Supermodel/Src/Model3/SoundBoard.cpp

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//TODO: clean up M68K interface. pass a bus pointer (SoundBoard should be derived from it), so that M68K handlers have access to CSoundBoard
//TODO: must store actual value of bank register so we can save it to save states
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/**
** Supermodel
** A Sega Model 3 Arcade Emulator.
** Copyright 2011 Bart Trzynadlowski
**
** This file is part of Supermodel.
**
** Supermodel 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 3 of the License, or (at your option)
** any later version.
**
** Supermodel 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 Supermodel. If not, see <http://www.gnu.org/licenses/>.
**/
/*
* SoundBoard.cpp
*
* Model 3 sound board. Implementation of the CSoundBoard class. This class can
* only be instantiated once because it relies on global variables (the non-OOP
* 68K core).
*
* TO-DO List
* ----------
* - Optimize memory handlers (jump table).
*
* Bank Switching
* --------------
* Banking is not fully understood yet. It is presumed that the low 2MB of the
* sample ROMs are not banked (MAME), but this is not guaranteed. Below are
* examples of known situations where banking helps (sound names are as they
* appear in the sound test menu).
*
* sound name
* ROM Offsets -> Address
*
* dayto2pe
* --------
* let's hope he does better
* A... -> A... (400001=3E)
* doing good i'd say you have a ..
* E... -> E... (400001=3D)
*
* From the above, it appears that when (400001)&10, then:
*
* ROM A00000-DFFFFF -> A00000-DFFFFF
* ROM E00000-FFFFFF -> E00000-FFFFFF
*
* And when that bit is clear (just use default mapping, upper 6MB of ROM):
*
* ROM 200000-5FFFFF -> A00000-DFFFFF
* ROM 600000-7FFFFF -> E00000-FFFFFF
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*/
#include "Supermodel.h"
//TEMP: these need to be dynamically allocated in the memory pool
static INT16 leftBuffer[44100/60],rightBuffer[44100/60];
static FILE *soundFP;
/******************************************************************************
68K Access Handlers
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******************************************************************************/
// Memory regions passed out of CSoundBoard object for global access handlers
static UINT8 *sbRAM1, *sbRAM2;
static const UINT8 *sbSoundROM, *sbSampleROM, *sbSampleBankLo, *sbSampleBankHi;
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static UINT8 Read8(UINT32 a)
{
// SCSP RAM 1
if ((a >= 0x000000) && (a <= 0x0FFFFF))
return sbRAM1[a^1];
// SCSP RAM 2
else if ((a >= 0x200000) && (a <= 0x2FFFFF))
return sbRAM2[(a-0x200000)^1];
// Program ROM
else if ((a >= 0x600000) && (a <= 0x67FFFF))
return sbSoundROM[(a-0x600000)^1];
// Sample ROM (low 2MB, fixed)
else if ((a >= 0x800000) && (a <= 0x9FFFFF))
return sbSampleROM[(a-0x800000)^1];
// Sample ROM (bank)
else if ((a >= 0xA00000) && (a <= 0xDFFFFF))
return sbSampleBankLo[(a-0xA00000)^1];
// Sample ROM (bank)
else if ((a >= 0xE00000) && (a <= 0xFFFFFF))
return sbSampleBankHi[(a-0xE00000)^1];
// SCSP (Master)
else if ((a >= 0x100000) && (a <= 0x10FFFF))
return SCSP_Master_r8(a);
// SCSP (Slave)
else if ((a >= 0x300000) && (a <= 0x30FFFF))
return SCSP_Slave_r8(a);
// Unknown
else
{
printf("68K: Unknown read8 %06X\n", a);
return 0;
}
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}
static UINT16 Read16(UINT32 a)
{
// SCSP RAM 1
if ((a >= 0x000000) && (a <= 0x0FFFFF))
return *(UINT16 *) &sbRAM1[a];
// SCSP RAM 2
else if ((a >= 0x200000) && (a <= 0x2FFFFF))
return *(UINT16 *) &sbRAM2[(a-0x200000)];
// Program ROM
else if ((a >= 0x600000) && (a <= 0x67FFFF))
return *(UINT16 *) &sbSoundROM[(a-0x600000)];
// Sample ROM (low 2MB, fixed)
else if ((a >= 0x800000) && (a <= 0x9FFFFF))
return *(UINT16 *) &sbSampleROM[(a-0x800000)];
// Sample ROM (bank)
else if ((a >= 0xA00000) && (a <= 0xDFFFFF))
return *(UINT16 *) &sbSampleBankLo[(a-0xA00000)];
// Sample ROM (bank)
else if ((a >= 0xE00000) && (a <= 0xFFFFFF))
return *(UINT16 *) &sbSampleBankHi[(a-0xE00000)];
// SCSP (Master)
else if ((a >= 0x100000) && (a <= 0x10FFFF))
return SCSP_Master_r16(a);
// SCSP (Slave)
else if ((a >= 0x300000) && (a <= 0x30FFFF))
return SCSP_Slave_r16(a);
// Unknown
else
{
printf("68K: Unknown read16 %06X\n", a);
return 0;
}
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}
static UINT32 Read32(UINT32 a)
{
// SCSP RAM 1
if ((a >= 0x000000) && (a <= 0x0FFFFF))
return (Read16(a)<<16)|Read16(a+2);
// SCSP RAM 2
else if ((a >= 0x200000) && (a <= 0x2FFFFF))
return (Read16(a)<<16)|Read16(a+2);
// Program ROM
else if ((a >= 0x600000) && (a <= 0x67FFFF))
return (Read16(a)<<16)|Read16(a+2);
// Sample ROM (low 2MB, fixed)
else if ((a >= 0x800000) && (a <= 0x9FFFFF))
return (Read16(a)<<16)|Read16(a+2);
// Sample ROM (bank)
else if ((a >= 0xA00000) && (a <= 0xDFFFFF))
return (Read16(a)<<16)|Read16(a+2);
// Sample ROM (bank)
else if ((a >= 0xE00000) && (a <= 0xFFFFFF))
return (Read16(a)<<16)|Read16(a+2);
// SCSP (Master)
else if ((a >= 0x100000) && (a <= 0x10FFFF))
return SCSP_Master_r32(a);
// SCSP (Slave)
else if ((a >= 0x300000) && (a <= 0x30FFFF))
return SCSP_Slave_r32(a);
// Unknown
else
{
printf("68K: Unknown read32 %06X\n", a);
return 0;
}
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}
static void Write8(unsigned int a,unsigned char d)
{
// SCSP RAM 1
if ((a >= 0x000000) && (a <= 0x0FFFFF))
sbRAM1[a^1] = d;
// SCSP RAM 2
else if ((a >= 0x200000) && (a <= 0x2FFFFF))
sbRAM2[(a-0x200000)^1] = d;
// SCSP (Master)
else if ((a >= 0x100000) && (a <= 0x10FFFF))
SCSP_Master_w8(a,d);
// SCSP (Slave)
else if ((a >= 0x300000) && (a <= 0x30FFFF))
SCSP_Slave_w8(a,d);
// Bank register
else if (a == 0x400001)
{
if ((d&0x10))
{
sbSampleBankLo = &sbSampleROM[0xA00000];
sbSampleBankHi = &sbSampleROM[0xE00000];
}
else
{
sbSampleBankLo = &sbSampleROM[0x200000];
sbSampleBankHi = &sbSampleROM[0x600000];
}
}
// Unknown
else
printf("68K: Unknown write8 %06X=%02X\n", a, d);
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}
static void Write16(unsigned int a,unsigned short d)
{
// SCSP RAM 1
if ((a >= 0x000000) && (a <= 0x0FFFFF))
*(UINT16 *) &sbRAM1[a] = d;
// SCSP RAM 2
else if ((a >= 0x200000) && (a <= 0x2FFFFF))
*(UINT16 *) &sbRAM2[(a-0x200000)] = d;
// SCSP (Master)
else if ((a >= 0x100000) && (a <= 0x10FFFF))
SCSP_Master_w16(a,d);
// SCSP (Slave)
else if ((a >= 0x300000) && (a <= 0x30FFFF))
SCSP_Slave_w16(a,d);
// Unknown
else
printf("68K: Unknown write16 %06X=%04X\n", a, d);
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}
static void Write32(unsigned int a,unsigned int d)
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{
// SCSP RAM 1
if ((a >= 0x000000) && (a <= 0x0FFFFF))
{
Write16(a,d>>16);
Write16(a+2,d&0xFFFF);
}
// SCSP RAM 2
else if ((a >= 0x200000) && (a <= 0x2FFFFF))
{
Write16(a,d>>16);
Write16(a+2,d&0xFFFF);
}
// SCSP (Master)
else if ((a >= 0x100000) && (a <= 0x10FFFF))
SCSP_Master_w32(a,d);
// SCSP (Slave)
else if ((a >= 0x300000) && (a <= 0x30FFFF))
SCSP_Slave_w32(a,d);
// Unknown
else
printf("68K: Unknown write32 %06X=%08X\n", a, d);
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}
/******************************************************************************
SCSP 68K Callbacks
The SCSP emulator drives the 68K via callbacks.
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******************************************************************************/
// Status of IRQ pins (IPL2-0) on 68K
static int irqLine = 0;
// Interrupt acknowledge callback (TODO: don't need this, default behavior in M68K.cpp is fine)
int IRQAck(int irqLevel)
{
M68KSetIRQ(0);
irqLine = 0;
return M68K_IRQ_AUTOVECTOR;
}
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// SCSP callback for generating IRQs
void SCSP68KIRQCallback(int irqLevel)
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{
/*
* IRQ arbitration logic: only allow higher priority IRQs to be asserted or
* 0 to clear pending IRQ.
*/
if ((irqLevel>irqLine) || (0==irqLevel))
{
irqLine = irqLevel;
}
M68KSetIRQ(irqLine);
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}
// SCSP callback for running the 68K
int SCSP68KRunCallback(int numCycles)
{
return M68KRun(numCycles);
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}
/******************************************************************************
Sound Board Emulation
******************************************************************************/
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void CSoundBoard::WriteMIDIPort(UINT8 data)
{
SCSP_MidiIn(data);
}
void CSoundBoard::RunFrame(void)
{
#ifdef SUPERMODEL_SOUND
SCSP_Update();
// Output to binary file
INT16 s;
for (int i = 0; i < 44100/60; i++)
{
s = ((UINT16)leftBuffer[i]>>8) | ((leftBuffer[i]&0xFF)<<8);
fwrite(&s, sizeof(INT16), 1, soundFP); // left channel
s = ((UINT16)rightBuffer[i]>>8) | ((rightBuffer[i]&0xFF)<<8);
fwrite(&s, sizeof(INT16), 1, soundFP); // right channel
}
#endif
}
void CSoundBoard::Reset(void)
{
// lets hope he does better... ->
memcpy(ram1, soundROM, 16); // copy 68K vector table
sbSampleBankLo = &sampleROM[0x200000]; // default banks
sbSampleBankHi = &sampleROM[0x600000];
M68KReset();
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DebugLog("Sound Board Reset\n");
}
/******************************************************************************
Configuration, Initialization, and Shutdown
******************************************************************************/
// Offsets of memory regions within sound board's pool
#define OFFSET_RAM1 0 // 1 MB SCSP1 RAM
#define OFFSET_RAM2 0x100000 // 1 MB SCSP2 RAM
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#define MEMORY_POOL_SIZE (0x100000+0x100000)
BOOL CSoundBoard::Init(const UINT8 *soundROMPtr, const UINT8 *sampleROMPtr, CIRQ *ppcIRQObjectPtr, unsigned soundIRQBit)
{
float memSizeMB = (float)MEMORY_POOL_SIZE/(float)0x100000;
// Attach IRQ controller
ppcIRQ = ppcIRQObjectPtr;
ppcSoundIRQBit = soundIRQBit;
// Receive sound ROMs
soundROM = soundROMPtr;
sampleROM = sampleROMPtr;
// Allocate all memory for RAM
memoryPool = new(std::nothrow) UINT8[MEMORY_POOL_SIZE];
if (NULL == memoryPool)
return ErrorLog("Insufficient memory for sound board (needs %1.1f MB).", memSizeMB);
memset(memoryPool, 0, MEMORY_POOL_SIZE);
// Set up memory pointers
ram1 = &memoryPool[OFFSET_RAM1];
ram2 = &memoryPool[OFFSET_RAM2];
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// Make global copies of memory pointers for 68K access handlers
sbRAM1 = ram1;
sbRAM2 = ram2;
sbSoundROM = soundROM;
sbSampleROM = sampleROM;
sbSampleBankLo = &sampleROM[0x200000];
sbSampleBankHi = &sampleROM[0x600000];
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// Initialize 68K core
M68KInit();
M68KSetIRQCallback(IRQAck);
M68KSetFetch8Callback(Read8);
M68KSetFetch16Callback(Read16);
M68KSetFetch32Callback(Read32);
M68KSetRead8Callback(Read8);
M68KSetRead16Callback(Read16);
M68KSetRead32Callback(Read32);
M68KSetWrite8Callback(Write8);
M68KSetWrite16Callback(Write16);
M68KSetWrite32Callback(Write32);
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// Initialize SCSPs
SCSP_SetBuffers(leftBuffer, rightBuffer, 44100/60);
SCSP_SetCB(SCSP68KRunCallback, SCSP68KIRQCallback, ppcIRQ, ppcSoundIRQBit);
SCSP_Init(2);
SCSP_SetRAM(0, ram1);
SCSP_SetRAM(1, ram2);
// Binary logging
#ifdef SUPERMODEL_SOUND
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soundFP = fopen("sound.bin","wb"); // delete existing file
fclose(soundFP);
soundFP = fopen("sound.bin","ab"); // append mode
#endif
return OKAY;
}
CSoundBoard::CSoundBoard(void)
{
memoryPool = NULL;
ram1 = NULL;
ram2 = NULL;
DebugLog("Built Sound Board\n");
}
static void Reverse16(UINT8 *buf, unsigned size)
{
unsigned i;
UINT8 tmp;
for (i = 0; i < size; i += 2)
{
tmp = buf[i+0];
buf[i+0] = buf[i+1];
buf[i+1] = tmp;
}
}
CSoundBoard::~CSoundBoard(void)
{
#ifdef SUPERMODEL_SOUND
// close binary log file
fclose(soundFP);
//#if 0
FILE *fp;
Reverse16(ram1, 0x100000);
Reverse16(ram2, 0x100000);
fp = fopen("scspRAM1", "wb");
if (NULL != fp)
{
fwrite(ram1, sizeof(UINT8), 0x100000, fp);
fclose(fp);
printf("dumped %s\n", "scspRAM1");
}
fp = fopen("scspRAM2", "wb");
if (NULL != fp)
{
fwrite(ram2, sizeof(UINT8), 0x100000, fp);
fclose(fp);
printf("dumped %s\n", "scspRAM2");
}
//#endif
#endif
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SCSP_Deinit();
if (memoryPool != NULL)
{
delete [] memoryPool;
memoryPool = NULL;
}
ram1 = NULL;
ram2 = NULL;
DebugLog("Destroyed Sound Board\n");
}