b4e70422a3
* Get rid of the non-functional GT2 loader * Add the UMX loader * Add HQ mixer routines (and make it configurable) * Allow samplerate to be configured at run/playtime * Support >64KHz mixing/playback * Correctly restore non-boost status (The diff to upstream is much smaller now too!) Change-Id: Iaa4ac901ba9cd4123bb225656976e78271353a72
303 lines
7.6 KiB
C
303 lines
7.6 KiB
C
/* MikMod sound library
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(c) 1998, 1999, 2000, 2001 Miodrag Vallat and others - see file AUTHORS
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for complete list.
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This library is free software; you can redistribute it and/or modify
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it under the terms of the GNU Library General Public License as
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published by the Free Software Foundation; either version 2 of
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the License, or (at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU Library General Public License for more details.
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You should have received a copy of the GNU Library General Public
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License along with this library; if not, write to the Free Software
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Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
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02111-1307, USA.
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*/
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/*==============================================================================
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$Id$
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All routines dealing with the manipulation of UNITRK streams
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==============================================================================*/
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#ifdef HAVE_CONFIG_H
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#include "config.h"
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#endif
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#include "mikmod_internals.h"
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#include <string.h>
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/* Unibuffer chunk size */
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#define BUFPAGE 128
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const UWORD unioperands[UNI_LAST] = {
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0, /* not used */
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1, /* UNI_NOTE */
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1, /* UNI_INSTRUMENT */
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1, /* UNI_PTEFFECT0 */
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1, /* UNI_PTEFFECT1 */
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1, /* UNI_PTEFFECT2 */
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1, /* UNI_PTEFFECT3 */
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1, /* UNI_PTEFFECT4 */
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1, /* UNI_PTEFFECT5 */
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1, /* UNI_PTEFFECT6 */
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1, /* UNI_PTEFFECT7 */
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1, /* UNI_PTEFFECT8 */
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1, /* UNI_PTEFFECT9 */
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1, /* UNI_PTEFFECTA */
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1, /* UNI_PTEFFECTB */
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1, /* UNI_PTEFFECTC */
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1, /* UNI_PTEFFECTD */
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1, /* UNI_PTEFFECTE */
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1, /* UNI_PTEFFECTF */
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1, /* UNI_S3MEFFECTA */
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1, /* UNI_S3MEFFECTD */
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1, /* UNI_S3MEFFECTE */
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1, /* UNI_S3MEFFECTF */
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1, /* UNI_S3MEFFECTI */
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1, /* UNI_S3MEFFECTQ */
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1, /* UNI_S3MEFFECTR */
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1, /* UNI_S3MEFFECTT */
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1, /* UNI_S3MEFFECTU */
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0, /* UNI_KEYOFF */
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1, /* UNI_KEYFADE */
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2, /* UNI_VOLEFFECTS */
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1, /* UNI_XMEFFECT4 */
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1, /* UNI_XMEFFECT6 */
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1, /* UNI_XMEFFECTA */
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1, /* UNI_XMEFFECTE1 */
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1, /* UNI_XMEFFECTE2 */
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1, /* UNI_XMEFFECTEA */
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1, /* UNI_XMEFFECTEB */
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1, /* UNI_XMEFFECTG */
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1, /* UNI_XMEFFECTH */
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1, /* UNI_XMEFFECTL */
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1, /* UNI_XMEFFECTP */
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1, /* UNI_XMEFFECTX1 */
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1, /* UNI_XMEFFECTX2 */
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1, /* UNI_ITEFFECTG */
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1, /* UNI_ITEFFECTH */
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1, /* UNI_ITEFFECTI */
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1, /* UNI_ITEFFECTM */
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1, /* UNI_ITEFFECTN */
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1, /* UNI_ITEFFECTP */
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1, /* UNI_ITEFFECTT */
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1, /* UNI_ITEFFECTU */
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1, /* UNI_ITEFFECTW */
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1, /* UNI_ITEFFECTY */
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2, /* UNI_ITEFFECTZ */
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1, /* UNI_ITEFFECTS0 */
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2, /* UNI_ULTEFFECT9 */
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2, /* UNI_MEDSPEED */
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0, /* UNI_MEDEFFECTF1 */
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0, /* UNI_MEDEFFECTF2 */
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0, /* UNI_MEDEFFECTF3 */
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2, /* UNI_OKTARP */
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};
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/* Sparse description of the internal module format
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------------------------------------------------
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A UNITRK stream is an array of bytes representing a single track of a pattern.
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It's made up of 'repeat/length' bytes, opcodes and operands (sort of a assembly
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language):
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rrrlllll
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[REP/LEN][OPCODE][OPERAND][OPCODE][OPERAND] [REP/LEN][OPCODE][OPERAND]..
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^ ^ ^
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|-------ROWS 0 - 0+REP of a track---------| |-------ROWS xx - xx+REP of a track...
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The rep/len byte contains the number of bytes in the current row, _including_
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the length byte itself (So the LENGTH byte of row 0 in the previous example
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would have a value of 5). This makes it easy to search through a stream for a
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particular row. A track is concluded by a 0-value length byte.
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The upper 3 bits of the rep/len byte contain the number of times -1 this row
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is repeated for this track. (so a value of 7 means this row is repeated 8 times)
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Opcodes can range from 1 to 255 but currently only opcodes 1 to 62 are being
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used. Each opcode can have a different number of operands. You can find the
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number of operands to a particular opcode by using the opcode as an index into
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the 'unioperands' table.
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*/
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/*========== Reading routines */
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static UBYTE *rowstart; /* startadress of a row */
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static UBYTE *rowend; /* endaddress of a row (exclusive) */
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static UBYTE *rowpc; /* current unimod(tm) programcounter */
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static UBYTE lastbyte; /* for UniSkipOpcode() */
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void UniSetRow(UBYTE* t)
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{
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rowstart = t;
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rowpc = rowstart;
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rowend = t?rowstart+(*(rowpc++)&0x1f):t;
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}
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UBYTE UniGetByte(void)
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{
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return lastbyte = (rowpc<rowend)?*(rowpc++):0;
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}
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UWORD UniGetWord(void)
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{
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return ((UWORD)UniGetByte()<<8)|UniGetByte();
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}
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void UniSkipOpcode(void)
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{
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if (lastbyte < UNI_LAST) {
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UWORD t = unioperands[lastbyte];
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while (t--)
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UniGetByte();
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}
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}
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/* Finds the address of row number 'row' in the UniMod(tm) stream 't' returns
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NULL if the row can't be found. */
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UBYTE *UniFindRow(UBYTE* t,UWORD row)
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{
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UBYTE c,l;
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if(t)
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while(1) {
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c = *t; /* get rep/len byte */
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if(!c) return NULL; /* zero ? -> end of track.. */
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l = (c>>5)+1; /* extract repeat value */
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if(l>row) break; /* reached wanted row? -> return pointer */
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row -= l; /* haven't reached row yet.. update row */
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t += c&0x1f; /* point t to the next row */
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}
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return t;
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}
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/*========== Writing routines */
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static UBYTE *unibuf; /* pointer to the temporary unitrk buffer */
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static UWORD unimax; /* buffer size */
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static UWORD unipc; /* buffer cursor */
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static UWORD unitt; /* current row index */
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static UWORD lastp; /* previous row index */
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/* Resets index-pointers to create a new track. */
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void UniReset(void)
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{
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unitt = 0; /* reset index to rep/len byte */
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unipc = 1; /* first opcode will be written to index 1 */
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lastp = 0; /* no previous row yet */
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unibuf[0] = 0; /* clear rep/len byte */
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}
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/* Expands the buffer */
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static int UniExpand(int wanted)
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{
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if ((unipc+wanted)>=unimax) {
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UBYTE *newbuf;
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/* Expand the buffer by BUFPAGE bytes */
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newbuf=(UBYTE*)MikMod_realloc(unibuf,(unimax+BUFPAGE)*sizeof(UBYTE));
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/* Check if MikMod_realloc succeeded */
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if(newbuf) {
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unibuf = newbuf;
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unimax+=BUFPAGE;
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return 1;
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} else
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return 0;
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}
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return 1;
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}
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/* Appends one byte of data to the current row of a track. */
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void UniWriteByte(UBYTE data)
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{
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if (UniExpand(1))
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/* write byte to current position and update */
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unibuf[unipc++]=data;
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}
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void UniWriteWord(UWORD data)
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{
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if (UniExpand(2)) {
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unibuf[unipc++]=data>>8;
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unibuf[unipc++]=data&0xff;
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}
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}
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static int MyCmp(const UBYTE* a,const UBYTE* b,UWORD l)
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{
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UWORD t;
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for(t=0;t<l;t++)
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if(*(a++)!=*(b++)) return 0;
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return 1;
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}
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/* Closes the current row of a unitrk stream (updates the rep/len byte) and sets
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pointers to start a new row. */
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void UniNewline(void)
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{
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UWORD n,l,len;
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n = (unibuf[lastp]>>5)+1; /* repeat of previous row */
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l = (unibuf[lastp]&0x1f); /* length of previous row */
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len = unipc-unitt; /* length of current row */
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/* Now, check if the previous and the current row are identical.. when they
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are, just increase the repeat field of the previous row */
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if(n<8 && len==l && MyCmp(&unibuf[lastp+1],&unibuf[unitt+1],len-1)) {
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unibuf[lastp]+=0x20;
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unipc = unitt+1;
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} else {
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if (UniExpand(unitt-unipc)) {
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/* current and previous row aren't equal... update the pointers */
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unibuf[unitt] = len;
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lastp = unitt;
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unitt = unipc++;
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}
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}
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}
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/* Terminates the current unitrk stream and returns a pointer to a copy of the
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stream. */
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UBYTE* UniDup(void)
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{
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void *d;
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if (!UniExpand(unipc-unitt)) return NULL;
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unibuf[unitt] = 0;
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if(!(d=MikMod_malloc(unipc))) return NULL;
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memcpy(d,unibuf,unipc);
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return (UBYTE *)d;
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}
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int UniInit(void)
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{
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unimax = BUFPAGE;
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if(!(unibuf=(UBYTE*)MikMod_malloc(unimax*sizeof(UBYTE)))) return 0;
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return 1;
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}
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void UniCleanup(void)
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{
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MikMod_free(unibuf);
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unibuf = NULL;
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}
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/* ex:set ts=4: */
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