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/***************************************************************************
spu . c - description
- - - - - - - - - - - - - - - - - - -
begin : Wed May 15 2002
copyright : ( C ) 2002 by Pete Bernert
email : BlackDove @ addcom . de
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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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 . See also the license . txt file for *
* additional informations . *
* *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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//*************************************************************************//
// History of changes:
//
// 2005/08/29 - Pete
// - changed to 48Khz output
//
// 2004/12/25 - Pete
// - inc'd version for pcsx2-0.7
//
// 2004/04/18 - Pete
// - changed all kind of things in the plugin
//
// 2004/04/04 - Pete
// - changed plugin to emulate PS2 spu
//
// 2003/04/07 - Eric
// - adjusted cubic interpolation algorithm
//
// 2003/03/16 - Eric
// - added cubic interpolation
//
// 2003/03/01 - linuzappz
// - libraryName changes using ALSA
//
// 2003/02/28 - Pete
// - added option for type of interpolation
// - adjusted spu irqs again (Thousant Arms, Valkyrie Profile)
// - added MONO support for MSWindows DirectSound
//
// 2003/02/20 - kode54
// - amended interpolation code, goto GOON could skip initialization of gpos and cause segfault
//
// 2003/02/19 - kode54
// - moved SPU IRQ handler and changed sample flag processing
//
// 2003/02/18 - kode54
// - moved ADSR calculation outside of the sample decode loop, somehow I doubt that
// ADSR timing is relative to the frequency at which a sample is played... I guess
// this remains to be seen, and I don't know whether ADSR is applied to noise channels...
//
// 2003/02/09 - kode54
// - one-shot samples now process the end block before stopping
// - in light of removing fmod hack, now processing ADSR on frequency channel as well
//
// 2003/02/08 - kode54
// - replaced easy interpolation with gaussian
// - removed fmod averaging hack
// - changed .sinc to be updated from .iRawPitch, no idea why it wasn't done this way already (<- Pete: because I sometimes fail to see the obvious, haharhar :)
//
// 2003/02/08 - linuzappz
// - small bugfix for one usleep that was 1 instead of 1000
// - added iDisStereo for no stereo (Linux)
//
// 2003/01/22 - Pete
// - added easy interpolation & small noise adjustments
//
// 2003/01/19 - Pete
// - added Neill's reverb
//
// 2003/01/12 - Pete
// - added recording window handlers
//
// 2003/01/06 - Pete
// - added Neill's ADSR timings
//
// 2002/12/28 - Pete
// - adjusted spu irq handling, fmod handling and loop handling
//
// 2002/08/14 - Pete
// - added extra reverb
//
// 2002/06/08 - linuzappz
// - SPUupdate changed for SPUasync
//
// 2002/05/15 - Pete
// - generic cleanup for the Peops release
//
//*************************************************************************//
# include "stdafx.h"
# define _IN_SPU
# include "externals.h"
# include "cfg.h"
# include "dsoundoss.h"
# include "regs.h"
# include "debug.h"
# include "record.h"
# include "resource.h"
# include "dma.h"
# include "registers.h"
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# if !defined(_WIN32)
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# include <X11/Xlib.h>
# if !defined(CALLBACK)
# define CALLBACK
# endif
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# define Sleep(x) usleep((x)*1000)
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# endif
////////////////////////////////////////////////////////////////////////
// spu version infos/name
////////////////////////////////////////////////////////////////////////
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const unsigned char version = 5 ;
const unsigned char revision = 1 ;
const unsigned char build = 9 ;
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# ifdef _DEBUG
static char * libraryName = " P.E.Op.S. SPU2 (Debug) " ;
# else
static char * libraryName = " P.E.Op.S. SPU2 " ;
# endif
static char * libraryInfo = " P.E.Op.S. SPU2 Driver V1.6 \n Coded by Pete Bernert, Saqib and the P.E.Op.S. team \n " ;
////////////////////////////////////////////////////////////////////////
// globals
////////////////////////////////////////////////////////////////////////
// psx buffer / addresses
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unsigned short regArea [ 32 * 1024 ] ;
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short spuMem [ 2 * 1024 * 1024 ] ;
char * spuMemC ;
unsigned char * pSpuIrq [ 2 ] ;
unsigned char * pSpuBuffer ;
unsigned char * pSpuStreamBuffer [ 2 ] ;
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// user settings
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int iVolume = 3 ;
int iDebugMode = 0 ;
int iRecordMode = 0 ;
int iUseReverb = 0 ;
int iUseInterpolation = 2 ;
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// MAIN infos struct for each channel
int iDisStereo ;
SPUCHAN s_chan [ MAXCHAN + 1 ] ; // channel + 1 infos (1 is security for fmod handling)
REVERBInfo rvb [ 2 ] ;
unsigned long dwNoiseVal = 1 ; // global noise generator
unsigned short spuCtrl2 [ 2 ] ; // some vars to store psx reg infos
unsigned short spuStat2 [ 2 ] ;
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unsigned long spuIrq2 [ 2 ] ;
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unsigned long spuAddr2 [ 2 ] ; // address into spu mem
unsigned long spuRvbAddr2 [ 2 ] ;
unsigned long spuRvbAEnd2 [ 2 ] ;
int bEndThread = 0 ; // thread handlers
int bSpuInit = 0 ;
int bSPUIsOpen = 0 ;
int bThreadEnded = 0 ;
int iUseTimer = 2 ;
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int aSyncMode = 0 ;
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unsigned long aSyncCounter = 0 ;
unsigned long aSyncWait = 0 ;
DWORD aSyncTimerNew ;
DWORD aSyncTimerOld ;
# ifdef _WIN32
HWND hWMain = 0 ; // window handle
HWND hWDebug = 0 ;
HWND hWRecord = 0 ;
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static HANDLE hMainThread ;
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# else
# include <pthread.h>
static pthread_t hMainThread ;
# endif
unsigned long dwNewChannel2 [ 2 ] ; // flags for faster testing, if new channel starts
unsigned long dwEndChannel2 [ 2 ] ;
void ( CALLBACK * irqCallbackDMA4 ) ( ) = 0 ; // func of main emu, called on spu irq
void ( CALLBACK * irqCallbackDMA7 ) ( ) = 0 ; // func of main emu, called on spu irq
void ( CALLBACK * irqCallbackSPU2 ) ( ) = 0 ; // func of main emu, called on spu irq
// certain globals (were local before, but with the new timeproc I need em global)
const int f [ 5 ] [ 2 ] = { { 0 , 0 } ,
{ 60 , 0 } ,
{ 115 , - 52 } ,
{ 98 , - 55 } ,
{ 122 , - 60 } } ;
int SSumR [ NSSIZE ] ;
int SSumL [ NSSIZE ] ;
extern ADMA Adma4 ;
extern ADMA Adma7 ;
DINPUT DirectInputC0 , DirectInputC1 ;
extern unsigned short interrupt ;
unsigned long SPUCycles ;
extern unsigned long SPUStartCycle [ 2 ] ;
extern unsigned long SPUTargetCycle [ 2 ] ;
int iCycle = 0 ;
short * pS ;
short * pS1 ;
static int lastch = - 1 ; // last channel processed on spu irq in timer mode
static int lastns = 0 ; // last ns pos
static int iSecureStart = 0 ; // secure start counter
////////////////////////////////////////////////////////////////////////
// CODE AREA
////////////////////////////////////////////////////////////////////////
// dirty inline func includes
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# include "reverb.c"
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# include "adsr.c"
////////////////////////////////////////////////////////////////////////
// helpers for simple interpolation
//
// easy interpolation on upsampling, no special filter, just "Pete's common sense" tm
//
// instead of having n equal sample values in a row like:
// ____
// |____
//
// we compare the current delta change with the next delta change.
//
// if curr_delta is positive,
//
// - and next delta is smaller (or changing direction):
// \.
// -__
//
// - and next delta significant (at least twice) bigger:
// --_
// \.
//
// - and next delta is nearly same:
// \.
// \.
//
//
// if curr_delta is negative,
//
// - and next delta is smaller (or changing direction):
// _--
// /
//
// - and next delta significant (at least twice) bigger:
// /
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// __-
//
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// - and next delta is nearly same:
// /
// /
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//
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INLINE void InterpolateUp ( int ch )
{
if ( s_chan [ ch ] . SB [ 32 ] = = 1 ) // flag == 1? calc step and set flag... and don't change the value in this pass
{
const int id1 = s_chan [ ch ] . SB [ 30 ] - s_chan [ ch ] . SB [ 29 ] ; // curr delta to next val
const int id2 = s_chan [ ch ] . SB [ 31 ] - s_chan [ ch ] . SB [ 30 ] ; // and next delta to next-next val :)
s_chan [ ch ] . SB [ 32 ] = 0 ;
if ( id1 > 0 ) // curr delta positive
{
if ( id2 < id1 )
{ s_chan [ ch ] . SB [ 28 ] = id1 ; s_chan [ ch ] . SB [ 32 ] = 2 ; }
else
if ( id2 < ( id1 < < 1 ) )
s_chan [ ch ] . SB [ 28 ] = ( id1 * s_chan [ ch ] . sinc ) / 0x10000L ;
else
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s_chan [ ch ] . SB [ 28 ] = ( id1 * s_chan [ ch ] . sinc ) / 0x20000L ;
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}
else // curr delta negative
{
if ( id2 > id1 )
{ s_chan [ ch ] . SB [ 28 ] = id1 ; s_chan [ ch ] . SB [ 32 ] = 2 ; }
else
if ( id2 > ( id1 < < 1 ) )
s_chan [ ch ] . SB [ 28 ] = ( id1 * s_chan [ ch ] . sinc ) / 0x10000L ;
else
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s_chan [ ch ] . SB [ 28 ] = ( id1 * s_chan [ ch ] . sinc ) / 0x20000L ;
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}
}
else
if ( s_chan [ ch ] . SB [ 32 ] = = 2 ) // flag 1: calc step and set flag... and don't change the value in this pass
{
s_chan [ ch ] . SB [ 32 ] = 0 ;
s_chan [ ch ] . SB [ 28 ] = ( s_chan [ ch ] . SB [ 28 ] * s_chan [ ch ] . sinc ) / 0x20000L ;
if ( s_chan [ ch ] . sinc < = 0x8000 )
s_chan [ ch ] . SB [ 29 ] = s_chan [ ch ] . SB [ 30 ] - ( s_chan [ ch ] . SB [ 28 ] * ( ( 0x10000 / s_chan [ ch ] . sinc ) - 1 ) ) ;
else s_chan [ ch ] . SB [ 29 ] + = s_chan [ ch ] . SB [ 28 ] ;
}
else // no flags? add bigger val (if possible), calc smaller step, set flag1
s_chan [ ch ] . SB [ 29 ] + = s_chan [ ch ] . SB [ 28 ] ;
}
//
// even easier interpolation on downsampling, also no special filter, again just "Pete's common sense" tm
//
INLINE void InterpolateDown ( int ch )
{
if ( s_chan [ ch ] . sinc > = 0x20000 ) // we would skip at least one val?
{
s_chan [ ch ] . SB [ 29 ] + = ( s_chan [ ch ] . SB [ 30 ] - s_chan [ ch ] . SB [ 29 ] ) / 2 ; // add easy weight
if ( s_chan [ ch ] . sinc > = 0x30000 ) // we would skip even more vals?
s_chan [ ch ] . SB [ 29 ] + = ( s_chan [ ch ] . SB [ 31 ] - s_chan [ ch ] . SB [ 30 ] ) / 2 ; // add additional next weight
}
}
////////////////////////////////////////////////////////////////////////
// helpers for gauss interpolation
# define gval0 (((short*)(&s_chan[ch].SB[29]))[gpos])
# define gval(x) (((short*)(&s_chan[ch].SB[29]))[(gpos+x)&3])
# include "gauss_i.h"
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
// START SOUND... called by main thread to setup a new sound on a channel
////////////////////////////////////////////////////////////////////////
INLINE void StartSound ( int ch )
{
dwNewChannel2 [ ch / 24 ] & = ~ ( 1 < < ( ch % 24 ) ) ; // clear new channel bit
dwEndChannel2 [ ch / 24 ] & = ~ ( 1 < < ( ch % 24 ) ) ; // clear end channel bit
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StartADSR ( ch ) ;
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StartREVERB ( ch ) ;
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s_chan [ ch ] . pCurr = s_chan [ ch ] . pStart ; // set sample start
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s_chan [ ch ] . s_1 = 0 ; // init mixing vars
s_chan [ ch ] . s_2 = 0 ;
s_chan [ ch ] . iSBPos = 28 ;
s_chan [ ch ] . bNew = 0 ; // init channel flags
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s_chan [ ch ] . bStop = 0 ;
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s_chan [ ch ] . bOn = 1 ;
s_chan [ ch ] . SB [ 29 ] = 0 ; // init our interpolation helpers
s_chan [ ch ] . SB [ 30 ] = 0 ;
if ( iUseInterpolation > = 2 ) // gauss interpolation?
{ s_chan [ ch ] . spos = 0x30000L ; s_chan [ ch ] . SB [ 28 ] = 0 ; } // -> start with more decoding
else { s_chan [ ch ] . spos = 0x10000L ; s_chan [ ch ] . SB [ 31 ] = 0 ; } // -> no/simple interpolation starts with one 44100 decoding
}
void UpdateMainVolL ( ) // LEFT VOLUME
{
short vol = regArea [ PS2_C0_MVOLL ] ;
if ( vol & 0x8000 ) // sweep?
{
short sInc = 1 ; // -> sweep up?
if ( vol & 0x2000 ) sInc = - 1 ; // -> or down?
if ( vol & 0x1000 ) vol ^ = 0xffff ; // -> mmm... phase inverted? have to investigate this
vol = ( ( vol & 0x7f ) + 1 ) / 2 ; // -> sweep: 0..127 -> 0..64
vol + = vol / ( 2 * sInc ) ; // -> HACK: we don't sweep right now, so we just raise/lower the volume by the half!
vol * = 128 ;
}
else // no sweep:
{
if ( vol & 0x4000 ) // -> mmm... phase inverted? have to investigate this
//vol^=0xffff;
vol = 0x3fff - ( vol & 0x3fff ) ;
}
vol & = 0x3fff ;
regArea [ PS2_C0_MVOLL ] = vol ; // store volume
}
////////////////////////////////////////////////////////////////////////
// RIGHT VOLUME register write
////////////////////////////////////////////////////////////////////////
void UpdateMainVolR ( ) // RIGHT VOLUME
{
short vol = regArea [ PS2_C0_MVOLR ] ;
if ( vol & 0x8000 ) // comments... see above :)
{
short sInc = 1 ;
if ( vol & 0x2000 ) sInc = - 1 ;
if ( vol & 0x1000 ) vol ^ = 0xffff ;
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vol = ( ( vol & 0x7f ) + 1 ) / 2 ;
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vol + = vol / ( 2 * sInc ) ;
vol * = 128 ;
}
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else
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{
if ( vol & 0x4000 ) //vol=vol^=0xffff;
vol = 0x3fff - ( vol & 0x3fff ) ;
}
vol & = 0x3fff ;
regArea [ PS2_C0_MVOLR ] = vol ;
}
////////////////////////////////////////////////////////////////////////
// MAIN SPU FUNCTION
// here is the main job handler... thread, timer or direct func call
// basically the whole sound processing is done in this fat func!
////////////////////////////////////////////////////////////////////////
// 5 ms waiting phase, if buffer is full and no new sound has to get started
// .. can be made smaller (smallest val: 1 ms), but bigger waits give
// better performance
# define PAUSE_W 5
# define PAUSE_L 5000
extern unsigned long MemAddr [ 2 ] ;
////////////////////////////////////////////////////////////////////////
int iSpuAsyncWait = 0 ;
extern int MMIXC0 , MMIXC1 ;
extern int ADMAS4Write ( ) ;
extern int ADMAS7Write ( ) ;
extern void SoundFeedVoiceData ( ) ;
void CALLBACK MainSPU2Proc ( unsigned int nTimerId , unsigned int msg , unsigned int dwUser ,
unsigned int dwParam1 , unsigned int dwParam2 )
{
int s_1 , s_2 , fa , ns ;
int core = 0 ;
unsigned char * start ;
unsigned int nSample ;
int d ;
int ch , predict_nr , shift_factor , flags , s ;
int gpos ;
while ( ! bEndThread ) // until we are shutting down
{
//--------------------------------------------------//
// ok, at the beginning we are looking if there is
// enuff free place in the dsound/oss buffer to
// fill in new data, or if there is a new channel to start.
// if not, we wait (thread) or return (timer/spuasync)
// until enuff free place is available/a new channel gets
// started
if ( aSyncMode = = 1 ) // Async supported? and enabled?
{
if ( aSyncCounter < = 737280 ) // If we have 10ms in the buffer, don't wait
{
if ( aSyncWait < 1000 ) Sleep ( aSyncWait ) ; // Wait a little to be more Synced (No more than 1 sec)
else Sleep ( 1000 ) ;
}
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while ( aSyncCounter < = 368640 & & ! bEndThread & & aSyncMode = = 1 )
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Sleep ( 1 ) ; // bEndThread/aSyncMode are needed, to avoid close problems
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aSyncCounter - = 36864 ; // 1ms more done (48Hz*768cycles/Hz)
}
else
if ( dwNewChannel2 [ 0 ] | | dwNewChannel2 [ 1 ] ) // new channel should start immedately?
{ // (at least one bit 0 ... MAXCHANNEL is set?)
iSecureStart + + ; // -> set iSecure
if ( iSecureStart > 5 ) iSecureStart = 0 ; // (if it is set 5 times - that means on 5 tries a new samples has been started - in a row, we will reset it, to give the sound update a chance)
}
else iSecureStart = 0 ; // 0: no new channel should start
while ( ! iSecureStart & & ! bEndThread & & // no new start? no thread end?
( SoundGetBytesBuffered ( ) > TESTSIZE ) ) // and still enuff data in sound buffer?
{
iSecureStart = 0 ; // reset secure
if ( iUseTimer ) // no-thread mode?
{
return ; // -> and done this time (timer mode 1 or 2)
}
// win thread mode:
Sleep ( PAUSE_W ) ; // sleep for x ms (win)
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if ( dwNewChannel2 [ 0 ] | | dwNewChannel2 [ 1 ] )
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iSecureStart = 1 ; // if a new channel kicks in (or, of course, sound buffer runs low), we will leave the loop
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}
//--------------------------------------------------// continue from irq handling in timer mode?
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if ( lastch > = 0 ) // will be -1 if no continue is pending
{
ch = lastch ; ns = lastns ; lastch = - 1 ; // -> setup all kind of vars to continue
if ( s_chan [ ch ] . iSBPos < 28 ) {
goto GOON ; // -> directly jump to the continue point
}
}
//--------------------------------------------------//
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//- main channel loop -//
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//--------------------------------------------------//
{
for ( ch = 0 ; ch < MAXCHAN ; ch + + ) // loop em all... we will collect 1 ms of sound of each playing channel
{
if ( s_chan [ ch ] . bNew ) StartSound ( ch ) ; // start new sound
if ( ! s_chan [ ch ] . bOn ) continue ; // channel not playing? next
core = ch / 24 ; // Choose which core
if ( s_chan [ ch ] . iActFreq ! = s_chan [ ch ] . iUsedFreq )
{
s_chan [ ch ] . iUsedFreq = s_chan [ ch ] . iActFreq ; // -> take it and calc steps
s_chan [ ch ] . sinc = s_chan [ ch ] . iRawPitch < < 4 ;
if ( ! s_chan [ ch ] . sinc ) s_chan [ ch ] . sinc = 1 ;
if ( iUseInterpolation = = 1 ) s_chan [ ch ] . SB [ 32 ] = 1 ; // -> freq change in simle imterpolation mode: set flag
}
ns = 0 ;
while ( ns < NSSIZE ) // loop until 1 ms of data is reached
{
while ( s_chan [ ch ] . spos > = 0x10000L )
{
if ( s_chan [ ch ] . iSBPos = = 28 ) // 28 reached?
{
start = s_chan [ ch ] . pCurr ; // set up the current pos
if ( s_chan [ ch ] . bOn = = 0 ) goto ENDX ; // special "stop" sign
s_chan [ ch ] . iSBPos = 0 ;
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s_1 = s_chan [ ch ] . s_1 ;
s_2 = s_chan [ ch ] . s_2 ;
predict_nr = ( int ) * start ;
start + + ;
flags = ( int ) * start ;
start + + ;
shift_factor = predict_nr & 0xf ;
predict_nr > > = 4 ;
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// -------------------------------------- //
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for ( nSample = 0 ; nSample < 28 ; nSample + = 2 , start + + )
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{
d = ( int ) * start ;
s = ( ( d & 0xf ) < < 12 ) ;
if ( s & 0x8000 ) s | = 0xffff0000 ;
fa = ( s > > shift_factor ) ;
fa = fa + ( ( s_1 * f [ predict_nr ] [ 0 ] ) > > 6 ) + ( ( s_2 * f [ predict_nr ] [ 1 ] ) > > 6 ) ;
s_2 = s_1 ;
s_1 = fa ;
s = ( ( d & 0xf0 ) < < 8 ) ;
s_chan [ ch ] . SB [ nSample ] = fa ;
if ( s & 0x8000 ) s | = 0xffff0000 ;
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fa = ( s > > shift_factor ) ;
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fa = fa + ( ( s_1 * f [ predict_nr ] [ 0 ] ) > > 6 ) + ( ( s_2 * f [ predict_nr ] [ 1 ] ) > > 6 ) ;
s_2 = s_1 ;
s_1 = fa ;
s_chan [ ch ] . SB [ nSample + 1 ] = fa ;
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}
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//////////////////////////////////////////// irq check
if ( spuCtrl2 [ core ] & 0x40 ) // some irq active?
{
if ( iDebugMode = = 1 ) logprintf ( " IRQ Active ch %x, C%x \r \n " , ch , ch / 24 ) ;
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if ( pSpuIrq [ core ] > = start - 16 & & // irq address reached?
pSpuIrq [ core ] < = start )
{
s_chan [ ch ] . iIrqDone = 1 ; // -> debug flag
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if ( iDebugMode = = 1 ) logprintf ( " Sample End ch %x, C%x \r \n " , ch , ch / 24 ) ;
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regArea [ 0x7C0 ] | = 0x4 < < core ;
regArea [ PS2_IRQINFO ] | = 0x4 < < core ;
irqCallbackSPU2 ( ) ; // -> let's see what is happening if we call our irqs instead ;)
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}
}
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//////////////////////////////////////////// flag handler
if ( flags & 0x2 ) s_chan [ ch ] . bIgnoreLoop = 1 ; // LOOP bit
if ( flags & 0x4 ) s_chan [ ch ] . pLoop = start - 16 ; // LOOP/START bit
if ( flags & 0x1 ) // 1: LOOP/END bit
{
dwEndChannel2 [ core ] | = ( 1 < < ( ch % 24 ) ) ;
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if ( ( flags & 0xF ) ! = 0x3 | | s_chan [ ch ] . pLoop = = NULL ) // Check if no loop is present
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{
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s_chan [ ch ] . bIgnoreLoop = 0 ;
s_chan [ ch ] . bStop = 1 ;
logprintf ( " Stopping \r \n " ) ;
}
else start = s_chan [ ch ] . pLoop ;
}
s_chan [ ch ] . pCurr = start ; // store values for next cycle
s_chan [ ch ] . s_1 = s_1 ;
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s_chan [ ch ] . s_2 = s_2 ;
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////////////////////////////////////////////
GOON : ;
}
fa = s_chan [ ch ] . SB [ s_chan [ ch ] . iSBPos + + ] ; // get sample data
if ( ( spuCtrl2 [ core ] & 0x4000 ) = = 0 ) fa = 0 ; // muted?
else // else adjust
{
if ( fa > 32767L ) fa = 32767L ;
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if ( fa < - 32767L ) fa = - 32767L ;
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}
if ( iUseInterpolation > = 2 ) // gauss/cubic interpolation
{
gpos = s_chan [ ch ] . SB [ 28 ] ;
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gval0 = fa ;
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gpos = ( gpos + 1 ) & 3 ;
s_chan [ ch ] . SB [ 28 ] = gpos ;
}
else
if ( iUseInterpolation = = 1 ) // simple interpolation
{
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s_chan [ ch ] . SB [ 28 ] = 0 ;
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s_chan [ ch ] . SB [ 29 ] = s_chan [ ch ] . SB [ 30 ] ; // -> helpers for simple linear interpolation: delay real val for two slots, and calc the two deltas, for a 'look at the future behaviour'
s_chan [ ch ] . SB [ 30 ] = s_chan [ ch ] . SB [ 31 ] ;
s_chan [ ch ] . SB [ 31 ] = fa ;
s_chan [ ch ] . SB [ 32 ] = 1 ; // -> flag: calc new interolation
}
else s_chan [ ch ] . SB [ 29 ] = fa ; // no interpolation
s_chan [ ch ] . spos - = 0x10000L ;
}
////////////////////////////////////////////////
// noise handler... just produces some noise data
// surely wrong... and no noise frequency (spuCtrl&0x3f00) will be used...
// and sometimes the noise will be used as fmod modulation... pfff
if ( s_chan [ ch ] . bNoise )
{
if ( ( dwNoiseVal < < = 1 ) & 0x80000000L )
{
dwNoiseVal ^ = 0x0040001L ;
fa = ( ( dwNoiseVal > > 2 ) & 0x7fff ) ;
fa = - fa ;
}
else fa = ( dwNoiseVal > > 2 ) & 0x7fff ;
// mmm... depending on the noise freq we allow bigger/smaller changes to the previous val
fa = s_chan [ ch ] . iOldNoise + ( ( fa - s_chan [ ch ] . iOldNoise ) / ( ( 0x001f - ( ( spuCtrl2 [ core ] & 0x3f00 ) > > 9 ) ) + 1 ) ) ;
if ( fa > 32767L ) fa = 32767L ;
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if ( fa < - 32767L ) fa = - 32767L ;
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s_chan [ ch ] . iOldNoise = fa ;
if ( iUseInterpolation < 2 ) // no gauss/cubic interpolation?
s_chan [ ch ] . SB [ 29 ] = fa ; // -> store noise val in "current sample" slot
} //----------------------------------------
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else // NO NOISE (NORMAL SAMPLE DATA) HERE
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{ //------------------------------------------//
if ( iUseInterpolation = = 3 ) // cubic interpolation
{
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long xd ;
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xd = ( ( s_chan [ ch ] . spos ) > > 1 ) + 1 ;
gpos = s_chan [ ch ] . SB [ 28 ] ;
fa = gval ( 3 ) - 3 * gval ( 2 ) + 3 * gval ( 1 ) - gval0 ;
fa * = ( xd - ( 2 < < 15 ) ) / 6 ;
fa > > = 15 ;
fa + = gval ( 2 ) - gval ( 1 ) - gval ( 1 ) + gval0 ;
fa * = ( xd - ( 1 < < 15 ) ) > > 1 ;
fa > > = 15 ;
fa + = gval ( 1 ) - gval0 ;
fa * = xd ;
fa > > = 15 ;
fa = fa + gval0 ;
}
//------------------------------------------//
else
if ( iUseInterpolation = = 2 ) // gauss interpolation
{
int vl , vr ;
vl = ( s_chan [ ch ] . spos > > 6 ) & ~ 3 ;
gpos = s_chan [ ch ] . SB [ 28 ] ;
vr = ( gauss [ vl ] * gval0 ) & ~ 2047 ;
vr + = ( gauss [ vl + 1 ] * gval ( 1 ) ) & ~ 2047 ;
vr + = ( gauss [ vl + 2 ] * gval ( 2 ) ) & ~ 2047 ;
vr + = ( gauss [ vl + 3 ] * gval ( 3 ) ) & ~ 2047 ;
fa = vr > > 11 ;
}
//------------------------------------------//
else
if ( iUseInterpolation = = 1 ) // simple interpolation
{
if ( s_chan [ ch ] . sinc < 0x10000L ) // -> upsampling?
InterpolateUp ( ch ) ; // --> interpolate up
else InterpolateDown ( ch ) ; // --> else down
fa = s_chan [ ch ] . SB [ 29 ] ;
}
//------------------------------------------//
else fa = s_chan [ ch ] . SB [ 29 ] ; // no interpolation
}
s_chan [ ch ] . sval = ( MixADSR ( ch ) * fa ) / 1023 ; // add adsr
if ( s_chan [ ch ] . bFMod = = 2 ) // fmod freq channel
{
int NP = ( ( 32768L + s_chan [ ch ] . sval ) * s_chan [ ch + 1 ] . iRawPitch ) > > 14 ;
if ( NP > 0x3fff ) NP = 0x3fff ;
else if ( NP < 0x1 ) NP = 0x1 ;
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NP = ( 48000L * NP ) > > 12 ; // calc frequency ( 48hz )
s_chan [ ch + 1 ] . iActFreq = NP ;
s_chan [ ch + 1 ] . iUsedFreq = NP ;
s_chan [ ch + 1 ] . sinc = ( ( ( NP / 10 ) < < 16 ) / 48000 ) ; // check , was 4800
if ( ! s_chan [ ch + 1 ] . sinc ) s_chan [ ch + 1 ] . sinc = 1 ;
if ( iUseInterpolation = = 1 ) // freq change in sipmle interpolation mode
s_chan [ ch + 1 ] . SB [ 32 ] = 1 ;
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}
else
{
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//////////////////////////////////////////////
// ok, left/right sound volume (ps2 volume goes from 0 ... 0x3fff)
if ( s_chan [ ch ] . iMute ) s_chan [ ch ] . sval = 0 ; // debug mute
else
{
if ( s_chan [ ch ] . bVolumeL )
SSumL [ ns ] + = ( s_chan [ ch ] . sval * s_chan [ ch ] . iLeftVolume ) > > 14 ;
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if ( s_chan [ ch ] . bVolumeR )
SSumR [ ns ] + = ( s_chan [ ch ] . sval * s_chan [ ch ] . iRightVolume ) > > 14 ;
}
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//////////////////////////////////////////////
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// now let us store sound data for reverb
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if ( s_chan [ ch ] . bRVBActive ) StoreREVERB ( ch , ns ) ;
}
////////////////////////////////////////////////
// ok, go on until 1 ms data of this channel is collected
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ns + + ;
s_chan [ ch ] . spos + = s_chan [ ch ] . sinc ;
}
ENDX : ;
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}
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}
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//---------------------------------------------------//
//- here we have another 1 ms of sound data
//---------------------------------------------------//
///////////////////////////////////////////////////////
// mix all channels (including reverb) into one buffer
for ( ns = 0 ; ns < NSSIZE ; ns + + )
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{
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DirectInputC0 . Left = 0 ;
DirectInputC0 . Right = 0 ;
DirectInputC1 . Left = 0 ;
DirectInputC1 . Right = 0 ;
if ( ( regArea [ PS2_C0_MMIX ] & 0xF0 ) & & ( regArea [ PS2_C0_ADMAS ] & 0x1 ) /*&& !(spuCtrl2[0] & 0x30)*/ )
{
DirectInputC0 . Left = ( ( short * ) spuMem ) [ 0x2000 + Adma4 . Index ] ;
DirectInputC0 . Right = ( ( short * ) spuMem ) [ 0x2200 + Adma4 . Index ] ;
if ( spuCtrl2 [ 0 ] & 0x40 & & ( spuIrq2 [ 0 ] = = ( 0x2000 + Adma4 . Index ) | | spuIrq2 [ 0 ] = = ( 0x2200 + Adma4 . Index ) ) ) {
regArea [ 0x7C0 ] | = 0x4 ;
regArea [ PS2_IRQINFO ] | = 0x4 ;
irqCallbackSPU2 ( ) ;
}
Adma4 . Index + = 1 ;
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if ( ( Adma4 . ADMAPos - ( Adma4 . Index + 255 ) ) < = 0 & & ( Adma4 . ADMAPos > Adma4 . Index ) )
{
if ( ADMAS4Write ( ) )
{
//if( Adma4.AmountLeft == 0 )
if ( Adma4 . IRQ = = 0 & & ( spuCtrl2 [ 0 ] & 0x30 ) ) {
Adma4 . IRQ = 1 ;
irqCallbackDMA4 ( ) ;
}
}
}
if ( Adma4 . Index = = 512 ) {
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Adma4 . Index = 0 ;
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}
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}
if ( ( regArea [ PS2_C1_MMIX ] & 0xF0 ) & & regArea [ PS2_C1_ADMAS ] & 0x2 /*&& !(spuCtrl2[1] & 0x30)*/ )
{
DirectInputC1 . Left = ( ( short * ) spuMem ) [ 0x2400 + Adma7 . Index ] ;
DirectInputC1 . Right = ( ( short * ) spuMem ) [ 0x2600 + Adma7 . Index ] ;
if ( spuCtrl2 [ 1 ] & 0x40 & & ( spuIrq2 [ 1 ] = = ( 0x2400 + Adma7 . Index ) | | spuIrq2 [ 1 ] = = ( 0x2600 + Adma7 . Index ) ) ) {
regArea [ 0x7C0 ] | = 0x8 ;
regArea [ PS2_IRQINFO ] | = 0x8 ;
irqCallbackSPU2 ( ) ;
}
Adma7 . Index + = 1 ;
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if ( ( Adma7 . ADMAPos - ( Adma7 . Index + 255 ) ) < = 0 & & ( Adma7 . ADMAPos > Adma7 . Index ) )
{
if ( ADMAS7Write ( ) )
{
//if( Adma4.AmountLeft == 0 )
if ( Adma7 . IRQ = = 0 & & ( spuCtrl2 [ 1 ] & 0x30 ) ) {
Adma7 . IRQ = 1 ;
irqCallbackDMA7 ( ) ;
}
}
}
if ( Adma7 . Index = = 512 ) {
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Adma7 . Index = 0 ;
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}
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}
SSumL [ ns ] + = MixREVERBLeft ( ns , 0 ) ;
SSumL [ ns ] + = MixREVERBLeft ( ns , 1 ) ;
if ( ( regArea [ PS2_C0_MMIX ] & 0x80 ) ) SSumL [ ns ] + = ( DirectInputC0 . Left * ( int ) regArea [ PS2_C0_BVOLL ] ) > > 16 ;
if ( ( regArea [ PS2_C1_MMIX ] & 0x80 ) ) SSumL [ ns ] + = ( DirectInputC1 . Left * ( int ) regArea [ PS2_C1_BVOLL ] ) > > 16 ;
UpdateMainVolL ( ) ;
if ( iVolume = = 5 ) d = 0 ;
else d = SSumL [ ns ] / iVolume ;
SSumL [ ns ] = 0 ;
* pS + + = ( d < - 32767 ) ? - 32767 : ( ( d > 32767 ) ? 32767 : d ) ;
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SSumR [ ns ] + = MixREVERBRight ( 0 ) ;
SSumR [ ns ] + = MixREVERBRight ( 1 ) ;
if ( ( regArea [ PS2_C0_MMIX ] & 0x40 ) ) SSumR [ ns ] + = ( DirectInputC0 . Right * ( int ) regArea [ PS2_C0_BVOLR ] ) > > 16 ;
if ( ( regArea [ PS2_C1_MMIX ] & 0x40 ) ) SSumR [ ns ] + = ( DirectInputC1 . Right * ( int ) regArea [ PS2_C1_BVOLR ] ) > > 16 ;
UpdateMainVolR ( ) ;
if ( iVolume = = 5 ) d = 0 ;
else d = SSumR [ ns ] / iVolume ;
SSumR [ ns ] = 0 ;
* pS + + = ( d < - 32767 ) ? - 32767 : ( ( d > 32767 ) ? 32767 : d ) ;
}
InitREVERB ( ) ;
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//////////////////////////////////////////////////////
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// feed the sound
// wanna have around 1/60 sec (16.666 ms) updates
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if ( iCycle + + > 16 )
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{
SoundFeedVoiceData ( ( unsigned char * ) pSpuBuffer ,
( ( unsigned char * ) pS ) -
( ( unsigned char * ) pSpuBuffer ) ) ;
pS = ( short * ) pSpuBuffer ;
iCycle = 0 ;
}
}
// end of big main loop...
bThreadEnded = 1 ;
return ;
}
////////////////////////////////////////////////////////////////////////
// SPU ASYNC... even newer epsxe func
// 1 time every 'cycle' cycles... harhar
////////////////////////////////////////////////////////////////////////
EXPORT_GCC void CALLBACK SPU2async ( unsigned long cycle )
{
SPUCycles + = cycle ;
if ( interrupt & ( 1 < < 2 ) ) {
if ( SPUCycles - SPUStartCycle [ 1 ] > = SPUTargetCycle [ 1 ] ) {
interrupt & = ~ ( 1 < < 2 ) ;
irqCallbackDMA7 ( ) ;
}
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}
if ( interrupt & ( 1 < < 1 ) ) {
if ( SPUCycles - SPUStartCycle [ 0 ] > = SPUTargetCycle [ 0 ] ) {
interrupt & = ~ ( 1 < < 1 ) ;
irqCallbackDMA4 ( ) ;
}
}
/*if(iSpuAsyncWait)
{
iSpuAsyncWait + + ;
if ( iSpuAsyncWait < = 64 ) return ;
iSpuAsyncWait = 0 ;
} */
if ( iDebugMode = = 2 )
{
# ifdef _WIN32
if ( IsWindow ( hWDebug ) ) DestroyWindow ( hWDebug ) ;
hWDebug = 0 ;
# endif
iDebugMode = 0 ;
}
if ( iRecordMode = = 2 )
{
# ifdef _WIN32
if ( IsWindow ( hWRecord ) ) DestroyWindow ( hWRecord ) ;
hWRecord = 0 ;
# endif
iRecordMode = 0 ;
}
if ( iUseTimer = = 0 ) // does the emu support SPUAsync, is it in thread mode, and in Thread Sync ON?
{
aSyncMode = 1 ; // Ten, activate main function Sync system flag
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aSyncTimerOld = aSyncTimerNew ; // Recalculate, AsyncWait (ms)
aSyncTimerNew = timeGetTime ( ) ;
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aSyncWait = ( unsigned int ) ( ( aSyncTimerNew - aSyncTimerOld ) / 2 ) ;
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aSyncCounter + = cycle ;
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return ;
}
if ( iUseTimer = = 2 ) // special mode, only used in Linux by this spu (or if you enable the experimental Windows mode)
{
//printf("spu2async: calling mainspu2proc\n");
aSyncMode = 0 ;
if ( ! bSpuInit ) return ; // -> no init, no call
MainSPU2Proc ( 0 , 0 , 0 , 0 , 0 ) ; // -> experimental win mode... not really tested... don't like the drawbacks
}
}
////////////////////////////////////////////////////////////////////////
// INIT/EXIT STUFF
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
// SPUINIT: this func will be called first by the main emu
////////////////////////////////////////////////////////////////////////
# ifdef _WIN32
static HINSTANCE hIRE = NULL ;
# endif
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EXPORT_GCC long CALLBACK SPU2init ( void )
{
spuMemC = ( unsigned char * ) spuMem ; // just small setup
memset ( ( void * ) s_chan , 0 , MAXCHAN * sizeof ( SPUCHAN ) ) ;
memset ( rvb , 0 , 2 * sizeof ( REVERBInfo ) ) ;
InitADSR ( ) ;
# ifdef _WIN32
if ( hIRE = = NULL ) hIRE = LoadLibrary ( " Riched32.dll " ) ; // needed for debug output
# endif
return 0 ;
}
////////////////////////////////////////////////////////////////////////
// SETUPTIMER: init of certain buffers and threads/timers
////////////////////////////////////////////////////////////////////////
# ifdef _WIN32
DWORD WINAPI MAINThreadEx ( LPVOID lpParameter )
{
MainSPU2Proc ( 0 , 0 , 0 , 0 , 0 ) ;
return 0 ;
}
# else
void * MAINThreadEx ( void * param )
{
MainSPU2Proc ( 0 , 0 , 0 , 0 , 0 ) ;
return NULL ;
}
# endif
void SetupTimer ( void )
{
memset ( SSumR , 0 , NSSIZE * sizeof ( int ) ) ; // init some mixing buffers
memset ( SSumL , 0 , NSSIZE * sizeof ( int ) ) ;
pS = ( short * ) pSpuBuffer ; // setup soundbuffer pointer
pS1 = ( short * ) pSpuStreamBuffer [ 0 ] ; // setup soundbuffer pointer
bEndThread = 0 ; // init thread vars
bSpuInit = 1 ; // flag: we are inited
bSpuInit = 1 ; // flag: we are inited
# ifdef _WIN32
if ( iUseTimer = = 0 ) // windows: use thread
{
//_beginthread(MAINThread,0,NULL);
DWORD dw ;
hMainThread = CreateThread ( NULL , 0 , MAINThreadEx , 0 , 0 , & dw ) ;
SetThreadPriority ( hMainThread ,
//THREAD_PRIORITY_TIME_CRITICAL);
THREAD_PRIORITY_HIGHEST ) ;
}
# else
if ( pthread_create ( & hMainThread , NULL , MAINThreadEx , NULL ) ! = 0 ) {
printf ( " Failed to create spu2thread \n " ) ;
return ;
}
# endif
}
////////////////////////////////////////////////////////////////////////
// REMOVETIMER: kill threads/timers
////////////////////////////////////////////////////////////////////////
void RemoveTimer ( void )
{
bEndThread = 1 ; // raise flag to end thread
if ( iUseTimer ! = 2 ) // windows thread?
{
while ( ! bThreadEnded ) { Sleep ( 5L ) ; } // -> wait till thread has ended
Sleep ( 5L ) ;
}
bSpuInit = 0 ;
bThreadEnded = 0 ; // no more spu is running
}
////////////////////////////////////////////////////////////////////////
// SETUPSTREAMS: init most of the spu buffers
////////////////////////////////////////////////////////////////////////
void SetupStreams ( void )
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{
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int i ;
pSpuBuffer = ( unsigned char * ) malloc ( 38400 ) ; // alloc mixing buffer
i = NSSIZE * 2 ;
sRVBStart [ 0 ] = ( int * ) malloc ( i * 4 ) ; // alloc reverb buffer
memset ( sRVBStart [ 0 ] , 0 , i * 4 ) ;
sRVBEnd [ 0 ] = sRVBStart [ 0 ] + i ;
sRVBPlay [ 0 ] = sRVBStart [ 0 ] ;
sRVBStart [ 1 ] = ( int * ) malloc ( i * 4 ) ; // alloc reverb buffer
memset ( sRVBStart [ 1 ] , 0 , i * 4 ) ;
sRVBEnd [ 1 ] = sRVBStart [ 1 ] + i ;
sRVBPlay [ 1 ] = sRVBStart [ 1 ] ;
for ( i = 0 ; i < MAXCHAN ; i + + ) // loop sound channels
{
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// we don't use mutex sync... not needed, would only
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// slow us down:
// s_chan[i].hMutex=CreateMutex(NULL,FALSE,NULL);
s_chan [ i ] . ADSRX . SustainLevel = 1024 ; // -> init sustain
s_chan [ i ] . iMute = 0 ;
s_chan [ i ] . iIrqDone = 0 ;
s_chan [ i ] . pLoop = spuMemC + ( s_chan [ i ] . iStartAdr < < 1 ) ;
s_chan [ i ] . pStart = spuMemC + ( s_chan [ i ] . iStartAdr < < 1 ) ;
s_chan [ i ] . pCurr = spuMemC + ( s_chan [ i ] . iStartAdr < < 1 ) ;
}
}
////////////////////////////////////////////////////////////////////////
// REMOVESTREAMS: free most buffer
////////////////////////////////////////////////////////////////////////
void RemoveStreams ( void )
{
free ( pSpuBuffer ) ; // free mixing buffer
pSpuBuffer = NULL ;
free ( sRVBStart [ 0 ] ) ; // free reverb buffer
sRVBStart [ 0 ] = 0 ;
free ( sRVBStart [ 1 ] ) ; // free reverb buffer
sRVBStart [ 1 ] = 0 ;
}
////////////////////////////////////////////////////////////////////////
// SPUOPEN: called by main emu after init
////////////////////////////////////////////////////////////////////////
# include <stdio.h>
FILE * LogFile ;
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EXPORT_GCC long CALLBACK SPU2open ( void * pWindow )
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{
# ifdef _WIN32
HWND hW = pWindow = = NULL ? NULL : * ( HWND * ) pWindow ;
# else
Display * dsp = * ( Display * * ) pWindow ;
# endif
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if ( bSPUIsOpen ) return 0 ; // security for some stupid main emus
LogFile = fopen ( " logs/spu2.txt " , " wb " ) ;
iVolume = 3 ;
bEndThread = 0 ;
bThreadEnded = 0 ;
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spuMemC = ( unsigned char * ) spuMem ;
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memset ( ( void * ) s_chan , 0 , ( MAXCHAN + 1 ) * sizeof ( SPUCHAN ) ) ;
pSpuIrq [ 0 ] = spuMemC ;
pSpuIrq [ 1 ] = spuMemC ;
dwNewChannel2 [ 0 ] = 0 ;
dwNewChannel2 [ 1 ] = 0 ;
dwEndChannel2 [ 0 ] = 0 ;
dwEndChannel2 [ 1 ] = 0 ;
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spuCtrl2 [ 0 ] = 0 ;
spuCtrl2 [ 1 ] = 0 ;
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spuStat2 [ 0 ] = 0 ;
spuStat2 [ 1 ] = 0 ;
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spuIrq2 [ 0 ] = 0 ;
spuIrq2 [ 1 ] = 0 ;
spuAddr2 [ 0 ] = 0x0 ;
spuAddr2 [ 1 ] = 0x0 ;
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spuRvbAddr2 [ 0 ] = 0 ;
spuRvbAddr2 [ 1 ] = 0 ;
spuRvbAEnd2 [ 0 ] = 0 ;
spuRvbAEnd2 [ 1 ] = 0 ;
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memset ( & Adma4 , 0 , sizeof ( ADMA ) ) ;
memset ( & Adma7 , 0 , sizeof ( ADMA ) ) ;
memset ( & DirectInputC0 , 0 , sizeof ( DINPUT ) ) ;
memset ( & DirectInputC1 , 0 , sizeof ( DINPUT ) ) ;
# ifdef _WIN32
LastWrite = 0x00000000 ; LastPlay = 0 ; // init some play vars
if ( ! IsWindow ( hW ) ) hW = GetActiveWindow ( ) ;
hWMain = hW ; // store hwnd
ReadConfig ( ) ; // read user stuff
# endif
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SetupSound ( ) ; // setup midas (before init!)
SetupStreams ( ) ; // prepare streaming
SetupTimer ( ) ; // timer for feeding data
bSPUIsOpen = 1 ;
# ifdef _WIN32
if ( iDebugMode ) // windows debug dialog
{
hWDebug = CreateDialog ( hInst , MAKEINTRESOURCE ( IDD_DEBUG ) ,
NULL , ( DLGPROC ) DebugDlgProc ) ;
SetWindowPos ( hWDebug , HWND_TOPMOST , 0 , 0 , 0 , 0 , SWP_NOMOVE | SWP_NOSIZE | SWP_SHOWWINDOW | SWP_NOACTIVATE ) ;
UpdateWindow ( hWDebug ) ;
SetFocus ( hWMain ) ;
}
if ( iRecordMode ) // windows recording dialog
{
hWRecord = CreateDialog ( hInst , MAKEINTRESOURCE ( IDD_RECORD ) ,
NULL , ( DLGPROC ) RecordDlgProc ) ;
SetWindowPos ( hWRecord , HWND_TOPMOST , 0 , 0 , 0 , 0 , SWP_NOMOVE | SWP_NOSIZE | SWP_SHOWWINDOW | SWP_NOACTIVATE ) ;
UpdateWindow ( hWRecord ) ;
SetFocus ( hWMain ) ;
}
# endif
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return 0 ;
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}
////////////////////////////////////////////////////////////////////////
// SPUCLOSE: called before shutdown
////////////////////////////////////////////////////////////////////////
EXPORT_GCC void CALLBACK SPU2close ( void )
{
if ( ! bSPUIsOpen ) return ; // some security
bSPUIsOpen = 0 ; // no more open
//fclose(LogFile);
# ifdef _WIN32
if ( IsWindow ( hWDebug ) ) DestroyWindow ( hWDebug ) ;
hWDebug = 0 ;
if ( IsWindow ( hWRecord ) ) DestroyWindow ( hWRecord ) ;
hWRecord = 0 ;
# endif
RemoveTimer ( ) ; // no more feeding
RemoveSound ( ) ; // no more sound handling
RemoveStreams ( ) ; // no more streaming
}
////////////////////////////////////////////////////////////////////////
// SPUSHUTDOWN: called by main emu on final exit
////////////////////////////////////////////////////////////////////////
EXPORT_GCC void CALLBACK SPU2shutdown ( void )
{
# ifdef _WIN32
if ( hIRE ! = NULL ) { FreeLibrary ( hIRE ) ; hIRE = NULL ; }
# endif
return ;
}
////////////////////////////////////////////////////////////////////////
// SPUTEST: we don't test, we are always fine ;)
////////////////////////////////////////////////////////////////////////
EXPORT_GCC long CALLBACK SPU2test ( void )
{
return 0 ;
}
////////////////////////////////////////////////////////////////////////
// SPUCONFIGURE: call config dialog
////////////////////////////////////////////////////////////////////////
EXPORT_GCC void CALLBACK SPU2configure ( void )
{
# ifdef _WIN32
DialogBox ( hInst , MAKEINTRESOURCE ( IDD_CFGDLG ) ,
GetActiveWindow ( ) , ( DLGPROC ) DSoundDlgProc ) ;
# else
//StartCfgTool("CFG");
# endif
}
////////////////////////////////////////////////////////////////////////
// SPUABOUT: show about window
////////////////////////////////////////////////////////////////////////
EXPORT_GCC void CALLBACK SPU2about ( void )
{
# ifdef _WIN32
DialogBox ( hInst , MAKEINTRESOURCE ( IDD_ABOUT ) ,
GetActiveWindow ( ) , ( DLGPROC ) AboutDlgProc ) ;
# else
//StartCfgTool("ABOUT");
# endif
}
////////////////////////////////////////////////////////////////////////
// SETUP CALLBACKS
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// this functions will be called once,
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// passes a callback that should be called on SPU-IRQ/cdda volume change
////////////////////////////////////////////////////////////////////////
EXPORT_GCC void CALLBACK SPU2irqCallback ( void ( CALLBACK * SPU2callback ) ( int ) ,
void ( CALLBACK * DMA4callback ) ( int ) ,
void ( CALLBACK * DMA7callback ) ( int ) )
{
irqCallbackSPU2 = SPU2callback ;
irqCallbackDMA4 = DMA4callback ;
irqCallbackDMA7 = DMA7callback ;
}
////////////////////////////////////////////////////////////////////////
// COMMON PLUGIN INFO FUNCS
////////////////////////////////////////////////////////////////////////
EXPORT_GCC char * CALLBACK PS2EgetLibName ( void )
{
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return libraryName ;
}
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# define PS2E_LT_SPU2 0x4
EXPORT_GCC unsigned long CALLBACK PS2EgetLibType ( void )
{
return PS2E_LT_SPU2 ;
}
EXPORT_GCC unsigned long CALLBACK PS2EgetLibVersion2 ( unsigned long type )
{
unsigned char v = version ;
// key hack to fake a lower version:
//if(GetAsyncKeyState(VK_SHIFT)&0x8000) v--;
// compile hack to set lib version to PCSX2 0.6 standards
//v=2;
return v < < 16 | revision < < 8 | build ;
}
////////////////////////////////////////////////////////////////////////