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vgm_sro.c
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// vgm_sro.c - VGM Sample-ROM Optimizer
//
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <zlib.h>
#include "stdtype.h"
#include "stdbool.h"
#include "VGMFile.h"
#include "common.h"
static bool OpenVGMFile(const char* FileName);
static void WriteVGMFile(const char* FileName);
static void FindUsedROMData(void);
static void EnumerateROMRegions(void);
static void OptimizeVGMSampleROM(void);
static UINT8 GetRomRgnFromType(UINT8 ROMType);
void InitAllChips(void);
void FreeAllChips(void);
void SetChipSet(UINT8 ChipID);
void segapcm_mem_write(UINT16 Offset, UINT8 Data);
void ym2608_write(UINT8 Port, UINT8 Register, UINT8 Data);
void ym2610_write(UINT8 Port, UINT8 Register, UINT8 Data);
void y8950_write(UINT8 Register, UINT8 Data);
void ymz280b_write(UINT8 Register, UINT8 Data);
void rf5c68_write(UINT8 Register, UINT8 Data);
void rf5c164_write(UINT8 Register, UINT8 Data);
void ymf271_write(UINT8 Port, UINT8 Register, UINT8 Data);
void nes_apu_write(UINT8 Register, UINT8 Data);
void multipcm_write(UINT8 Port, UINT8 Data);
void multipcm_bank_write(UINT8 Bank, UINT16 Data);
void upd7759_write(UINT8 Port, UINT8 Data);
void okim6295_write(UINT8 Offset, UINT8 Data);
void k054539_write(UINT8 Port, UINT8 Offset, UINT8 Data);
void c140_write(UINT8 Port, UINT8 Offset, UINT8 Data);
void k053260_write(UINT8 Register, UINT8 Data);
void qsound_write(UINT8 Offset, UINT16 Value);
void x1_010_write(UINT16 Offset, UINT8 Data);
void c352_write(UINT16 Offset, UINT16 Value);
void ga20_write(UINT8 Register, UINT8 Data);
void es5503_write(UINT8 Register, UINT8 Data);
void ymf278b_write(UINT8 Port, UINT8 Register, UINT8 Data);
void es550x_w(UINT8 Offset, UINT8 Data);
void es550x_w16(UINT8 Offset, UINT16 Data);
void write_rom_data(UINT8 ROMType, UINT32 ROMSize, UINT32 DataStart, UINT32 DataLength,
const UINT8* ROMData);
UINT32 GetROMMask(UINT8 ROMType, UINT8** MaskData);
UINT32 GetROMData(UINT8 ROMType, UINT8** ROMData);
typedef struct rom_region
{
UINT32 AddrStart;
UINT32 AddrEnd;
} ROM_REGION;
typedef struct rom_region_list
{
UINT32 RegionCount;
ROM_REGION* Regions;
bool IsWritten;
} ROM_RGN_LIST;
#define ROM_TYPES 0x18
const UINT8 ROM_LIST[ROM_TYPES] =
{ 0x80, 0x81, 0x82, 0x83, 0x84, 0x85, 0x86, 0x87,
0x88, 0x89, 0x8A, 0x8B, 0x8C, 0x8D, 0x8E, 0x8F,
0x90, 0x91, 0x92, 0x93,
0xC0, 0xC1, 0xC2, 0xE1};
VGM_HEADER VGMHead;
UINT32 VGMDataLen;
UINT8* VGMData;
UINT32 VGMPos;
INT32 VGMSmplPos;
ROM_RGN_LIST ROMRgnLst[ROM_TYPES][0x02];
UINT8* DstData;
UINT32 DstDataLen;
char FileBase[0x100];
bool CancelFlag;
bool removeEmpty;
int main(int argc, char* argv[])
{
int argbase;
int ErrVal;
char FileName[0x100];
UINT8 CurROM;
printf("VGM Sample-ROM Optimizer\n------------------------\n\n");
ErrVal = 0;
argbase = 1;
removeEmpty = false;
argbase = 1;
while(argbase < argc && argv[argbase][0] == '-')
{
if (! stricmp(argv[argbase], "-strip-empty"))
{
removeEmpty = true;
argbase ++;
}
else
{
break;
}
}
printf("File Name:\t");
if (argc <= argbase + 0)
{
ReadFilename(FileName, sizeof(FileName));
}
else
{
strcpy(FileName, argv[argbase + 0]);
printf("%s\n", FileName);
}
if (! strlen(FileName))
return 1;
if (! OpenVGMFile(FileName))
{
printf("Error opening the file!\n");
ErrVal = 1;
goto EndProgram;
}
printf("\n");
DstData = NULL;
for (CurROM = 0x00; CurROM < ROM_TYPES; CurROM ++)
{
ROMRgnLst[CurROM][0x00].Regions = NULL;
ROMRgnLst[CurROM][0x01].Regions = NULL;
}
if (! VGMHead.lngHzSPCM && ! VGMHead.lngHzYM2608 && ! VGMHead.lngHzYM2610 &&
! VGMHead.lngHzY8950 && ! VGMHead.lngHzYMZ280B && ! VGMHead.lngHzRF5C68 &&
! VGMHead.lngHzRF5C164 && ! VGMHead.lngHzYMF271 && ! VGMHead.lngHzOKIM6295 &&
! VGMHead.lngHzK054539 && ! VGMHead.lngHzC140 && ! VGMHead.lngHzK053260 &&
! VGMHead.lngHzQSound && ! VGMHead.lngHzUPD7759 && ! VGMHead.lngHzMultiPCM &&
! VGMHead.lngHzNESAPU && ! VGMHead.lngHzES5503 && ! VGMHead.lngHzES5506 &&
! VGMHead.lngHzGA20 && ! VGMHead.lngHzX1_010 && ! VGMHead.lngHzC352 &&
! VGMHead.lngHzYMF278B)
{
printf("No chips with Sample-ROM used!\n");
ErrVal = 2;
goto BreakProgress;
}
CancelFlag = false;
FindUsedROMData();
if (CancelFlag)
{
ErrVal = 9;
goto BreakProgress;
}
EnumerateROMRegions();
OptimizeVGMSampleROM();
if (DstDataLen < VGMDataLen)
{
if (argc > argbase + 1)
strcpy(FileName, argv[argbase + 1]);
else
strcpy(FileName, "");
if (FileName[0] == '\0')
{
strcpy(FileName, FileBase);
strcat(FileName, "_optimized.vgm");
}
WriteVGMFile(FileName);
}
BreakProgress:
free(VGMData);
free(DstData);
for (CurROM = 0x00; CurROM < ROM_TYPES; CurROM ++)
{
free(ROMRgnLst[CurROM][0x00].Regions); ROMRgnLst[CurROM][0x00].Regions = NULL;
free(ROMRgnLst[CurROM][0x01].Regions); ROMRgnLst[CurROM][0x01].Regions = NULL;
}
EndProgram:
DblClickWait(argv[0]);
return ErrVal;
}
static bool OpenVGMFile(const char* FileName)
{
gzFile hFile;
UINT32 CurPos;
UINT32 TempLng;
char* TempPnt;
hFile = gzopen(FileName, "rb");
if (hFile == NULL)
return false;
gzseek(hFile, 0x00, SEEK_SET);
gzread(hFile, &TempLng, 0x04);
if (TempLng != FCC_VGM)
goto OpenErr;
gzseek(hFile, 0x00, SEEK_SET);
gzread(hFile, &VGMHead, sizeof(VGM_HEADER));
ZLIB_SEEKBUG_CHECK(VGMHead);
// Header preperations
if (VGMHead.lngVersion < 0x00000150)
{
VGMHead.lngDataOffset = 0x00000000;
}
if (VGMHead.lngVersion < 0x00000151)
{
VGMHead.lngHzSPCM = 0x0000;
VGMHead.lngSPCMIntf = 0x00000000;
// all others are zeroed by memset
}
// relative -> absolute addresses
VGMHead.lngEOFOffset += 0x00000004;
if (VGMHead.lngGD3Offset)
VGMHead.lngGD3Offset += 0x00000014;
if (VGMHead.lngLoopOffset)
VGMHead.lngLoopOffset += 0x0000001C;
if (! VGMHead.lngDataOffset)
VGMHead.lngDataOffset = 0x0000000C;
VGMHead.lngDataOffset += 0x00000034;
CurPos = VGMHead.lngDataOffset;
if (VGMHead.lngVersion < 0x00000150)
CurPos = 0x40;
TempLng = sizeof(VGM_HEADER);
if (TempLng > CurPos)
TempLng -= CurPos;
else
TempLng = 0x00;
memset((UINT8*)&VGMHead + CurPos, 0x00, TempLng);
// Read Data
VGMDataLen = VGMHead.lngEOFOffset;
VGMData = (UINT8*)malloc(VGMDataLen);
if (VGMData == NULL)
goto OpenErr;
gzseek(hFile, 0x00, SEEK_SET);
gzread(hFile, VGMData, VGMDataLen);
gzclose(hFile);
strcpy(FileBase, FileName);
TempPnt = strrchr(FileBase, '.');
if (TempPnt != NULL)
*TempPnt = 0x00;
return true;
OpenErr:
gzclose(hFile);
return false;
}
static void WriteVGMFile(const char* FileName)
{
FILE* hFile;
hFile = fopen(FileName, "wb");
fwrite(DstData, 0x01, DstDataLen, hFile);
fclose(hFile);
printf("File written.\n");
return;
}
static void FindUsedROMData(void)
{
UINT8 ChipID;
UINT8 Command;
UINT8 TempByt;
UINT16 TempSht;
UINT32 TempLng;
UINT32 ROMSize;
UINT32 DataStart;
UINT32 DataLen;
#ifdef WIN32
UINT32 CmdTimer;
char TempStr[0x80];
char MinSecStr[0x80];
#endif
UINT32 CmdLen;
bool StopVGM;
const UINT8* VGMPnt;
printf("Creating ROM-Usage Mask ...\n");
VGMPos = VGMHead.lngDataOffset;
#ifdef WIN32
CmdTimer = 0;
#endif
InitAllChips();
if (VGMHead.lngHzSPCM)
{
SetChipSet(0x00);
segapcm_mem_write(0xFFF3, (VGMHead.lngSPCMIntf & 0xFF000000) >> 24);
segapcm_mem_write(0xFFF2, (VGMHead.lngSPCMIntf & 0x00FF0000) >> 16);
segapcm_mem_write(0xFFF1, (VGMHead.lngSPCMIntf & 0x0000FF00) >> 8);
segapcm_mem_write(0xFFF0, (VGMHead.lngSPCMIntf & 0x000000FF) >> 0);
if (VGMHead.lngHzSPCM & 0x40000000)
{
SetChipSet(0x01);
segapcm_mem_write(0xFFF3, (VGMHead.lngSPCMIntf & 0xFF000000) >> 24);
segapcm_mem_write(0xFFF2, (VGMHead.lngSPCMIntf & 0x00FF0000) >> 16);
segapcm_mem_write(0xFFF1, (VGMHead.lngSPCMIntf & 0x0000FF00) >> 8);
segapcm_mem_write(0xFFF0, (VGMHead.lngSPCMIntf & 0x000000FF) >> 0);
}
}
if (VGMHead.lngHzK054539)
{
SetChipSet(0x00);
k054539_write(0xFF, 0x00, VGMHead.bytK054539Flags);
if (VGMHead.lngHzK054539 & 0x40000000)
{
SetChipSet(0x01);
k054539_write(0xFF, 0x00, VGMHead.bytK054539Flags);
}
}
if (VGMHead.lngHzC140)
{
SetChipSet(0x00);
c140_write(0xFF, 0x00, VGMHead.bytC140Type);
if (VGMHead.lngHzC140 & 0x40000000)
{
SetChipSet(0x01);
c140_write(0xFF, 0x00, VGMHead.bytC140Type);
}
}
if (VGMHead.lngHzES5506)
{
SetChipSet(0x00);
es550x_w(0xFF, VGMHead.lngHzES5506 >> 31);
if (VGMHead.lngHzES5506 & 0x40000000)
{
SetChipSet(0x01);
es550x_w(0xFF, VGMHead.lngHzES5506 >> 31);
}
}
StopVGM = false;
while(VGMPos < VGMHead.lngEOFOffset)
{
CmdLen = 0x00;
Command = VGMData[VGMPos + 0x00];
if (Command >= 0x70 && Command <= 0x8F)
{
switch(Command & 0xF0)
{
case 0x70:
TempSht = (Command & 0x0F) + 0x01;
VGMSmplPos += TempSht;
break;
case 0x80:
TempSht = Command & 0x0F;
VGMSmplPos += TempSht;
break;
}
CmdLen = 0x01;
}
else
{
VGMPnt = &VGMData[VGMPos];
// Cheat Mode (to use 2 instances of 1 chip)
ChipID = 0x00;
switch(Command)
{
case 0xA6:
case 0xA7:
if (VGMHead.lngHzYM2608 & 0x40000000)
{
Command -= 0x50;
ChipID = 0x01;
}
break;
case 0xA8:
case 0xA9:
if (VGMHead.lngHzYM2610 & 0x40000000)
{
Command -= 0x50;
ChipID = 0x01;
}
break;
case 0xAC:
if (VGMHead.lngHzY8950 & 0x40000000)
{
Command -= 0x50;
ChipID = 0x01;
}
break;
case 0xAD:
if (VGMHead.lngHzYMZ280B & 0x40000000)
{
Command -= 0x50;
ChipID = 0x01;
}
break;
}
SetChipSet(ChipID);
switch(Command)
{
case 0x66: // End Of File
CmdLen = 0x01;
StopVGM = true;
break;
case 0x62: // 1/60s delay
TempSht = 735;
VGMSmplPos += TempSht;
CmdLen = 0x01;
break;
case 0x63: // 1/50s delay
TempSht = 882;
VGMSmplPos += TempSht;
CmdLen = 0x01;
break;
case 0x61: // xx Sample Delay
memcpy(&TempSht, &VGMPnt[0x01], 0x02);
VGMSmplPos += TempSht;
CmdLen = 0x03;
break;
case 0x50: // SN76496 write
CmdLen = 0x02;
break;
case 0x67: // PCM Data Stream
TempByt = VGMPnt[0x02];
memcpy(&TempLng, &VGMPnt[0x03], 0x04);
ChipID = (TempLng & 0x80000000) >> 31;
TempLng &= 0x7FFFFFFF;
SetChipSet(ChipID);
switch(TempByt & 0xC0)
{
case 0x00: // Database Block
case 0x40:
break;
case 0x80: // ROM/RAM Dump
memcpy(&ROMSize, &VGMPnt[0x07], 0x04);
memcpy(&DataStart, &VGMPnt[0x0B], 0x04);
DataLen = TempLng - 0x08;
write_rom_data(TempByt, ROMSize, DataStart, DataLen, &VGMPnt[0x0F]);
break;
case 0xC0: // RAM Write
if (! (TempByt & 0x20))
{
memcpy(&TempSht, &VGMPnt[0x07], 0x02);
DataLen = TempLng - 0x02;
write_rom_data(TempByt, 0x00, TempSht, DataLen, &VGMPnt[0x09]);
}
else
{
memcpy(&DataStart, &VGMPnt[0x07], 0x04);
DataLen = TempLng - 0x04;
write_rom_data(TempByt, 0x00, DataStart, DataLen, &VGMPnt[0x0B]);
}
break;
}
CmdLen = 0x07 + TempLng;
break;
case 0xE0: // Seek to PCM Data Bank Pos
CmdLen = 0x05;
break;
case 0x4F: // GG Stereo
CmdLen = 0x02;
break;
case 0xC0: // Sega PCM memory write
memcpy(&TempSht, &VGMPnt[0x01], 0x02);
segapcm_mem_write(TempSht, VGMPnt[0x03]);
CmdLen = 0x04;
break;
case 0xB0: // RF5C68 register write
// PCM, but doesn't have ROM - but RAM
rf5c68_write(VGMPnt[0x01], VGMPnt[0x02]);
CmdLen = 0x03;
break;
case 0xC1: // RF5C68 memory write
printf("RF5Cxx Memory Writes aren't supported.\n");
CancelFlag = true;
StopVGM = true;
CmdLen = 0x04;
break;
case 0x56: // YM2608 write port 0
case 0x57: // YM2608 write port 1
ym2608_write(Command & 0x01, VGMPnt[0x01], VGMPnt[0x02]);
CmdLen = 0x03;
break;
case 0x58: // YM2610 write port 0
case 0x59: // YM2610 write port 1
ym2610_write(Command & 0x01, VGMPnt[0x01], VGMPnt[0x02]);
CmdLen = 0x03;
break;
case 0x5C: // Y8950 write
y8950_write(VGMPnt[0x01], VGMPnt[0x02]);
CmdLen = 0x03;
break;
case 0x5D: // YMZ280B write
ymz280b_write(VGMPnt[0x01], VGMPnt[0x02]);
CmdLen = 0x03;
break;
case 0xD0: // YMF278B write
SetChipSet((VGMPnt[0x01] & 0x80) >> 7);
ymf278b_write(VGMPnt[0x01] & 0x7F, VGMPnt[0x02], VGMPnt[0x03]);
CmdLen = 0x04;
break;
case 0xD1: // YMF271 write
SetChipSet((VGMPnt[0x01] & 0x80) >> 7);
ymf271_write(VGMPnt[0x01] & 0x7F, VGMPnt[0x02], VGMPnt[0x03]);
CmdLen = 0x04;
break;
case 0xB1: // RF5C164 register write
rf5c164_write(VGMPnt[0x01], VGMPnt[0x02]);
CmdLen = 0x03;
break;
case 0xC2: // RF5C164 memory write
printf("RF5Cxx Memory Writes aren't supported.\n");
CancelFlag = true;
StopVGM = true;
CmdLen = 0x04;
break;
case 0x68: // PCM RAM write
printf("Streamed RF-PCM-Data can't be optimized.\n");
CancelFlag = true;
StopVGM = true;
CmdLen = 0x0C;
break;
case 0xB4: // NES APU write
SetChipSet((VGMPnt[0x01] & 0x80) >> 7);
nes_apu_write(VGMPnt[0x01] & 0x7F, VGMPnt[0x02]);
CmdLen = 0x03;
break;
case 0xB5: // MultiPCM write
SetChipSet((VGMPnt[0x01] & 0x80) >> 7);
multipcm_write(VGMPnt[0x01] & 0x7F, VGMPnt[0x02]);
CmdLen = 0x03;
break;
case 0xC3: // MultiPCM memory write
SetChipSet((VGMPnt[0x01] & 0x80) >> 7);
memcpy(&TempSht, &VGMPnt[0x02], 0x02);
multipcm_bank_write(VGMPnt[0x01] & 0x7F, TempSht);
CmdLen = 0x04;
break;
case 0xB6: // UPD7759 write
SetChipSet((VGMPnt[0x01] & 0x80) >> 7);
upd7759_write(VGMPnt[0x01] & 0x7F, VGMPnt[0x02]);
CmdLen = 0x03;
break;
case 0xB8: // OKIM6295 write
SetChipSet((VGMPnt[0x01] & 0x80) >> 7);
okim6295_write(VGMPnt[0x01] & 0x7F, VGMPnt[0x02]);
CmdLen = 0x03;
break;
case 0xD3: // K054539 write
SetChipSet((VGMPnt[0x01] & 0x80) >> 7);
k054539_write(VGMPnt[0x01] & 0x7F, VGMPnt[0x02], VGMPnt[0x03]);
CmdLen = 0x04;
break;
case 0xD4: // C140 write
SetChipSet((VGMPnt[0x01] & 0x80) >> 7);
c140_write(VGMPnt[0x01] & 0x7F, VGMPnt[0x02], VGMPnt[0x03]);
CmdLen = 0x04;
break;
case 0xBA: // K053260 write
SetChipSet((VGMPnt[0x01] & 0x80) >> 7);
k053260_write(VGMPnt[0x01] & 0x7F, VGMPnt[0x02]);
CmdLen = 0x03;
break;
case 0xBF: // GA20 write
SetChipSet((VGMPnt[0x01] & 0x80) >> 7);
ga20_write(VGMPnt[0x01] & 0x7F, VGMPnt[0x02]);
CmdLen = 0x03;
break;
case 0xC4: // Q-Sound write
//SetChipSet(0x00);
qsound_write(VGMPnt[0x03], (VGMPnt[0x01] << 8) | (VGMPnt[0x02] << 0));
CmdLen = 0x04;
break;
case 0xD5: // ES5503 write
SetChipSet((VGMPnt[0x01] & 0x80) >> 7);
es5503_write(VGMPnt[0x02], VGMPnt[0x03]);
CmdLen = 0x04;
break;
case 0xBE: // ES5506 write (8-bit data)
SetChipSet((VGMPnt[0x01] & 0x80) >> 7);
es550x_w(VGMPnt[0x01] & 0x7F, VGMPnt[0x02]);
CmdLen = 0x03;
break;
case 0xD6: // ES5506 write (16-bit data)
SetChipSet((VGMPnt[0x01] & 0x80) >> 7);
es550x_w16(VGMPnt[0x01] & 0x7F, (VGMPnt[0x02] << 8) | (VGMPnt[0x03] << 0));
CmdLen = 0x04;
break;
case 0xC8: // X1-010 write
SetChipSet((VGMPnt[0x01] & 0x80) >> 7);
x1_010_write(((VGMPnt[0x01]&0x7f) << 8) | (VGMPnt[0x02] << 0), VGMPnt[0x03]);
CmdLen = 0x04;
break;
case 0xE1: // C352 write
SetChipSet((VGMPnt[0x01] & 0x80) >> 7);
c352_write(((VGMPnt[0x01]&0x7f) << 8 | (VGMPnt[0x02] << 0)), (VGMPnt[0x03] << 8) | (VGMPnt[0x04] << 0));
CmdLen = 0x05;
break;
case 0x90: // DAC Ctrl: Setup Chip
CmdLen = 0x05;
break;
case 0x91: // DAC Ctrl: Set Data
CmdLen = 0x05;
break;
case 0x92: // DAC Ctrl: Set Freq
CmdLen = 0x06;
break;
case 0x93: // DAC Ctrl: Play from Start Pos
CmdLen = 0x0B;
break;
case 0x94: // DAC Ctrl: Stop immediately
CmdLen = 0x02;
break;
case 0x95: // DAC Ctrl: Play Block (small)
CmdLen = 0x05;
break;
default:
switch(Command & 0xF0)
{
case 0x30:
case 0x40:
CmdLen = 0x02;
break;
case 0x50:
case 0xA0:
case 0xB0:
CmdLen = 0x03;
break;
case 0xC0:
case 0xD0:
CmdLen = 0x04;
break;
case 0xE0:
case 0xF0:
CmdLen = 0x05;
break;
default:
printf("Unknown Command: %X\n", Command);
CmdLen = 0x01;
//StopVGM = true;
break;
}
break;
}
}
VGMPos += CmdLen;
if (StopVGM)
break;
#ifdef WIN32
if (CmdTimer < GetTickCount())
{
PrintMinSec(VGMSmplPos, MinSecStr);
PrintMinSec(VGMHead.lngTotalSamples, TempStr);
TempLng = VGMPos - VGMHead.lngDataOffset;
ROMSize = VGMHead.lngEOFOffset - VGMHead.lngDataOffset;
printf("%04.3f %% - %s / %s (%08X / %08X) ...\r", (float)TempLng / ROMSize * 100,
MinSecStr, TempStr, VGMPos, VGMHead.lngEOFOffset);
CmdTimer = GetTickCount() + 200;
}
#endif
}
printf("\t\t\t\t\t\t\t\t\r");
return;
}
char* GetROMRegionText(UINT8 ROM_ID)
{
char* RetStr;
switch(ROM_ID)
{
case 0x80: // SegaPCM ROM
RetStr = "SegaPCM";
break;
case 0x81: // YM2608 DELTA-T ROM
RetStr = "YM2608 DELTA-T";
break;
case 0x82: // YM2610 ADPCM ROM
RetStr = "YM2610 ADPCM";
break;
case 0x83: // YM2610 DELTA-T ROM
RetStr = "YM2610 DELTA-T";
break;
case 0x84: // YMF278B ROM
RetStr = "YMF278B";
break;
case 0x85: // YMF271 ROM
RetStr = "YMF271";
break;
case 0x86: // YMZ280B ROM
RetStr = "YMZ280B";
break;
case 0x87: // YMF278B RAM
RetStr = "YMF278B RAM";
break;
case 0x88: // Y8950 DELTA-T ROM
RetStr = "Y8950 DELTA-T";
break;
case 0x89: // MultiPCM ROM
RetStr = "MultiPCM";
break;
case 0x8A: // UPD7759 ROM
RetStr = "UPD7759";
break;
case 0x8B: // OKIM6295 ROM
RetStr = "OKIM6295";
break;
case 0x8C: // K054539
RetStr = "K054539";
break;
case 0x8D: // C140
RetStr = "C140";
break;
case 0x8E: // K053260
RetStr = "K053260";
break;
case 0x8F: // QSound
RetStr = "Q-Sound";
break;
case 0x90: // ES5506 ROM
RetStr = "ES5506";
break;
case 0x91: // X1-010
RetStr = "X1-010";
break;
case 0x92: // C352
RetStr = "C352";
break;
case 0x93: // GA20
RetStr = "GA20";
break;
case 0xC0: // RF5C68 RAM
RetStr = "RF5C68";
break;
case 0xC1: // RF5C164 RAM
RetStr = "RF5C164";
break;
case 0xC2: // NES APU RAM
RetStr = "NES APU";
break;
case 0xE1: // ES5503 RAM
RetStr = "ES5503";
break;
default:
RetStr = "???";
break;
}
return RetStr;
}
static void EnumerateROMRegions(void)
{
const char* STATUS_TEXT[] = {"unused", "USED", "Empty", "Empty/USED"};
UINT8 CurROM;
UINT8 CurChip;
UINT32 ROMSize;
UINT8* ROMMask;
ROM_RGN_LIST* TempRRL;
UINT32 RgnMemCount;
ROM_REGION* RgnMemory;
UINT32 CurRgn;
UINT32 CurPos;
UINT32 PosStart;
UINT8 MaskVal;
RgnMemCount = 0x100;
RgnMemory = (ROM_REGION*)malloc(RgnMemCount * sizeof(ROM_REGION));
printf("\nROM Region List\n---------------\n");
printf("From\tTo\tLength\tStatus\n");
for (CurROM = 0x00; CurROM < ROM_TYPES; CurROM ++)
{
for (CurChip = 0x00; CurChip < 0x02; CurChip ++)
{
TempRRL = &ROMRgnLst[CurROM][CurChip];
TempRRL->RegionCount = 0x00;
SetChipSet(CurChip);
ROMSize = GetROMMask(ROM_LIST[CurROM], &ROMMask);
if (! ROMSize || ROMMask == NULL)
continue;
if (! CurChip)
printf(" %s\n", GetROMRegionText(ROM_LIST[CurROM]));
else
printf(" %s #%u\n", GetROMRegionText(ROM_LIST[CurROM]), CurChip + 1);
CurRgn = 0x00;
RgnMemory[CurRgn].AddrStart = 0xFFFFFFFF;
PosStart = 0x00;
MaskVal = ROMMask[0x00];
for (CurPos = 0x01; CurPos <= ROMSize; CurPos ++)
{
if (CurPos >= ROMSize || MaskVal != ROMMask[CurPos])
{
printf("%06X\t%06X\t%6X\t%s\n", PosStart, CurPos - 1, CurPos - PosStart,
STATUS_TEXT[MaskVal]);
if (MaskVal == 0x01)
{
if (! CurRgn)
{
if (PosStart < 0x20)
PosStart = 0x00;
}
else
{
if ((PosStart - RgnMemory[CurRgn - 0x01].AddrEnd) < 0x20)
CurRgn --;
}
}
if (MaskVal == 0x01) // (MaskVal & 0x01) would also write empty (used) blocks
{
// Used ROM Data
if (RgnMemory[CurRgn].AddrStart == 0xFFFFFFFF)
RgnMemory[CurRgn].AddrStart = PosStart; // Set Address if not already set
RgnMemory[CurRgn].AddrEnd = CurPos;
CurRgn ++;
if (CurRgn >= RgnMemCount)
{ // I really don't expect this, but I want to be safe
RgnMemCount += 0x100;
RgnMemory = (ROM_REGION*)realloc(RgnMemory,
RgnMemCount * sizeof(ROM_REGION));
}
RgnMemory[CurRgn].AddrStart = 0xFFFFFFFF;
}
if (CurPos < ROMSize)
MaskVal = ROMMask[CurPos];
PosStart = CurPos;
}
}
if (! CurRgn)
{
// to make sure that the ROM is at least allocated,
// an empty region is created
RgnMemory[CurRgn].AddrStart = 0x00;
RgnMemory[CurRgn].AddrEnd = 0x00;
CurRgn ++;
}
TempRRL->RegionCount = CurRgn;
TempRRL->Regions = (ROM_REGION*)malloc(TempRRL->RegionCount * sizeof(ROM_REGION));
for (CurRgn = 0x00; CurRgn < TempRRL->RegionCount; CurRgn ++)
TempRRL->Regions[CurRgn] = RgnMemory[CurRgn];
TempRRL->IsWritten = false;
}
}
free(RgnMemory);
return;
}
static void OptimizeVGMSampleROM(void)
{
UINT32 DstPos;
UINT8 ChipID;
UINT8 Command;
UINT8 TempByt;
UINT16 TempSht;
UINT32 TempLng;
UINT32 ROMSize;
UINT32 DataStart;
UINT32 DataLen;
#ifdef WIN32
UINT32 CmdTimer;
char TempStr[0x80];
char MinSecStr[0x80];
#endif
UINT32 CmdLen;
bool StopVGM;
bool WriteEvent;
UINT32 NewLoopS;
UINT8* ROMData;
UINT8 CurRgn;
ROM_RGN_LIST* TempRRL;
ROM_REGION* TempRgn;
DstData = (UINT8*)malloc(VGMDataLen + 0x100);
VGMPos = VGMHead.lngDataOffset;
DstPos = VGMHead.lngDataOffset;
NewLoopS = 0x00;
memcpy(DstData, VGMData, VGMPos); // Copy Header
#if 1
for (TempByt = 0x00; TempByt < ROM_TYPES; TempByt ++)
{
for (ChipID = 0x00; ChipID < 0x02; ChipID ++)
{
if ((ROM_LIST[TempByt] & 0xC0) != 0xC0)
continue;
SetChipSet(ChipID);
ROMSize = GetROMData(ROM_LIST[TempByt], &ROMData);
TempRRL = &ROMRgnLst[TempByt][ChipID];
for (CurRgn = 0x00; CurRgn < TempRRL->RegionCount; CurRgn ++)
{
TempRgn = &TempRRL->Regions[CurRgn];
DataLen = TempRgn->AddrEnd - TempRgn->AddrStart;
if (! DataLen) // empty RAM writes make no sense, since the
continue; // RAM size isn't changeable
CmdLen = (ROM_LIST[TempByt] & 0x20) ? 0x04 : 0x02;
CmdLen += DataLen;
DstData[DstPos + 0x00] = 0x67;
DstData[DstPos + 0x01] = 0x66;
DstData[DstPos + 0x02] = ROM_LIST[TempByt];
memcpy(&DstData[DstPos + 0x03], &CmdLen, 0x04);
DstData[DstPos + 0x06] |= (ChipID << 7); // set '2nd Chip'-bit
if (! (ROM_LIST[TempByt] & 0x20))
{
TempSht = TempRgn->AddrStart & 0xFFFF;
memcpy(&DstData[DstPos + 0x07], &TempSht, 0x02);
memcpy(&DstData[DstPos + 0x09], &ROMData[TempSht], DataLen);
}
else
{
memcpy(&DstData[DstPos + 0x07], &TempRgn->AddrStart, 0x04);
memcpy(&DstData[DstPos + 0x0B], &ROMData[TempRgn->AddrStart], DataLen);
}
DstPos += 0x07 + CmdLen;
}
TempRRL->IsWritten = true;
}
}
#endif
#ifdef WIN32
CmdTimer = 0;
#endif
SetChipSet(0x00);
StopVGM = false;
while(VGMPos < VGMHead.lngEOFOffset)
{
CmdLen = 0x00;
Command = VGMData[VGMPos + 0x00];
WriteEvent = true;
if (Command >= 0x70 && Command <= 0x8F)
{
switch(Command & 0xF0)
{
case 0x70:
TempSht = (Command & 0x0F) + 0x01;
VGMSmplPos += TempSht;
break;
case 0x80:
TempSht = Command & 0x0F;
VGMSmplPos += TempSht;
break;
}
CmdLen = 0x01;
}
else
{
switch(Command)
{
case 0x66: // End Of File
CmdLen = 0x01;
StopVGM = true;
break;
case 0x62: // 1/60s delay
TempSht = 735;
VGMSmplPos += TempSht;
CmdLen = 0x01;
break;
case 0x63: // 1/50s delay
TempSht = 882;
VGMSmplPos += TempSht;
CmdLen = 0x01;