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AxibugEmuOnline/References/VirtuaNESex_src_191105/NES/ApuEX/APU_N106.cpp

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2024-08-05 17:58:53 +08:00
//////////////////////////////////////////////////////////////////////////
// //
// Namcot N106 //
// Norix //
// written 2001/09/18 //
// last modify ----/--/-- //
//////////////////////////////////////////////////////////////////////////
#include "APU_N106.h"
#include "state.h"
#include "DebugOut.h"
#define CHANNEL_VOL_SHIFT 6
APU_N106::APU_N106()
{
// <20>ŏ<EFBFBD><C58F><EFBFBD><EFBFBD><EFBFBD>TONE<4E>̏<EFBFBD><CC8F><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>s<EFBFBD><73>
::ZeroMemory( tone, sizeof(tone) );
// <20><><EFBFBD>ݒ<EFBFBD>
cpu_clock = APU_CLOCK;
cycle_rate = (DWORD)(cpu_clock*12.0f*(1<<20)/(45.0f*22050.0f));
}
APU_N106::~APU_N106()
{
}
void APU_N106::Reset( FLOAT fClock, INT nRate )
{
for( INT i = 0; i < 8; i++ ) {
::ZeroMemory( &op[i], sizeof(op[i]) );
op[i].tonelen = 0x10<<18;
}
address = 0;
addrinc = 1;
channel_use = 8;
Setup( fClock, nRate );
// TONE<4E>̏<EFBFBD><CC8F><EFBFBD><EFBFBD><EFBFBD><EFBFBD>͂<EFBFBD><CD82>Ȃ<EFBFBD>...
}
void APU_N106::Setup( FLOAT fClock, INT nRate )
{
cpu_clock = fClock;
cycle_rate = (DWORD)(cpu_clock*12.0f*(1<<20)/(45.0f*nRate));
}
void APU_N106::Write( WORD addr, BYTE data )
{
if( addr == 0x4800 ) {
// tone[address*2+0] = (INT)(data&0x0F);
// tone[address*2+1] = (INT)(data >>4);
tone[address*2+0] = data&0x0F;
tone[address*2+1] = data>>4;
if( address >= 0x40 ) {
INT no = (address-0x40)>>3;
DWORD tonelen;
CHANNEL& ch = op[no];
switch( address & 7 ) {
case 0x00:
ch.freq = (ch.freq&~0x000000FF)|(DWORD)data;
break;
case 0x02:
ch.freq = (ch.freq&~0x0000FF00)|((DWORD)data<<8);
break;
case 0x04:
ch.freq = (ch.freq&~0x00030000)|(((DWORD)data&0x03)<<16);
tonelen = (0x20-(data&0x1c))<<18;
ch.databuf = (data&0x1c)>>2;
if( ch.tonelen != tonelen ) {
ch.tonelen = tonelen;
ch.phase = 0;
}
break;
case 0x06:
ch.toneadr = data;
break;
case 0x07:
ch.vol = data&0x0f;
ch.volupdate = 0xFF;
if( no == 7 )
channel_use = ((data>>4)&0x07)+1;
break;
}
}
if( addrinc ) {
address = (address+1)&0x7f;
}
} else if( addr == 0xF800 ) {
address = data&0x7F;
addrinc = data&0x80;
}
}
BYTE APU_N106::Read( WORD addr )
{
// $4800 dummy read!!
if( addr == 0x0000 ) {
if( addrinc ) {
address = (address+1)&0x7F;
}
}
return (BYTE)(addr>>8);
}
INT APU_N106::Process( INT channel )
{
if( channel >= (8-channel_use) && channel < 8 ) {
return ChannelRender( op[channel] );
}
return 0;
}
INT APU_N106::GetFreq( INT channel )
{
if( channel < 8 ) {
channel &= 7;
if( channel < (8-channel_use) )
return 0;
CHANNEL* ch = &op[channel&0x07];
if( !ch->freq || !ch->vol )
return 0;
INT temp = channel_use*(8-ch->databuf)*4*45;
if( !temp )
return 0;
return (INT)(256.0*(double)cpu_clock*12.0*ch->freq/((double)0x40000*temp));
}
return 0;
}
INT APU_N106::ChannelRender( CHANNEL& ch )
{
DWORD phasespd = channel_use<<20;
ch.phaseacc -= cycle_rate;
if( ch.phaseacc >= 0 ) {
if( ch.volupdate ) {
ch.output = ((INT)tone[((ch.phase>>18)+ch.toneadr)&0xFF]*ch.vol)<<CHANNEL_VOL_SHIFT;
ch.volupdate = 0;
}
return ch.output;
}
while( ch.phaseacc < 0 ) {
ch.phaseacc += phasespd;
ch.phase += ch.freq;
}
while( ch.tonelen && (ch.phase >= ch.tonelen)) {
ch.phase -= ch.tonelen;
}
ch.output = ((INT)tone[((ch.phase>>18)+ch.toneadr)&0xFF]*ch.vol)<<CHANNEL_VOL_SHIFT;
return ch.output;
}
INT APU_N106::GetStateSize()
{
return 3*sizeof(BYTE) + 8*sizeof(CHANNEL) + sizeof(tone);
}
void APU_N106::SaveState( LPBYTE p )
{
SETBYTE( p, addrinc );
SETBYTE( p, address );
SETBYTE( p, channel_use );
SETBLOCK( p, op, sizeof(op) );
SETBLOCK( p, tone, sizeof(tone) );
}
void APU_N106::LoadState( LPBYTE p )
{
GETBYTE( p, addrinc );
GETBYTE( p, address );
GETBYTE( p, channel_use );
GETBLOCK( p, op, sizeof(op) );
GETBLOCK( p, tone, sizeof(tone) );
}
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