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/* ScummVM - Graphic Adventure Engine
*
* ScummVM is the legal property of its developers , whose names
* are too numerous to list here . Please refer to the COPYRIGHT
* file distributed with this source distribution .
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*
* This program is free software ; you can redistribute it and / or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation ; either version 2
* of the License , or ( at your option ) any later version .
* This program is distributed in the hope that it will be useful ,
* but WITHOUT ANY WARRANTY ; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the
* GNU General Public License for more details .
* You should have received a copy of the GNU General Public License
* along with this program ; if not , write to the Free Software
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* Foundation , Inc . , 51 Franklin Street , Fifth Floor , Boston , MA 02110 - 1301 , USA .
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*
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* $ URL $
* $ Id $
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*
* LGPL licensed version of MAMEs fmopl ( V0 .37 a modified ) by
* Tatsuyuki Satoh . Included from LGPL ' ed AdPlug .
*/
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# include <stdio.h>
# include <stdlib.h>
# include <string.h>
# include <stdarg.h>
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# include <math.h>
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# include "sound/fmopl.h"
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# if defined (_WIN32_WCE) || defined (__SYMBIAN32__) || defined(PALMOS_MODE) || defined(__GP32__) || defined(GP2X) || defined (__MAEMO__) || defined(__DS__) || defined (__MINT__)
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# include "common/config-manager.h"
# endif
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/* -------------------- preliminary define section --------------------- */
/* attack/decay rate time rate */
# define OPL_ARRATE 141280 /* RATE 4 = 2826.24ms @ 3.6MHz */
# define OPL_DRRATE 1956000 /* RATE 4 = 39280.64ms @ 3.6MHz */
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# define FREQ_BITS 24 /* frequency turn */
/* counter bits = 20 , octerve 7 */
# define FREQ_RATE (1<<(FREQ_BITS-20))
# define TL_BITS (FREQ_BITS+2)
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/* final output shift , limit minimum and maximum */
# define OPL_OUTSB (TL_BITS+3-16) /* OPL output final shift 16bit */
# define OPL_MAXOUT (0x7fff<<OPL_OUTSB)
# define OPL_MINOUT (-0x8000<<OPL_OUTSB)
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/* -------------------- quality selection --------------------- */
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/* sinwave entries */
/* used static memory = SIN_ENT * 4 (byte) */
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# ifdef __DS__
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# include "dsmain.h"
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# define SIN_ENT_SHIFT 8
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# else
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# define SIN_ENT_SHIFT 11
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# endif
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# define SIN_ENT (1<<SIN_ENT_SHIFT)
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/* output level entries (envelope,sinwave) */
/* envelope counter lower bits */
int ENV_BITS ;
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/* envelope output entries */
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int EG_ENT ;
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/* used dynamic memory = EG_ENT*4*4(byte)or EG_ENT*6*4(byte) */
/* used static memory = EG_ENT*4 (byte) */
int EG_OFF ; /* OFF */
int EG_DED ;
int EG_DST ; /* DECAY START */
int EG_AED ;
# define EG_AST 0 /* ATTACK START */
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# define EG_STEP (96.0 / EG_ENT) /* OPL is 0.1875 dB step */
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/* LFO table entries */
# define VIB_ENT 512
# define VIB_SHIFT (32-9)
# define AMS_ENT 512
# define AMS_SHIFT (32-9)
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# define VIB_RATE_SHIFT 8
# define VIB_RATE (1<<VIB_RATE_SHIFT)
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/* -------------------- local defines , macros --------------------- */
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/* register number to channel number , slot offset */
# define SLOT1 0
# define SLOT2 1
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/* envelope phase */
# define ENV_MOD_RR 0x00
# define ENV_MOD_DR 0x01
# define ENV_MOD_AR 0x02
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/* -------------------- tables --------------------- */
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static const int slot_array [ 32 ] = {
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0 , 2 , 4 , 1 , 3 , 5 , - 1 , - 1 ,
6 , 8 , 10 , 7 , 9 , 11 , - 1 , - 1 ,
12 , 14 , 16 , 13 , 15 , 17 , - 1 , - 1 ,
- 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1
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} ;
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static uint KSL_TABLE [ 8 * 16 ] ;
static const double KSL_TABLE_SEED [ 8 * 16 ] = {
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/* OCT 0 */
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0.000 , 0.000 , 0.000 , 0.000 ,
0.000 , 0.000 , 0.000 , 0.000 ,
0.000 , 0.000 , 0.000 , 0.000 ,
0.000 , 0.000 , 0.000 , 0.000 ,
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/* OCT 1 */
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0.000 , 0.000 , 0.000 , 0.000 ,
0.000 , 0.000 , 0.000 , 0.000 ,
0.000 , 0.750 , 1.125 , 1.500 ,
1.875 , 2.250 , 2.625 , 3.000 ,
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/* OCT 2 */
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0.000 , 0.000 , 0.000 , 0.000 ,
0.000 , 1.125 , 1.875 , 2.625 ,
3.000 , 3.750 , 4.125 , 4.500 ,
4.875 , 5.250 , 5.625 , 6.000 ,
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/* OCT 3 */
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0.000 , 0.000 , 0.000 , 1.875 ,
3.000 , 4.125 , 4.875 , 5.625 ,
6.000 , 6.750 , 7.125 , 7.500 ,
7.875 , 8.250 , 8.625 , 9.000 ,
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/* OCT 4 */
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0.000 , 0.000 , 3.000 , 4.875 ,
6.000 , 7.125 , 7.875 , 8.625 ,
9.000 , 9.750 , 10.125 , 10.500 ,
10.875 , 11.250 , 11.625 , 12.000 ,
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/* OCT 5 */
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0.000 , 3.000 , 6.000 , 7.875 ,
9.000 , 10.125 , 10.875 , 11.625 ,
12.000 , 12.750 , 13.125 , 13.500 ,
13.875 , 14.250 , 14.625 , 15.000 ,
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/* OCT 6 */
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0.000 , 6.000 , 9.000 , 10.875 ,
12.000 , 13.125 , 13.875 , 14.625 ,
15.000 , 15.750 , 16.125 , 16.500 ,
16.875 , 17.250 , 17.625 , 18.000 ,
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/* OCT 7 */
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0.000 , 9.000 , 12.000 , 13.875 ,
15.000 , 16.125 , 16.875 , 17.625 ,
18.000 , 18.750 , 19.125 , 19.500 ,
19.875 , 20.250 , 20.625 , 21.000
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} ;
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/* sustain level table (3db per step) */
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/* 0 - 15: 0, 3, 6, 9,12,15,18,21,24,27,30,33,36,39,42,93 (dB)*/
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static int SL_TABLE [ 16 ] ;
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static const uint SL_TABLE_SEED [ 16 ] = {
0 , 1 , 2 , 3 , 4 , 5 , 6 , 7 , 8 , 9 , 10 , 11 , 12 , 13 , 14 , 31
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} ;
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# define TL_MAX (EG_ENT * 2) /* limit(tl + ksr + envelope) + sinwave */
/* TotalLevel : 48 24 12 6 3 1.5 0.75 (dB) */
/* TL_TABLE[ 0 to TL_MAX ] : plus section */
/* TL_TABLE[ TL_MAX to TL_MAX+TL_MAX-1 ] : minus section */
static int * TL_TABLE ;
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/* pointers to TL_TABLE with sinwave output offset */
static int * * SIN_TABLE ;
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/* LFO table */
static int * AMS_TABLE ;
static int * VIB_TABLE ;
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/* envelope output curve table */
/* attack + decay + OFF */
//static int ENV_CURVE[2*EG_ENT+1];
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//static int ENV_CURVE[2 * 4096 + 1]; // to keep it static ...
static int * ENV_CURVE ;
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/* multiple table */
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# define ML(a) (int)(a * 2)
static const uint MUL_TABLE [ 16 ] = {
/* 1/2, 1, 2, 3, 4, 5, 6, 7, 8, 9,10,11,12,13,14,15 */
ML ( 0.50 ) , ML ( 1.00 ) , ML ( 2.00 ) , ML ( 3.00 ) , ML ( 4.00 ) , ML ( 5.00 ) , ML ( 6.00 ) , ML ( 7.00 ) ,
ML ( 8.00 ) , ML ( 9.00 ) , ML ( 10.00 ) , ML ( 10.00 ) , ML ( 12.00 ) , ML ( 12.00 ) , ML ( 15.00 ) , ML ( 15.00 )
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} ;
# undef ML
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/* dummy attack / decay rate ( when rate == 0 ) */
static int RATE_0 [ 16 ] =
{ 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 } ;
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/* -------------------- static state --------------------- */
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/* lock level of common table */
static int num_lock = 0 ;
/* work table */
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static void * cur_chip = NULL ; /* current chip point */
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/* currenct chip state */
/* static OPLSAMPLE *bufL,*bufR; */
static OPL_CH * S_CH ;
static OPL_CH * E_CH ;
OPL_SLOT * SLOT7_1 , * SLOT7_2 , * SLOT8_1 , * SLOT8_2 ;
static int outd [ 1 ] ;
static int ams ;
static int vib ;
int * ams_table ;
int * vib_table ;
static int amsIncr ;
static int vibIncr ;
static int feedback2 ; /* connect for SLOT 2 */
/* --------------------- rebuild tables ------------------- */
# define SC_KSL(mydb) ((uint) (mydb / (EG_STEP / 2)))
# define SC_SL(db) (int)(db * ((3 / EG_STEP) * (1 << ENV_BITS))) + EG_DST
void OPLBuildTables ( int ENV_BITS_PARAM , int EG_ENT_PARAM ) {
int i ;
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ENV_BITS = ENV_BITS_PARAM ;
EG_ENT = EG_ENT_PARAM ;
EG_OFF = ( ( 2 * EG_ENT ) < < ENV_BITS ) ; /* OFF */
EG_DED = EG_OFF ;
EG_DST = ( EG_ENT < < ENV_BITS ) ; /* DECAY START */
EG_AED = EG_DST ;
//EG_STEP = (96.0/EG_ENT);
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for ( i = 0 ; i < ARRAYSIZE ( KSL_TABLE_SEED ) ; i + + )
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KSL_TABLE [ i ] = SC_KSL ( KSL_TABLE_SEED [ i ] ) ;
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for ( i = 0 ; i < ARRAYSIZE ( SL_TABLE_SEED ) ; i + + )
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SL_TABLE [ i ] = SC_SL ( SL_TABLE_SEED [ i ] ) ;
}
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# undef SC_KSL
# undef SC_SL
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/* --------------------- subroutines --------------------- */
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/* status set and IRQ handling */
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inline void OPL_STATUS_SET ( FM_OPL * OPL , int flag ) {
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/* set status flag */
OPL - > status | = flag ;
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if ( ! ( OPL - > status & 0x80 ) ) {
if ( OPL - > status & OPL - > statusmask ) { /* IRQ on */
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OPL - > status | = 0x80 ;
/* callback user interrupt handler (IRQ is OFF to ON) */
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if ( OPL - > IRQHandler )
( OPL - > IRQHandler ) ( OPL - > IRQParam , 1 ) ;
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}
}
}
/* status reset and IRQ handling */
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inline void OPL_STATUS_RESET ( FM_OPL * OPL , int flag ) {
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/* reset status flag */
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OPL - > status & = ~ flag ;
if ( ( OPL - > status & 0x80 ) ) {
if ( ! ( OPL - > status & OPL - > statusmask ) ) {
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OPL - > status & = 0x7f ;
/* callback user interrupt handler (IRQ is ON to OFF) */
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if ( OPL - > IRQHandler ) ( OPL - > IRQHandler ) ( OPL - > IRQParam , 0 ) ;
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}
}
}
/* IRQ mask set */
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inline void OPL_STATUSMASK_SET ( FM_OPL * OPL , int flag ) {
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OPL - > statusmask = flag ;
/* IRQ handling check */
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OPL_STATUS_SET ( OPL , 0 ) ;
OPL_STATUS_RESET ( OPL , 0 ) ;
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}
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/* ----- key on ----- */
inline void OPL_KEYON ( OPL_SLOT * SLOT ) {
/* sin wave restart */
SLOT - > Cnt = 0 ;
/* set attack */
SLOT - > evm = ENV_MOD_AR ;
SLOT - > evs = SLOT - > evsa ;
SLOT - > evc = EG_AST ;
SLOT - > eve = EG_AED ;
}
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/* ----- key off ----- */
inline void OPL_KEYOFF ( OPL_SLOT * SLOT ) {
if ( SLOT - > evm > ENV_MOD_RR ) {
/* set envelope counter from envleope output */
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// WORKAROUND: The Kyra engine does something very strange when
// starting a new song. For each channel:
//
// * The release rate is set to "fastest".
// * Any note is keyed off.
// * A very low-frequency note is keyed on.
//
// Usually, what happens next is that the real notes is keyed
// on immediately, in which case there's no problem.
//
// However, if the note is again keyed off (because the channel
// begins on a rest rather than a note), the envelope counter
// was moved from the very lowest point on the attack curve to
// the very highest point on the release curve.
//
// Again, this might not be a problem, if the release rate is
// still set to "fastest". But in many cases, it had already
// been increased. And, possibly because of inaccuracies in the
// envelope generator, that would cause the note to "fade out"
// for quite a long time.
//
// What we really need is a way to find the correct starting
// point for the envelope counter, and that may be what the
// commented-out line below is meant to do. For now, simply
// handle the pathological case.
if ( SLOT - > evm = = ENV_MOD_AR & & SLOT - > evc = = EG_AST )
SLOT - > evc = EG_DED ;
else if ( ! ( SLOT - > evc & EG_DST ) )
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//SLOT->evc = (ENV_CURVE[SLOT->evc>>ENV_BITS]<<ENV_BITS) + EG_DST;
SLOT - > evc = EG_DST ;
SLOT - > eve = EG_DED ;
SLOT - > evs = SLOT - > evsr ;
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SLOT - > evm = ENV_MOD_RR ;
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}
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}
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/* ---------- calcrate Envelope Generator & Phase Generator ---------- */
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/* return : envelope output */
inline uint OPL_CALC_SLOT ( OPL_SLOT * SLOT ) {
/* calcrate envelope generator */
if ( ( SLOT - > evc + = SLOT - > evs ) > = SLOT - > eve ) {
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switch ( SLOT - > evm ) {
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case ENV_MOD_AR : /* ATTACK -> DECAY1 */
/* next DR */
SLOT - > evm = ENV_MOD_DR ;
SLOT - > evc = EG_DST ;
SLOT - > eve = SLOT - > SL ;
SLOT - > evs = SLOT - > evsd ;
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break ;
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case ENV_MOD_DR : /* DECAY -> SL or RR */
SLOT - > evc = SLOT - > SL ;
SLOT - > eve = EG_DED ;
if ( SLOT - > eg_typ ) {
SLOT - > evs = 0 ;
} else {
SLOT - > evm = ENV_MOD_RR ;
SLOT - > evs = SLOT - > evsr ;
}
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break ;
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case ENV_MOD_RR : /* RR -> OFF */
SLOT - > evc = EG_OFF ;
SLOT - > eve = EG_OFF + 1 ;
SLOT - > evs = 0 ;
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break ;
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}
}
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/* calcrate envelope */
return SLOT - > TLL + ENV_CURVE [ SLOT - > evc > > ENV_BITS ] + ( SLOT - > ams ? ams : 0 ) ;
}
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/* set algorythm connection */
static void set_algorythm ( OPL_CH * CH ) {
int * carrier = & outd [ 0 ] ;
CH - > connect1 = CH - > CON ? carrier : & feedback2 ;
CH - > connect2 = carrier ;
}
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/* ---------- frequency counter for operater update ---------- */
inline void CALC_FCSLOT ( OPL_CH * CH , OPL_SLOT * SLOT ) {
int ksr ;
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/* frequency step counter */
SLOT - > Incr = CH - > fc * SLOT - > mul ;
ksr = CH - > kcode > > SLOT - > KSR ;
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if ( SLOT - > ksr ! = ksr ) {
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SLOT - > ksr = ksr ;
/* attack , decay rate recalcration */
SLOT - > evsa = SLOT - > AR [ ksr ] ;
SLOT - > evsd = SLOT - > DR [ ksr ] ;
SLOT - > evsr = SLOT - > RR [ ksr ] ;
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}
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SLOT - > TLL = SLOT - > TL + ( CH - > ksl_base > > SLOT - > ksl ) ;
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}
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/* set multi,am,vib,EG-TYP,KSR,mul */
inline void set_mul ( FM_OPL * OPL , int slot , int v ) {
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OPL_CH * CH = & OPL - > P_CH [ slot > > 1 ] ;
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OPL_SLOT * SLOT = & CH - > SLOT [ slot & 1 ] ;
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SLOT - > mul = MUL_TABLE [ v & 0x0f ] ;
SLOT - > KSR = ( v & 0x10 ) ? 0 : 2 ;
SLOT - > eg_typ = ( v & 0x20 ) > > 5 ;
SLOT - > vib = ( v & 0x40 ) ;
SLOT - > ams = ( v & 0x80 ) ;
CALC_FCSLOT ( CH , SLOT ) ;
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}
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/* set ksl & tl */
inline void set_ksl_tl ( FM_OPL * OPL , int slot , int v ) {
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OPL_CH * CH = & OPL - > P_CH [ slot > > 1 ] ;
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OPL_SLOT * SLOT = & CH - > SLOT [ slot & 1 ] ;
int ksl = v > > 6 ; /* 0 / 1.5 / 3 / 6 db/OCT */
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SLOT - > ksl = ksl ? 3 - ksl : 31 ;
SLOT - > TL = ( int ) ( ( v & 0x3f ) * ( 0.75 / EG_STEP ) ) ; /* 0.75db step */
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if ( ! ( OPL - > mode & 0x80 ) ) { /* not CSM latch total level */
SLOT - > TLL = SLOT - > TL + ( CH - > ksl_base > > SLOT - > ksl ) ;
}
}
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/* set attack rate & decay rate */
inline void set_ar_dr ( FM_OPL * OPL , int slot , int v ) {
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OPL_CH * CH = & OPL - > P_CH [ slot > > 1 ] ;
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OPL_SLOT * SLOT = & CH - > SLOT [ slot & 1 ] ;
int ar = v > > 4 ;
int dr = v & 0x0f ;
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SLOT - > AR = ar ? & OPL - > AR_TABLE [ ar < < 2 ] : RATE_0 ;
SLOT - > evsa = SLOT - > AR [ SLOT - > ksr ] ;
if ( SLOT - > evm = = ENV_MOD_AR )
SLOT - > evs = SLOT - > evsa ;
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SLOT - > DR = dr ? & OPL - > DR_TABLE [ dr < < 2 ] : RATE_0 ;
SLOT - > evsd = SLOT - > DR [ SLOT - > ksr ] ;
if ( SLOT - > evm = = ENV_MOD_DR )
SLOT - > evs = SLOT - > evsd ;
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}
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/* set sustain level & release rate */
inline void set_sl_rr ( FM_OPL * OPL , int slot , int v ) {
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OPL_CH * CH = & OPL - > P_CH [ slot > > 1 ] ;
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OPL_SLOT * SLOT = & CH - > SLOT [ slot & 1 ] ;
int sl = v > > 4 ;
int rr = v & 0x0f ;
SLOT - > SL = SL_TABLE [ sl ] ;
if ( SLOT - > evm = = ENV_MOD_DR )
SLOT - > eve = SLOT - > SL ;
SLOT - > RR = & OPL - > DR_TABLE [ rr < < 2 ] ;
SLOT - > evsr = SLOT - > RR [ SLOT - > ksr ] ;
if ( SLOT - > evm = = ENV_MOD_RR )
SLOT - > evs = SLOT - > evsr ;
}
/* operator output calcrator */
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# define OP_OUT(slot,env,con) slot->wavetable[((slot->Cnt + con)>>(24-SIN_ENT_SHIFT)) & (SIN_ENT-1)][env]
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/* ---------- calcrate one of channel ---------- */
inline void OPL_CALC_CH ( OPL_CH * CH ) {
uint env_out ;
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OPL_SLOT * SLOT ;
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feedback2 = 0 ;
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/* SLOT 1 */
SLOT = & CH - > SLOT [ SLOT1 ] ;
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env_out = OPL_CALC_SLOT ( SLOT ) ;
if ( env_out < ( uint ) ( EG_ENT - 1 ) ) {
/* PG */
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if ( SLOT - > vib )
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SLOT - > Cnt + = ( SLOT - > Incr * vib ) > > VIB_RATE_SHIFT ;
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else
SLOT - > Cnt + = SLOT - > Incr ;
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/* connection */
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if ( CH - > FB ) {
int feedback1 = ( CH - > op1_out [ 0 ] + CH - > op1_out [ 1 ] ) > > CH - > FB ;
CH - > op1_out [ 1 ] = CH - > op1_out [ 0 ] ;
* CH - > connect1 + = CH - > op1_out [ 0 ] = OP_OUT ( SLOT , env_out , feedback1 ) ;
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} else {
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* CH - > connect1 + = OP_OUT ( SLOT , env_out , 0 ) ;
}
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} else {
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CH - > op1_out [ 1 ] = CH - > op1_out [ 0 ] ;
CH - > op1_out [ 0 ] = 0 ;
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}
/* SLOT 2 */
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SLOT = & CH - > SLOT [ SLOT2 ] ;
env_out = OPL_CALC_SLOT ( SLOT ) ;
if ( env_out < ( uint ) ( EG_ENT - 1 ) ) {
/* PG */
if ( SLOT - > vib )
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SLOT - > Cnt + = ( SLOT - > Incr * vib ) > > VIB_RATE_SHIFT ;
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else
SLOT - > Cnt + = SLOT - > Incr ;
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/* connection */
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outd [ 0 ] + = OP_OUT ( SLOT , env_out , feedback2 ) ;
}
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}
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/* ---------- calcrate rythm block ---------- */
# define WHITE_NOISE_db 6.0
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inline void OPL_CALC_RH ( FM_OPL * OPL , OPL_CH * CH ) {
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uint env_tam , env_sd , env_top , env_hh ;
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// This code used to do int(OPL->rnd.getRandomBit() * (WHITE_NOISE_db / EG_STEP)),
// but EG_STEP = 96.0/EG_ENT, and WHITE_NOISE_db=6.0. So, that's equivalent to
// int(OPL->rnd.getRandomBit() * EG_ENT/16). We know that EG_ENT is 4096, or 1024,
// or 128, so we can safely avoid any FP ops.
int whitenoise = OPL - > rnd . getRandomBit ( ) * ( EG_ENT > > 4 ) ;
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int tone8 ;
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OPL_SLOT * SLOT ;
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int env_out ;
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/* BD : same as FM serial mode and output level is large */
feedback2 = 0 ;
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/* SLOT 1 */
SLOT = & CH [ 6 ] . SLOT [ SLOT1 ] ;
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env_out = OPL_CALC_SLOT ( SLOT ) ;
if ( env_out < EG_ENT - 1 ) {
/* PG */
if ( SLOT - > vib )
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SLOT - > Cnt + = ( SLOT - > Incr * vib ) > > VIB_RATE_SHIFT ;
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else
SLOT - > Cnt + = SLOT - > Incr ;
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/* connection */
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if ( CH [ 6 ] . FB ) {
int feedback1 = ( CH [ 6 ] . op1_out [ 0 ] + CH [ 6 ] . op1_out [ 1 ] ) > > CH [ 6 ] . FB ;
CH [ 6 ] . op1_out [ 1 ] = CH [ 6 ] . op1_out [ 0 ] ;
feedback2 = CH [ 6 ] . op1_out [ 0 ] = OP_OUT ( SLOT , env_out , feedback1 ) ;
}
else {
feedback2 = OP_OUT ( SLOT , env_out , 0 ) ;
}
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} else {
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feedback2 = 0 ;
CH [ 6 ] . op1_out [ 1 ] = CH [ 6 ] . op1_out [ 0 ] ;
CH [ 6 ] . op1_out [ 0 ] = 0 ;
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}
/* SLOT 2 */
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SLOT = & CH [ 6 ] . SLOT [ SLOT2 ] ;
env_out = OPL_CALC_SLOT ( SLOT ) ;
if ( env_out < EG_ENT - 1 ) {
/* PG */
if ( SLOT - > vib )
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SLOT - > Cnt + = ( SLOT - > Incr * vib ) > > VIB_RATE_SHIFT ;
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else
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SLOT - > Cnt + = SLOT - > Incr ;
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/* connection */
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outd [ 0 ] + = OP_OUT ( SLOT , env_out , feedback2 ) * 2 ;
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}
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// SD (17) = mul14[fnum7] + white noise
// TAM (15) = mul15[fnum8]
// TOP (18) = fnum6(mul18[fnum8]+whitenoise)
// HH (14) = fnum7(mul18[fnum8]+whitenoise) + white noise
env_sd = OPL_CALC_SLOT ( SLOT7_2 ) + whitenoise ;
env_tam = OPL_CALC_SLOT ( SLOT8_1 ) ;
env_top = OPL_CALC_SLOT ( SLOT8_2 ) ;
env_hh = OPL_CALC_SLOT ( SLOT7_1 ) + whitenoise ;
/* PG */
if ( SLOT7_1 - > vib )
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SLOT7_1 - > Cnt + = ( SLOT7_1 - > Incr * vib ) > > ( VIB_RATE_SHIFT - 1 ) ;
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else
SLOT7_1 - > Cnt + = 2 * SLOT7_1 - > Incr ;
if ( SLOT7_2 - > vib )
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SLOT7_2 - > Cnt + = ( CH [ 7 ] . fc * vib ) > > ( VIB_RATE_SHIFT - 3 ) ;
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else
SLOT7_2 - > Cnt + = ( CH [ 7 ] . fc * 8 ) ;
if ( SLOT8_1 - > vib )
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SLOT8_1 - > Cnt + = ( SLOT8_1 - > Incr * vib ) > > VIB_RATE_SHIFT ;
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else
SLOT8_1 - > Cnt + = SLOT8_1 - > Incr ;
if ( SLOT8_2 - > vib )
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SLOT8_2 - > Cnt + = ( ( CH [ 8 ] . fc * 3 ) * vib ) > > ( VIB_RATE_SHIFT - 4 ) ;
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else
SLOT8_2 - > Cnt + = ( CH [ 8 ] . fc * 48 ) ;
tone8 = OP_OUT ( SLOT8_2 , whitenoise , 0 ) ;
/* SD */
if ( env_sd < ( uint ) ( EG_ENT - 1 ) )
outd [ 0 ] + = OP_OUT ( SLOT7_1 , env_sd , 0 ) * 8 ;
/* TAM */
if ( env_tam < ( uint ) ( EG_ENT - 1 ) )
outd [ 0 ] + = OP_OUT ( SLOT8_1 , env_tam , 0 ) * 2 ;
/* TOP-CY */
if ( env_top < ( uint ) ( EG_ENT - 1 ) )
outd [ 0 ] + = OP_OUT ( SLOT7_2 , env_top , tone8 ) * 2 ;
/* HH */
if ( env_hh < ( uint ) ( EG_ENT - 1 ) )
outd [ 0 ] + = OP_OUT ( SLOT7_2 , env_hh , tone8 ) * 2 ;
}
/* ----------- initialize time tabls ----------- */
static void init_timetables ( FM_OPL * OPL , int ARRATE , int DRRATE ) {
int i ;
double rate ;
/* make attack rate & decay rate tables */
for ( i = 0 ; i < 4 ; i + + )
OPL - > AR_TABLE [ i ] = OPL - > DR_TABLE [ i ] = 0 ;
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for ( i = 4 ; i < = 60 ; i + + ) {
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rate = OPL - > freqbase ; /* frequency rate */
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if ( i < 60 )
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rate * = 1.0 + ( i & 3 ) * 0.25 ; /* b0-1 : x1 , x1.25 , x1.5 , x1.75 */
rate * = 1 < < ( ( i > > 2 ) - 1 ) ; /* b2-5 : shift bit */
rate * = ( double ) ( EG_ENT < < ENV_BITS ) ;
OPL - > AR_TABLE [ i ] = ( int ) ( rate / ARRATE ) ;
OPL - > DR_TABLE [ i ] = ( int ) ( rate / DRRATE ) ;
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}
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for ( i = 60 ; i < 76 ; i + + ) {
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OPL - > AR_TABLE [ i ] = EG_AED - 1 ;
OPL - > DR_TABLE [ i ] = OPL - > DR_TABLE [ 60 ] ;
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}
}
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/* ---------- generic table initialize ---------- */
static int OPLOpenTable ( void ) {
int s , t ;
double rate ;
int i , j ;
double pom ;
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# ifdef __DS__
DS : : fastRamReset ( ) ;
TL_TABLE = ( int * ) DS : : fastRamAlloc ( TL_MAX * 2 * sizeof ( int * ) ) ;
SIN_TABLE = ( int * * ) DS : : fastRamAlloc ( SIN_ENT * 4 * sizeof ( int * ) ) ;
# else
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/* allocate dynamic tables */
if ( ( TL_TABLE = ( int * ) malloc ( TL_MAX * 2 * sizeof ( int ) ) ) = = NULL )
return 0 ;
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if ( ( SIN_TABLE = ( int * * ) malloc ( SIN_ENT * 4 * sizeof ( int * ) ) ) = = NULL ) {
free ( TL_TABLE ) ;
return 0 ;
}
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# endif
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if ( ( AMS_TABLE = ( int * ) malloc ( AMS_ENT * 2 * sizeof ( int ) ) ) = = NULL ) {
free ( TL_TABLE ) ;
free ( SIN_TABLE ) ;
return 0 ;
}
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if ( ( VIB_TABLE = ( int * ) malloc ( VIB_ENT * 2 * sizeof ( int ) ) ) = = NULL ) {
free ( TL_TABLE ) ;
free ( SIN_TABLE ) ;
free ( AMS_TABLE ) ;
return 0 ;
}
/* make total level table */
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for ( t = 0 ; t < EG_ENT - 1 ; t + + ) {
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rate = ( ( 1 < < TL_BITS ) - 1 ) / pow ( 10.0 , EG_STEP * t / 20 ) ; /* dB -> voltage */
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TL_TABLE [ t ] = ( int ) rate ;
TL_TABLE [ TL_MAX + t ] = - TL_TABLE [ t ] ;
}
/* fill volume off area */
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for ( t = EG_ENT - 1 ; t < TL_MAX ; t + + ) {
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TL_TABLE [ t ] = TL_TABLE [ TL_MAX + t ] = 0 ;
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}
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/* make sinwave table (total level offet) */
/* degree 0 = degree 180 = off */
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SIN_TABLE [ 0 ] = SIN_TABLE [ SIN_ENT / 2 ] = & TL_TABLE [ EG_ENT - 1 ] ;
for ( s = 1 ; s < = SIN_ENT / 4 ; s + + ) {
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pom = sin ( 2 * PI * s / SIN_ENT ) ; /* sin */
pom = 20 * log10 ( 1 / pom ) ; /* decibel */
j = int ( pom / EG_STEP ) ; /* TL_TABLE steps */
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/* degree 0 - 90 , degree 180 - 90 : plus section */
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SIN_TABLE [ s ] = SIN_TABLE [ SIN_ENT / 2 - s ] = & TL_TABLE [ j ] ;
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/* degree 180 - 270 , degree 360 - 270 : minus section */
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SIN_TABLE [ SIN_ENT / 2 + s ] = SIN_TABLE [ SIN_ENT - s ] = & TL_TABLE [ TL_MAX + j ] ;
}
for ( s = 0 ; s < SIN_ENT ; s + + ) {
SIN_TABLE [ SIN_ENT * 1 + s ] = s < ( SIN_ENT / 2 ) ? SIN_TABLE [ s ] : & TL_TABLE [ EG_ENT ] ;
SIN_TABLE [ SIN_ENT * 2 + s ] = SIN_TABLE [ s % ( SIN_ENT / 2 ) ] ;
SIN_TABLE [ SIN_ENT * 3 + s ] = ( s / ( SIN_ENT / 4 ) ) & 1 ? & TL_TABLE [ EG_ENT ] : SIN_TABLE [ SIN_ENT * 2 + s ] ;
}
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ENV_CURVE = ( int * ) malloc ( sizeof ( int ) * ( 2 * EG_ENT + 1 ) ) ;
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/* envelope counter -> envelope output table */
for ( i = 0 ; i < EG_ENT ; i + + ) {
/* ATTACK curve */
pom = pow ( ( ( double ) ( EG_ENT - 1 - i ) / EG_ENT ) , 8 ) * EG_ENT ;
/* if( pom >= EG_ENT ) pom = EG_ENT-1; */
ENV_CURVE [ i ] = ( int ) pom ;
/* DECAY ,RELEASE curve */
ENV_CURVE [ ( EG_DST > > ENV_BITS ) + i ] = i ;
}
/* off */
ENV_CURVE [ EG_OFF > > ENV_BITS ] = EG_ENT - 1 ;
/* make LFO ams table */
for ( i = 0 ; i < AMS_ENT ; i + + ) {
pom = ( 1.0 + sin ( 2 * PI * i / AMS_ENT ) ) / 2 ; /* sin */
AMS_TABLE [ i ] = ( int ) ( ( 1.0 / EG_STEP ) * pom ) ; /* 1dB */
AMS_TABLE [ AMS_ENT + i ] = ( int ) ( ( 4.8 / EG_STEP ) * pom ) ; /* 4.8dB */
}
/* make LFO vibrate table */
for ( i = 0 ; i < VIB_ENT ; i + + ) {
/* 100cent = 1seminote = 6% ?? */
pom = ( double ) VIB_RATE * 0.06 * sin ( 2 * PI * i / VIB_ENT ) ; /* +-100sect step */
VIB_TABLE [ i ] = ( int ) ( VIB_RATE + ( pom * 0.07 ) ) ; /* +- 7cent */
VIB_TABLE [ VIB_ENT + i ] = ( int ) ( VIB_RATE + ( pom * 0.14 ) ) ; /* +-14cent */
}
return 1 ;
}
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static void OPLCloseTable ( void ) {
free ( TL_TABLE ) ;
free ( SIN_TABLE ) ;
free ( AMS_TABLE ) ;
free ( VIB_TABLE ) ;
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free ( ENV_CURVE ) ;
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}
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/* CSM Key Controll */
inline void CSMKeyControll ( OPL_CH * CH ) {
OPL_SLOT * slot1 = & CH - > SLOT [ SLOT1 ] ;
OPL_SLOT * slot2 = & CH - > SLOT [ SLOT2 ] ;
/* all key off */
OPL_KEYOFF ( slot1 ) ;
OPL_KEYOFF ( slot2 ) ;
/* total level latch */
slot1 - > TLL = slot1 - > TL + ( CH - > ksl_base > > slot1 - > ksl ) ;
slot1 - > TLL = slot1 - > TL + ( CH - > ksl_base > > slot1 - > ksl ) ;
/* key on */
CH - > op1_out [ 0 ] = CH - > op1_out [ 1 ] = 0 ;
OPL_KEYON ( slot1 ) ;
OPL_KEYON ( slot2 ) ;
}
/* ---------- opl initialize ---------- */
static void OPL_initalize ( FM_OPL * OPL ) {
int fn ;
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/* frequency base */
OPL - > freqbase = ( OPL - > rate ) ? ( ( double ) OPL - > clock / OPL - > rate ) / 72 : 0 ;
/* Timer base time */
OPL - > TimerBase = 1.0 / ( ( double ) OPL - > clock / 72.0 ) ;
/* make time tables */
init_timetables ( OPL , OPL_ARRATE , OPL_DRRATE ) ;
/* make fnumber -> increment counter table */
for ( fn = 0 ; fn < 1024 ; fn + + ) {
OPL - > FN_TABLE [ fn ] = ( uint ) ( OPL - > freqbase * fn * FREQ_RATE * ( 1 < < 7 ) / 2 ) ;
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}
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/* LFO freq.table */
OPL - > amsIncr = ( int ) ( OPL - > rate ? ( double ) AMS_ENT * ( 1 < < AMS_SHIFT ) / OPL - > rate * 3.7 * ( ( double ) OPL - > clock / 3600000 ) : 0 ) ;
OPL - > vibIncr = ( int ) ( OPL - > rate ? ( double ) VIB_ENT * ( 1 < < VIB_SHIFT ) / OPL - > rate * 6.4 * ( ( double ) OPL - > clock / 3600000 ) : 0 ) ;
}
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/* ---------- write a OPL registers ---------- */
void OPLWriteReg ( FM_OPL * OPL , int r , int v ) {
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OPL_CH * CH ;
int slot ;
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uint block_fnum ;
switch ( r & 0xe0 ) {
case 0x00 : /* 00-1f:controll */
switch ( r & 0x1f ) {
case 0x01 :
/* wave selector enable */
if ( OPL - > type & OPL_TYPE_WAVESEL ) {
OPL - > wavesel = v & 0x20 ;
if ( ! OPL - > wavesel ) {
/* preset compatible mode */
int c ;
for ( c = 0 ; c < OPL - > max_ch ; c + + ) {
OPL - > P_CH [ c ] . SLOT [ SLOT1 ] . wavetable = & SIN_TABLE [ 0 ] ;
OPL - > P_CH [ c ] . SLOT [ SLOT2 ] . wavetable = & SIN_TABLE [ 0 ] ;
}
}
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}
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return ;
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case 0x02 : /* Timer 1 */
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OPL - > T [ 0 ] = ( 256 - v ) * 4 ;
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break ;
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case 0x03 : /* Timer 2 */
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OPL - > T [ 1 ] = ( 256 - v ) * 16 ;
return ;
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case 0x04 : /* IRQ clear / mask and Timer enable */
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if ( v & 0x80 ) { /* IRQ flag clear */
OPL_STATUS_RESET ( OPL , 0x7f ) ;
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} else { /* set IRQ mask ,timer enable*/
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uint8 st1 = v & 1 ;
uint8 st2 = ( v > > 1 ) & 1 ;
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/* IRQRST,T1MSK,t2MSK,EOSMSK,BRMSK,x,ST2,ST1 */
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OPL_STATUS_RESET ( OPL , v & 0x78 ) ;
OPL_STATUSMASK_SET ( OPL , ( ( ~ v ) & 0x78 ) | 0x01 ) ;
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/* timer 2 */
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if ( OPL - > st [ 1 ] ! = st2 ) {
double interval = st2 ? ( double ) OPL - > T [ 1 ] * OPL - > TimerBase : 0.0 ;
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OPL - > st [ 1 ] = st2 ;
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if ( OPL - > TimerHandler ) ( OPL - > TimerHandler ) ( OPL - > TimerParam + 1 , interval ) ;
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}
/* timer 1 */
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if ( OPL - > st [ 0 ] ! = st1 ) {
double interval = st1 ? ( double ) OPL - > T [ 0 ] * OPL - > TimerBase : 0.0 ;
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OPL - > st [ 0 ] = st1 ;
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if ( OPL - > TimerHandler ) ( OPL - > TimerHandler ) ( OPL - > TimerParam + 0 , interval ) ;
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}
}
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return ;
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}
break ;
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case 0x20 : /* am,vib,ksr,eg type,mul */
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slot = slot_array [ r & 0x1f ] ;
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if ( slot = = - 1 )
return ;
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set_mul ( OPL , slot , v ) ;
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return ;
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case 0x40 :
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slot = slot_array [ r & 0x1f ] ;
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if ( slot = = - 1 )
return ;
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set_ksl_tl ( OPL , slot , v ) ;
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return ;
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case 0x60 :
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slot = slot_array [ r & 0x1f ] ;
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if ( slot = = - 1 )
return ;
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set_ar_dr ( OPL , slot , v ) ;
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return ;
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case 0x80 :
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slot = slot_array [ r & 0x1f ] ;
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if ( slot = = - 1 )
return ;
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set_sl_rr ( OPL , slot , v ) ;
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return ;
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case 0xa0 :
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switch ( r ) {
case 0xbd :
/* amsep,vibdep,r,bd,sd,tom,tc,hh */
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{
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uint8 rkey = OPL - > rythm ^ v ;
OPL - > ams_table = & AMS_TABLE [ v & 0x80 ? AMS_ENT : 0 ] ;
OPL - > vib_table = & VIB_TABLE [ v & 0x40 ? VIB_ENT : 0 ] ;
OPL - > rythm = v & 0x3f ;
if ( OPL - > rythm & 0x20 ) {
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/* BD key on/off */
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if ( rkey & 0x10 ) {
if ( v & 0x10 ) {
OPL - > P_CH [ 6 ] . op1_out [ 0 ] = OPL - > P_CH [ 6 ] . op1_out [ 1 ] = 0 ;
OPL_KEYON ( & OPL - > P_CH [ 6 ] . SLOT [ SLOT1 ] ) ;
OPL_KEYON ( & OPL - > P_CH [ 6 ] . SLOT [ SLOT2 ] ) ;
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} else {
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OPL_KEYOFF ( & OPL - > P_CH [ 6 ] . SLOT [ SLOT1 ] ) ;
OPL_KEYOFF ( & OPL - > P_CH [ 6 ] . SLOT [ SLOT2 ] ) ;
}
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}
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/* SD key on/off */
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if ( rkey & 0x08 ) {
if ( v & 0x08 )
OPL_KEYON ( & OPL - > P_CH [ 7 ] . SLOT [ SLOT2 ] ) ;
else
OPL_KEYOFF ( & OPL - > P_CH [ 7 ] . SLOT [ SLOT2 ] ) ;
} /* TAM key on/off */
if ( rkey & 0x04 ) {
if ( v & 0x04 )
OPL_KEYON ( & OPL - > P_CH [ 8 ] . SLOT [ SLOT1 ] ) ;
else
OPL_KEYOFF ( & OPL - > P_CH [ 8 ] . SLOT [ SLOT1 ] ) ;
}
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/* TOP-CY key on/off */
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if ( rkey & 0x02 ) {
if ( v & 0x02 )
OPL_KEYON ( & OPL - > P_CH [ 8 ] . SLOT [ SLOT2 ] ) ;
else
OPL_KEYOFF ( & OPL - > P_CH [ 8 ] . SLOT [ SLOT2 ] ) ;
}
/* HH key on/off */
if ( rkey & 0x01 ) {
if ( v & 0x01 )
OPL_KEYON ( & OPL - > P_CH [ 7 ] . SLOT [ SLOT1 ] ) ;
else
OPL_KEYOFF ( & OPL - > P_CH [ 7 ] . SLOT [ SLOT1 ] ) ;
}
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}
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}
return ;
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default :
break ;
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}
/* keyon,block,fnum */
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if ( ( r & 0x0f ) > 8 )
return ;
CH = & OPL - > P_CH [ r & 0x0f ] ;
if ( ! ( r & 0x10 ) ) { /* a0-a8 */
block_fnum = ( CH - > block_fnum & 0x1f00 ) | v ;
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} else { /* b0-b8 */
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int keyon = ( v > > 5 ) & 1 ;
block_fnum = ( ( v & 0x1f ) < < 8 ) | ( CH - > block_fnum & 0xff ) ;
if ( CH - > keyon ! = keyon ) {
if ( ( CH - > keyon = keyon ) ) {
CH - > op1_out [ 0 ] = CH - > op1_out [ 1 ] = 0 ;
OPL_KEYON ( & CH - > SLOT [ SLOT1 ] ) ;
OPL_KEYON ( & CH - > SLOT [ SLOT2 ] ) ;
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} else {
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OPL_KEYOFF ( & CH - > SLOT [ SLOT1 ] ) ;
OPL_KEYOFF ( & CH - > SLOT [ SLOT2 ] ) ;
}
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}
}
/* update */
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if ( CH - > block_fnum ! = block_fnum ) {
int blockRv = 7 - ( block_fnum > > 10 ) ;
int fnum = block_fnum & 0x3ff ;
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CH - > block_fnum = block_fnum ;
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CH - > ksl_base = KSL_TABLE [ block_fnum > > 6 ] ;
CH - > fc = OPL - > FN_TABLE [ fnum ] > > blockRv ;
CH - > kcode = CH - > block_fnum > > 9 ;
if ( ( OPL - > mode & 0x40 ) & & CH - > block_fnum & 0x100 )
CH - > kcode | = 1 ;
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CALC_FCSLOT ( CH , & CH - > SLOT [ SLOT1 ] ) ;
CALC_FCSLOT ( CH , & CH - > SLOT [ SLOT2 ] ) ;
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}
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return ;
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case 0xc0 :
/* FB,C */
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if ( ( r & 0x0f ) > 8 )
return ;
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CH = & OPL - > P_CH [ r & 0x0f ] ;
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{
2003-07-11 07:14:21 +00:00
int feedback = ( v > > 1 ) & 7 ;
CH - > FB = feedback ? ( 8 + 1 ) - feedback : 0 ;
CH - > CON = v & 1 ;
set_algorythm ( CH ) ;
2001-12-01 17:06:13 +00:00
}
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return ;
case 0xe0 : /* wave type */
slot = slot_array [ r & 0x1f ] ;
if ( slot = = - 1 )
return ;
2008-02-17 16:12:54 +00:00
CH = & OPL - > P_CH [ slot > > 1 ] ;
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if ( OPL - > wavesel ) {
CH - > SLOT [ slot & 1 ] . wavetable = & SIN_TABLE [ ( v & 0x03 ) * SIN_ENT ] ;
}
return ;
2003-05-04 21:17:42 +00:00
}
}
2001-12-01 17:06:13 +00:00
/* lock/unlock for common table */
2006-07-29 23:42:27 +00:00
static int OPL_LockTable ( void ) {
2001-12-01 17:06:13 +00:00
num_lock + + ;
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if ( num_lock > 1 )
return 0 ;
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/* first time */
cur_chip = NULL ;
/* allocate total level table (128kb space) */
2003-07-11 07:14:21 +00:00
if ( ! OPLOpenTable ( ) ) {
2001-12-01 17:06:13 +00:00
num_lock - - ;
return - 1 ;
}
return 0 ;
}
2003-07-11 07:14:21 +00:00
static void OPL_UnLockTable ( void ) {
if ( num_lock )
num_lock - - ;
if ( num_lock )
return ;
2001-12-01 17:06:13 +00:00
/* last time */
cur_chip = NULL ;
OPLCloseTable ( ) ;
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}
2001-12-01 17:06:13 +00:00
2003-07-11 07:14:21 +00:00
/*******************************************************************************/
/* YM3812 local section */
/*******************************************************************************/
2001-12-01 17:06:13 +00:00
2003-07-11 07:14:21 +00:00
/* ---------- update one of chip ----------- */
void YM3812UpdateOne ( FM_OPL * OPL , int16 * buffer , int length ) {
int i ;
int data ;
int16 * buf = buffer ;
uint amsCnt = OPL - > amsCnt ;
uint vibCnt = OPL - > vibCnt ;
uint8 rythm = OPL - > rythm & 0x20 ;
OPL_CH * CH , * R_CH ;
2007-04-06 18:35:35 +00:00
2006-07-29 23:42:27 +00:00
if ( ( void * ) OPL ! = cur_chip ) {
2003-07-11 07:14:21 +00:00
cur_chip = ( void * ) OPL ;
/* channel pointers */
S_CH = OPL - > P_CH ;
E_CH = & S_CH [ 9 ] ;
/* rythm slot */
SLOT7_1 = & S_CH [ 7 ] . SLOT [ SLOT1 ] ;
SLOT7_2 = & S_CH [ 7 ] . SLOT [ SLOT2 ] ;
SLOT8_1 = & S_CH [ 8 ] . SLOT [ SLOT1 ] ;
SLOT8_2 = & S_CH [ 8 ] . SLOT [ SLOT2 ] ;
/* LFO state */
amsIncr = OPL - > amsIncr ;
vibIncr = OPL - > vibIncr ;
ams_table = OPL - > ams_table ;
vib_table = OPL - > vib_table ;
}
R_CH = rythm ? & S_CH [ 6 ] : E_CH ;
for ( i = 0 ; i < length ; i + + ) {
/* channel A channel B channel C */
/* LFO */
ams = ams_table [ ( amsCnt + = amsIncr ) > > AMS_SHIFT ] ;
vib = vib_table [ ( vibCnt + = vibIncr ) > > VIB_SHIFT ] ;
outd [ 0 ] = 0 ;
/* FM part */
for ( CH = S_CH ; CH < R_CH ; CH + + )
OPL_CALC_CH ( CH ) ;
/* Rythn part */
if ( rythm )
2007-12-06 21:11:26 +00:00
OPL_CALC_RH ( OPL , S_CH ) ;
2003-07-11 07:14:21 +00:00
/* limit check */
2008-12-03 10:59:06 +00:00
data = CLIP ( outd [ 0 ] , OPL_MINOUT , OPL_MAXOUT ) ;
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/* store to sound buffer */
buf [ i ] = data > > OPL_OUTSB ;
}
OPL - > amsCnt = amsCnt ;
OPL - > vibCnt = vibCnt ;
2001-12-01 17:06:13 +00:00
}
2003-07-11 07:14:21 +00:00
/* ---------- reset a chip ---------- */
void OPLResetChip ( FM_OPL * OPL ) {
2002-05-08 02:06:26 +00:00
int c , s ;
2001-12-01 17:06:13 +00:00
int i ;
2003-07-11 07:14:21 +00:00
/* reset chip */
OPL - > mode = 0 ; /* normal mode */
OPL_STATUS_RESET ( OPL , 0x7f ) ;
2001-12-01 17:06:13 +00:00
/* reset with register write */
2003-07-11 07:14:21 +00:00
OPLWriteReg ( OPL , 0x01 , 0 ) ; /* wabesel disable */
OPLWriteReg ( OPL , 0x02 , 0 ) ; /* Timer1 */
OPLWriteReg ( OPL , 0x03 , 0 ) ; /* Timer2 */
OPLWriteReg ( OPL , 0x04 , 0 ) ; /* IRQ mask clear */
for ( i = 0xff ; i > = 0x20 ; i - - )
OPLWriteReg ( OPL , i , 0 ) ;
2003-11-07 02:43:47 +00:00
/* reset OPerator parameter */
2003-07-11 07:14:21 +00:00
for ( c = 0 ; c < OPL - > max_ch ; c + + ) {
2001-12-01 17:06:13 +00:00
OPL_CH * CH = & OPL - > P_CH [ c ] ;
2003-07-11 07:14:21 +00:00
/* OPL->P_CH[c].PAN = OPN_CENTER; */
for ( s = 0 ; s < 2 ; s + + ) {
2001-12-01 17:06:13 +00:00
/* wave table */
2003-07-11 07:14:21 +00:00
CH - > SLOT [ s ] . wavetable = & SIN_TABLE [ 0 ] ;
/* CH->SLOT[s].evm = ENV_MOD_RR; */
CH - > SLOT [ s ] . evc = EG_OFF ;
CH - > SLOT [ s ] . eve = EG_OFF + 1 ;
CH - > SLOT [ s ] . evs = 0 ;
2001-12-01 17:06:13 +00:00
}
}
}
2003-07-11 07:14:21 +00:00
/* ---------- Create a virtual YM3812 ---------- */
/* 'rate' is sampling rate and 'bufsiz' is the size of the */
FM_OPL * OPLCreate ( int type , int clock , int rate ) {
2001-12-01 17:06:13 +00:00
char * ptr ;
FM_OPL * OPL ;
int state_size ;
2003-07-11 07:14:21 +00:00
int max_ch = 9 ; /* normaly 9 channels */
2001-12-01 17:06:13 +00:00
2003-07-11 07:14:21 +00:00
if ( OPL_LockTable ( ) = = - 1 )
return NULL ;
/* allocate OPL state space */
2002-05-08 02:06:26 +00:00
state_size = sizeof ( FM_OPL ) ;
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state_size + = sizeof ( OPL_CH ) * max_ch ;
2002-05-08 02:06:26 +00:00
2001-12-01 17:06:13 +00:00
/* allocate memory block */
2003-07-11 07:14:21 +00:00
ptr = ( char * ) calloc ( state_size , 1 ) ;
if ( ptr = = NULL )
2003-03-06 18:30:44 +00:00
return NULL ;
2002-05-08 02:06:26 +00:00
2001-12-01 17:06:13 +00:00
/* clear */
2003-07-11 07:14:21 +00:00
memset ( ptr , 0 , state_size ) ;
OPL = ( FM_OPL * ) ptr ; ptr + = sizeof ( FM_OPL ) ;
OPL - > P_CH = ( OPL_CH * ) ptr ; ptr + = sizeof ( OPL_CH ) * max_ch ;
2002-05-08 02:06:26 +00:00
2003-07-11 07:14:21 +00:00
/* set channel state pointer */
2002-05-08 02:06:26 +00:00
OPL - > type = type ;
2001-12-01 17:06:13 +00:00
OPL - > clock = clock ;
2002-05-08 02:06:26 +00:00
OPL - > rate = rate ;
2003-07-11 07:14:21 +00:00
OPL - > max_ch = max_ch ;
2002-05-08 02:06:26 +00:00
2003-07-11 07:14:21 +00:00
/* init grobal tables */
2001-12-01 17:06:13 +00:00
OPL_initalize ( OPL ) ;
2002-05-08 02:06:26 +00:00
2001-12-01 17:06:13 +00:00
/* reset chip */
OPLResetChip ( OPL ) ;
return OPL ;
}
2003-07-11 07:14:21 +00:00
/* ---------- Destroy one of vietual YM3812 ---------- */
void OPLDestroy ( FM_OPL * OPL ) {
2001-12-01 17:06:13 +00:00
OPL_UnLockTable ( ) ;
free ( OPL ) ;
}
2003-07-11 07:14:21 +00:00
/* ---------- Option handlers ---------- */
void OPLSetTimerHandler ( FM_OPL * OPL , OPL_TIMERHANDLER TimerHandler , int channelOffset ) {
2002-05-08 02:06:26 +00:00
OPL - > TimerHandler = TimerHandler ;
2001-12-01 17:06:13 +00:00
OPL - > TimerParam = channelOffset ;
}
2003-07-11 07:14:21 +00:00
void OPLSetIRQHandler ( FM_OPL * OPL , OPL_IRQHANDLER IRQHandler , int param ) {
2002-05-08 02:06:26 +00:00
OPL - > IRQHandler = IRQHandler ;
2001-12-01 17:06:13 +00:00
OPL - > IRQParam = param ;
}
2006-07-29 23:42:27 +00:00
2003-07-11 07:14:21 +00:00
void OPLSetUpdateHandler ( FM_OPL * OPL , OPL_UPDATEHANDLER UpdateHandler , int param ) {
2001-12-01 17:06:13 +00:00
OPL - > UpdateHandler = UpdateHandler ;
OPL - > UpdateParam = param ;
}
2003-07-11 07:14:21 +00:00
/* ---------- YM3812 I/O interface ---------- */
int OPLWrite ( FM_OPL * OPL , int a , int v ) {
if ( ! ( a & 1 ) ) { /* address port */
2002-05-08 02:06:26 +00:00
OPL - > address = v & 0xff ;
2006-07-29 23:42:27 +00:00
} else { /* data port */
2003-07-11 07:14:21 +00:00
if ( OPL - > UpdateHandler )
OPL - > UpdateHandler ( OPL - > UpdateParam , 0 ) ;
OPLWriteReg ( OPL , OPL - > address , v ) ;
2002-05-08 02:06:26 +00:00
}
2003-07-11 07:14:21 +00:00
return OPL - > status > > 7 ;
2002-05-08 02:06:26 +00:00
}
2003-07-11 07:14:21 +00:00
unsigned char OPLRead ( FM_OPL * OPL , int a ) {
if ( ! ( a & 1 ) ) { /* status port */
return OPL - > status & ( OPL - > statusmask | 0x80 ) ;
2002-05-08 02:06:26 +00:00
}
/* data port */
2003-07-11 07:14:21 +00:00
switch ( OPL - > address ) {
2002-05-08 02:06:26 +00:00
case 0x05 : /* KeyBoard IN */
2003-07-11 07:14:21 +00:00
warning ( " OPL:read unmapped KEYBOARD port \n " ) ;
2002-05-08 02:06:26 +00:00
return 0 ;
case 0x19 : /* I/O DATA */
2003-07-11 07:14:21 +00:00
warning ( " OPL:read unmapped I/O port \n " ) ;
2002-05-08 02:06:26 +00:00
return 0 ;
case 0x1a : /* PCM-DATA */
return 0 ;
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default :
break ;
2002-05-08 02:06:26 +00:00
}
2003-07-11 07:14:21 +00:00
return 0 ;
2003-05-04 21:17:42 +00:00
}
2003-07-11 07:14:21 +00:00
int OPLTimerOver ( FM_OPL * OPL , int c ) {
if ( c ) { /* Timer B */
OPL_STATUS_SET ( OPL , 0x20 ) ;
2006-07-29 23:42:27 +00:00
} else { /* Timer A */
2003-07-11 07:14:21 +00:00
OPL_STATUS_SET ( OPL , 0x40 ) ;
2001-12-01 17:06:13 +00:00
/* CSM mode key,TL controll */
2003-07-11 07:14:21 +00:00
if ( OPL - > mode & 0x80 ) { /* CSM mode total level latch and auto key on */
2001-12-01 17:06:13 +00:00
int ch ;
2003-07-11 07:14:21 +00:00
if ( OPL - > UpdateHandler )
OPL - > UpdateHandler ( OPL - > UpdateParam , 0 ) ;
for ( ch = 0 ; ch < 9 ; ch + + )
CSMKeyControll ( & OPL - > P_CH [ ch ] ) ;
2001-12-01 17:06:13 +00:00
}
}
/* reload timer */
2003-07-11 07:14:21 +00:00
if ( OPL - > TimerHandler )
( OPL - > TimerHandler ) ( OPL - > TimerParam + c , ( double ) OPL - > T [ c ] * OPL - > TimerBase ) ;
return OPL - > status > > 7 ;
2003-05-04 21:17:42 +00:00
}
2004-02-24 22:39:42 +00:00
FM_OPL * makeAdlibOPL ( int rate ) {
// We need to emulate one YM3812 chip
int env_bits = FMOPL_ENV_BITS_HQ ;
int eg_ent = FMOPL_EG_ENT_HQ ;
2007-12-19 14:03:53 +00:00
# if defined (_WIN32_WCE) || defined(__SYMBIAN32__) || defined(PALMOS_MODE) || defined(__GP32__) || defined (GP2X) || defined(__MAEMO__) || defined(__DS__) || defined (__MINT__)
2004-05-09 14:26:01 +00:00
if ( ConfMan . hasKey ( " FM_high_quality " ) & & ConfMan . getBool ( " FM_high_quality " ) ) {
2004-02-24 22:39:42 +00:00
env_bits = FMOPL_ENV_BITS_HQ ;
eg_ent = FMOPL_EG_ENT_HQ ;
2006-07-29 23:42:27 +00:00
} else if ( ConfMan . hasKey ( " FM_medium_quality " ) & & ConfMan . getBool ( " FM_medium_quality " ) ) {
2005-01-28 20:46:36 +00:00
env_bits = FMOPL_ENV_BITS_MQ ;
eg_ent = FMOPL_EG_ENT_MQ ;
2006-07-29 23:42:27 +00:00
} else {
2004-05-09 14:26:01 +00:00
env_bits = FMOPL_ENV_BITS_LQ ;
2004-02-24 22:39:42 +00:00
eg_ent = FMOPL_EG_ENT_LQ ;
2004-05-09 14:26:01 +00:00
}
2004-02-24 22:39:42 +00:00
# endif
2005-03-11 11:01:52 +00:00
2004-02-24 22:39:42 +00:00
OPLBuildTables ( env_bits , eg_ent ) ;
return OPLCreate ( OPL_TYPE_YM3812 , 3579545 , rate ) ;
}