitrk.c @ 19:84565bb86869

Makefile Added clean rule
author darius
date Thu, 23 Apr 1998 22:59:21 +0000
parents d14fd386d182
children
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/*

Name:
MUNITRK.C

Description:
All routines dealing with the manipulation of UNITRK(tm) streams

Portability:
All systems - all compilers

*/

#include <string.h>
#include "mikmod.h"

#define BUFPAGE  128            // smallest unibuffer size
#define TRESHOLD 16

UWORD unioperands[256] =
{   0,              // not used
    1,              // UNI_NOTE
    1,              // UNI_INSTRUMENT
    1,              // UNI_PTEFFECT0
    1,              // UNI_PTEFFECT1
    1,              // UNI_PTEFFECT2
    1,              // UNI_PTEFFECT3
    1,              // UNI_PTEFFECT4
    1,              // UNI_PTEFFECT5
    1,              // UNI_PTEFFECT6
    1,              // UNI_PTEFFECT7
    1,              // UNI_PTEFFECT8
    1,              // UNI_PTEFFECT9
    1,              // UNI_PTEFFECTA
    1,              // UNI_PTEFFECTB
    1,              // UNI_PTEFFECTC
    1,              // UNI_PTEFFECTD
    1,              // UNI_PTEFFECTE
    1,              // UNI_PTEFFECTF
    1,              // UNI_S3MEFFECTA
    1,              // UNI_S3MEFFECTD
    1,              // UNI_S3MEFFECTE
    1,              // UNI_S3MEFFECTF
    1,              // UNI_S3MEFFECTI
    1,              // UNI_S3MEFFECTQ
    1,              // UNI_S3MEFFECTR
    1,              // UNI_S3MEFFECTT
    1,              // UNI_S3MEFFECTU
    0,              // UNI_KEYOFF
    1,              // UNI_KEYFADE
    2,              // UNI_VOLEFFECTS
    1,              // UNI_XMEFFECT4
    1,              // UNI_XMEFFECTA
    1,              // UNI_XMEFFECTE1
    1,              // UNI_XMEFFECTE2
    1,              // UNI_XMEFFECTEA
    1,              // UNI_XMEFFECTEB
    1,              // UNI_XMEFFECTG
    1,              // UNI_XMEFFECTH
    1,              // UNI_XMEFFECTL
    1,              // UNI_XMEFFECTP
    1,              // UNI_XMEFFECTX1
    1,              // UNI_XMEFFECTX2
    1,              // UNI_ITEFFECTG
    1,              // UNI_ITEFFECTH
    1,              // UNI_ITEFFECTI
    1,              // UNI_ITEFFECTM
    1,              // UNI_ITEFFECTN
    1,              // UNI_ITEFFECTP
    1,              // UNI_ITEFFECTU
    1,              // UNI_ITEFFECTW
    1,              // UNI_ITEFFECTY
    1               // UNI_ITEFFECTS0
};


// unibuffer is increased by BUFPAGE
// bytes when unipc reaches unimax-TRESHOLD


/*
    Ok.. I'll try to explain the new internal module format.. so here it goes:


    The UNITRK(tm) Format:
    ======================

    A UNITRK stream is an array of bytes representing a single track
    of a pattern. It's made up of 'repeat/length' bytes, opcodes and
    operands (sort of a assembly language):

    rrrlllll
    [REP/LEN][OPCODE][OPERAND][OPCODE][OPERAND] [REP/LEN][OPCODE][OPERAND]..
    ^                                         ^ ^
    |-------ROWS 0 - 0+REP of a track---------| |-------ROWS xx - xx+REP of a track...


    The rep/len byte contains the number of bytes in the current row,
    _including_ the length byte itself (So the LENGTH byte of row 0 in the
    previous example would have a value of 5). This makes it easy to search
    through a stream for a particular row. A track is concluded by a 0-value
    length byte.

    The upper 3 bits of the rep/len byte contain the number of times -1 this
    row is repeated for this track. (so a value of 7 means this row is repeated
    8 times)

    Opcodes can range from 1 to 255 but currently only opcodes 1 to 45 are
    being used. Each opcode can have a different number of operands. You can
    find the number of operands to a particular opcode by using the opcode
    as an index into the 'unioperands' table.

*/


/***************************************************************************
>>>>>>>>>>> Next are the routines for reading a UNITRK stream: <<<<<<<<<<<<<
***************************************************************************/


static UBYTE *rowstart;     // startadress of a row
static UBYTE *rowend;       // endaddress of a row (exclusive)
static UBYTE *rowpc;        // current unimod(tm) programcounter


void UniSetRow(UBYTE *t)
{
    rowstart = t;
    rowpc    = rowstart;
    rowend   = rowstart+(*(rowpc++)&0x1f);
}


UBYTE UniGetByte(void)
{
    return (rowpc<rowend) ? *(rowpc++) : 0;
}


void UniSkipOpcode(UBYTE op)
{
    UWORD t = unioperands[op];
    while(t--) UniGetByte();
}


UBYTE *UniFindRow(UBYTE *t, UWORD row)
//  Finds the address of row number 'row' in the UniMod(tm) stream 't'
//  returns NULL if the row can't be found.
{
    UBYTE c,l;

    while(1)
    {   c = *t;                  // get rep/len byte
        if(!c) return NULL;      // zero ? -> end of track..
        l = (c>>5)+1;            // extract repeat value
        if(l>row) break;         // reached wanted row? -> return pointer
        row -= l;                // haven't reached row yet.. update row
        t += c&0x1f;             // point t to the next row
    }

    return t;
}



/***************************************************************************
>>>>>>>>>>> Next are the routines for CREATING UNITRK streams: <<<<<<<<<<<<<
***************************************************************************/


static UBYTE *unibuf;       // pointer to the temporary unitrk buffer
static UWORD unimax;        // maximum number of bytes to be written to this buffer

static UWORD unipc;         // index in the buffer where next opcode will be written
static UWORD unitt;         // holds index of the rep/len byte of a row
static UWORD lastp;         // holds index to the previous row (needed for compressing)


void UniReset(void)
// Resets index-pointers to create a new track.
{
    unitt     = 0;   // reset index to rep/len byte
    unipc     = 1;   // first opcode will be written to index 1
    lastp     = 0;   // no previous row yet
    unibuf[0] = 0;   // clear rep/len byte
}


void UniWrite(UBYTE data)
// Appends one byte of data to the current row of a track.
{
    // write byte to current position and update

    unibuf[unipc++] = data;

    // Check if we've reached the end of the buffer

    if(unipc > (unimax-TRESHOLD))
    {   UBYTE *newbuf;

        // We've reached the end of the buffer, so expand
        // the buffer by BUFPAGE bytes

        newbuf = (UBYTE *)realloc(unibuf, unimax+BUFPAGE);

        // Check if realloc succeeded

        if(newbuf!=NULL)
        {   unibuf = newbuf;
            unimax+=BUFPAGE;
        } else
        {   // realloc failed, so decrease unipc so we won't write beyond
            // the end of the buffer.. I don't report the out-of-memory
            // here; the UniDup() will fail anyway so that's where the
            // loader sees that something went wrong

            unipc--;
        }
    }
}


BOOL MyCmp(UBYTE *a, UBYTE *b, UWORD l)
{
    UWORD t;

    for(t=0; t<l; t++)
        if(*(a++) != *(b++)) return 0;
    return 1;
}


void UniNewline(void)
// Closes the current row of a unitrk stream (updates the rep/len byte)
// and sets pointers to start a new row.
{
    UWORD n,l,len;

    n = (unibuf[lastp]>>5)+1;     // repeat of previous row
    l = (unibuf[lastp]&0x1f);     // length of previous row

    len = unipc-unitt;            // length of current row

    // Now, check if the previous and the current row are identical..
    // when they are, just increase the repeat field of the previous row

    if(n<8 && len==l && MyCmp(&unibuf[lastp+1],&unibuf[unitt+1],len-1))
    {   unibuf[lastp]+=0x20;
        unipc = unitt+1;
    } else
    {   // current and previous row aren't equal.. so just update the pointers

        unibuf[unitt] = len;
        lastp = unitt;
        unitt = unipc;
        unipc++;
    }
}


UBYTE *UniDup(void)
// Terminates the current unitrk stream and returns a pointer
// to a copy of the stream.
{
    UBYTE *d;

    unibuf[unitt] = 0;

    if((d=(UBYTE *)_mm_malloc(unipc))==NULL) return NULL;
    memcpy(d,unibuf,unipc);

    return d;
}


UWORD TrkLen(UBYTE *t)
// Determines the length (in rows) of a unitrk stream 't'
{
    UWORD len = 0;
    UBYTE c;

    while(c = *t & 0x1f)
    {   len += c;
        t   += c;
    }
    len++;

    return len;
}


BOOL UniInit(void)
{
    unimax = BUFPAGE;

    if(!(unibuf=(UBYTE *)_mm_malloc(unimax)))  return 0;
    return 1;
}


void UniCleanup(void)
{
    if(unibuf!=NULL) free(unibuf);
    unibuf = NULL;
}