381 lines
7.6 KiB
C++
381 lines
7.6 KiB
C++
//////////////////////////////////////////////////////////////////////////
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// //
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// Nintendo MMC5 //
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// Norix //
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// written 2001/09/18 //
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// last modify ----/--/-- //
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//////////////////////////////////////////////////////////////////////////
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#include "DebugOut.h"
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#include "APU_MMC5.h"
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#include "state.h"
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#define RECTANGLE_VOL_SHIFT 8
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#define DAOUT_VOL_SHIFT 6
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INT APU_MMC5::vbl_length[32] = {
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5, 127, 10, 1, 19, 2, 40, 3,
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80, 4, 30, 5, 7, 6, 13, 7,
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6, 8, 12, 9, 24, 10, 48, 11,
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96, 12, 36, 13, 8, 14, 16, 15
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};
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INT APU_MMC5::duty_lut[4] = {
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2, 4, 8, 12
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};
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INT APU_MMC5::decay_lut[16];
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INT APU_MMC5::vbl_lut[32];
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APU_MMC5::APU_MMC5()
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{
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// ‰¼<E280B0>Ý’è
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Reset( APU_CLOCK, 22050 );
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}
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APU_MMC5::~APU_MMC5()
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{
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}
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void APU_MMC5::Reset( FLOAT fClock, INT nRate )
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{
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ZeroMemory( &ch0, sizeof(ch0) );
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ZeroMemory( &ch1, sizeof(ch1) );
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reg5010 = reg5011 = reg5015 = 0;
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sync_reg5015 = 0;
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FrameCycle = 0;
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Setup( fClock, nRate );
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for( WORD addr = 0x5000; addr <= 0x5015; addr++ ) {
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Write( addr, 0 );
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}
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}
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void APU_MMC5::Setup( FLOAT fClock, INT nRate )
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{
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cpu_clock = fClock;
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cycle_rate = (INT)(fClock*65536.0f/(float)nRate);
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// Create Tables
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INT i;
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INT samples = (INT)((float)nRate/60.0f);
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for( i = 0; i < 16; i++ )
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decay_lut[i] = (i+1)*samples*5;
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for( i = 0; i < 32; i++ )
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vbl_lut[i] = vbl_length[i]*samples*5;
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}
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void APU_MMC5::Write( WORD addr, BYTE data )
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{
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//DEBUGOUT( "$%04X:%02X\n", addr, data );
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switch( addr ) {
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// MMC5 CH0 rectangle
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case 0x5000:
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ch0.reg[0] = data;
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ch0.volume = data&0x0F;
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ch0.holdnote = data&0x20;
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ch0.fixed_envelope = data&0x10;
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ch0.env_decay = decay_lut[data&0x0F];
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ch0.duty_flip = duty_lut[data>>6];
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break;
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case 0x5001:
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ch0.reg[1] = data;
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break;
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case 0x5002:
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ch0.reg[2] = data;
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ch0.freq = INT2FIX( ((ch0.reg[3]&0x07)<<8)+data+1 );
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break;
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case 0x5003:
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ch0.reg[3] = data;
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ch0.vbl_length = vbl_lut[data>>3];
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ch0.env_vol = 0;
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ch0.freq = INT2FIX( ((data&0x07)<<8)+ch0.reg[2]+1 );
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if( reg5015 & 0x01 )
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ch0.enable = 0xFF;
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break;
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// MMC5 CH1 rectangle
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case 0x5004:
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ch1.reg[0] = data;
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ch1.volume = data&0x0F;
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ch1.holdnote = data&0x20;
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ch1.fixed_envelope = data&0x10;
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ch1.env_decay = decay_lut[data&0x0F];
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ch1.duty_flip = duty_lut[data>>6];
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break;
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case 0x5005:
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ch1.reg[1] = data;
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break;
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case 0x5006:
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ch1.reg[2] = data;
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ch1.freq = INT2FIX( ((ch1.reg[3]&0x07)<<8)+data+1 );
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break;
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case 0x5007:
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ch1.reg[3] = data;
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ch1.vbl_length = vbl_lut[data>>3];
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ch1.env_vol = 0;
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ch1.freq = INT2FIX( ((data&0x07)<<8)+ch1.reg[2]+1 );
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if( reg5015 & 0x02 )
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ch1.enable = 0xFF;
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break;
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case 0x5010:
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reg5010 = data;
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break;
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case 0x5011:
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reg5011 = data;
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break;
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case 0x5012:
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case 0x5013:
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case 0x5014:
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break;
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case 0x5015:
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reg5015 = data;
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if( reg5015 & 0x01 ) {
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ch0.enable = 0xFF;
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} else {
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ch0.enable = 0;
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ch0.vbl_length = 0;
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}
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if( reg5015 & 0x02 ) {
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ch1.enable = 0xFF;
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} else {
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ch1.enable = 0;
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ch1.vbl_length = 0;
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}
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break;
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}
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}
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void APU_MMC5::SyncWrite( WORD addr, BYTE data )
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{
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switch( addr ) {
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// MMC5 CH0 rectangle
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case 0x5000:
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sch0.reg[0] = data;
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sch0.holdnote = data&0x20;
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break;
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case 0x5001:
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case 0x5002:
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sch0.reg[addr&3] = data;
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break;
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case 0x5003:
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sch0.reg[3] = data;
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sch0.vbl_length = vbl_length[data>>3];
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if( sync_reg5015 & 0x01 )
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sch0.enable = 0xFF;
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break;
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// MMC5 CH1 rectangle
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case 0x5004:
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sch1.reg[0] = data;
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sch1.holdnote = data&0x20;
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break;
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case 0x5005:
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case 0x5006:
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sch1.reg[addr&3] = data;
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break;
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case 0x5007:
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sch1.reg[3] = data;
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sch1.vbl_length = vbl_length[data>>3];
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if( sync_reg5015 & 0x02 )
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sch1.enable = 0xFF;
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break;
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case 0x5010:
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case 0x5011:
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case 0x5012:
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case 0x5013:
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case 0x5014:
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break;
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case 0x5015:
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sync_reg5015 = data;
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if( sync_reg5015 & 0x01 ) {
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sch0.enable = 0xFF;
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} else {
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sch0.enable = 0;
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sch0.vbl_length = 0;
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}
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if( sync_reg5015 & 0x02 ) {
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sch1.enable = 0xFF;
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} else {
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sch1.enable = 0;
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sch1.vbl_length = 0;
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}
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break;
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}
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}
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BYTE APU_MMC5::SyncRead( WORD addr )
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{
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BYTE data = 0;
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if( addr == 0x5015 ) {
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if( sch0.enable && sch0.vbl_length > 0 ) data |= (1<<0);
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if( sch1.enable && sch1.vbl_length > 0 ) data |= (1<<1);
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}
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return data;
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}
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BOOL APU_MMC5::Sync( INT cycles )
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{
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FrameCycle += cycles;
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if( FrameCycle >= 7457*5/2 ) {
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FrameCycle -= 7457*5/2;
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if( sch0.enable && !sch0.holdnote ) {
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if( sch0.vbl_length ) {
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sch0.vbl_length--;
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}
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}
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if( sch1.enable && !sch1.holdnote ) {
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if( sch1.vbl_length ) {
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sch1.vbl_length--;
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}
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}
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}
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return FALSE;
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}
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INT APU_MMC5::Process( INT channel )
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{
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switch( channel ) {
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case 0:
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return RectangleRender( ch0 );
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break;
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case 1:
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return RectangleRender( ch1 );
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break;
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case 2:
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return (INT)reg5011 << DAOUT_VOL_SHIFT;
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break;
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}
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return 0;
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}
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INT APU_MMC5::GetFreq( INT channel )
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{
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if( channel == 0 || channel == 1 ) {
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RECTANGLE* ch;
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if( channel == 0 ) ch = &ch0;
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else ch = &ch1;
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if( !ch->enable || ch->vbl_length <= 0 )
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return 0;
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if( ch->freq < INT2FIX( 8 ) )
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return 0;
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if( ch->fixed_envelope ) {
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if( !ch->volume )
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return 0;
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} else {
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if( !(0x0F-ch->env_vol) )
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return 0;
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}
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return (INT)(256.0f*cpu_clock/((FLOAT)FIX2INT(ch->freq)*16.0f));
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}
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return 0;
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}
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INT APU_MMC5::RectangleRender( RECTANGLE& ch )
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{
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if( !ch.enable || ch.vbl_length <= 0 )
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return 0;
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// vbl length counter
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if( !ch.holdnote )
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ch.vbl_length -= 5;
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// envelope unit
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ch.env_phase -= 5*4;
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while( ch.env_phase < 0 ) {
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ch.env_phase += ch.env_decay;
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if( ch.holdnote )
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ch.env_vol = (ch.env_vol+1)&0x0F;
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else if( ch.env_vol < 0x0F )
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ch.env_vol++;
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}
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if( ch.freq < INT2FIX( 8 ) )
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return 0;
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INT volume;
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if( ch.fixed_envelope )
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volume = (INT)ch.volume;
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else
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volume = (INT)(0x0F-ch.env_vol);
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INT output = volume<<RECTANGLE_VOL_SHIFT;
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ch.phaseacc -= cycle_rate;
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if( ch.phaseacc >= 0 ) {
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if( ch.adder < ch.duty_flip )
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ch.output_vol = output;
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else
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ch.output_vol = -output;
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return ch.output_vol;
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}
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if( ch.freq > cycle_rate ) {
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ch.phaseacc += ch.freq;
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ch.adder = (ch.adder+1)&0x0F;
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if( ch.adder < ch.duty_flip )
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ch.output_vol = output;
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else
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ch.output_vol = -output;
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} else {
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// ‰Á<E280B0>d•½‹Ï
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INT num_times, total;
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num_times = total = 0;
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while( ch.phaseacc < 0 ) {
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ch.phaseacc += ch.freq;
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ch.adder = (ch.adder+1)&0x0F;
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if( ch.adder < ch.duty_flip )
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total += output;
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else
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total -= output;
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num_times++;
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}
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ch.output_vol = total/num_times;
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}
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return ch.output_vol;
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}
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INT APU_MMC5::GetStateSize()
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{
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return 3*sizeof(BYTE) + sizeof(ch0) + sizeof(ch1) + sizeof(sch0) + sizeof(sch1);
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}
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void APU_MMC5::SaveState( LPBYTE p )
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{
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SETBYTE( p, reg5010 );
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SETBYTE( p, reg5011 );
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SETBYTE( p, reg5015 );
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SETBLOCK( p, &ch0, sizeof(ch0) );
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SETBLOCK( p, &ch1, sizeof(ch1) );
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SETBYTE( p, sync_reg5015 );
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SETBLOCK( p, &sch0, sizeof(sch0) );
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SETBLOCK( p, &sch1, sizeof(sch1) );
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}
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void APU_MMC5::LoadState( LPBYTE p )
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{
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GETBYTE( p, reg5010 );
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GETBYTE( p, reg5011 );
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GETBYTE( p, reg5015 );
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GETBLOCK( p, &ch0, sizeof(ch0) );
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GETBLOCK( p, &ch1, sizeof(ch1) );
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GETBYTE( p, sync_reg5015 );
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GETBLOCK( p, &sch0, sizeof(sch0) );
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GETBLOCK( p, &sch1, sizeof(sch1) );
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}
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