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version 1.32, 2005/03/16 06:05:18
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version 1.33, 2005/03/16 08:01:12
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Line 30 typedef REG16 (MEMCALL * MEM16READ)(UINT
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Line 30 typedef REG16 (MEMCALL * MEM16READ)(UINT
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| |
|
| static REG8 MEMCALL memmain_rd8(UINT32 address) { |
static REG8 MEMCALL memmain_rd8(UINT32 address) { |
| |
|
| return(mem[address & CPU_ADRSMASK]); |
return(mem[address]); |
| } |
} |
| |
|
| static REG16 MEMCALL memmain_rd16(UINT32 address) { |
static REG16 MEMCALL memmain_rd16(UINT32 address) { |
| |
|
| const UINT8 *ptr; |
const UINT8 *ptr; |
| |
|
| ptr = mem + (address & CPU_ADRSMASK); |
ptr = mem + address; |
| return(LOADINTELWORD(ptr)); |
return(LOADINTELWORD(ptr)); |
| } |
} |
| |
|
| static void MEMCALL memmain_wr8(UINT32 address, REG8 value) { |
static void MEMCALL memmain_wr8(UINT32 address, REG8 value) { |
| |
|
| mem[address & CPU_ADRSMASK] = (UINT8)value; |
mem[address] = (UINT8)value; |
| } |
} |
| |
|
| static void MEMCALL memmain_wr16(UINT32 address, REG16 value) { |
static void MEMCALL memmain_wr16(UINT32 address, REG16 value) { |
| |
|
| UINT8 *ptr; |
UINT8 *ptr; |
| |
|
| ptr = mem + (address & CPU_ADRSMASK); |
ptr = mem + address; |
| STOREINTELWORD(ptr, value); |
STOREINTELWORD(ptr, value); |
| } |
} |
| |
|
|
Line 82 static void MEMCALL memnc_wr16(UINT32 ad
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Line 82 static void MEMCALL memnc_wr16(UINT32 ad
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| } |
} |
| |
|
| |
|
| // ---- memory 000000-0ffffff |
// ---- memory 000000-0ffffff + 64KB |
| |
|
| typedef struct { |
typedef struct { |
| MEM8READ rd8[0x20]; |
MEM8READ rd8[0x22]; |
| MEM8WRITE wr8[0x20]; |
MEM8WRITE wr8[0x22]; |
| MEM16READ rd16[0x20]; |
MEM16READ rd16[0x22]; |
| MEM16WRITE wr16[0x20]; |
MEM16WRITE wr16[0x22]; |
| } MEMFN0; |
} MEMFN0; |
| |
|
| typedef struct { |
typedef struct { |
|
Line 115 static MEMFN0 memfn0 = {
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Line 115 static MEMFN0 memfn0 = {
|
| memmain_rd8, memmain_rd8, memmain_rd8, memmain_rd8, // 80 |
memmain_rd8, memmain_rd8, memmain_rd8, memmain_rd8, // 80 |
| memtram_rd8, memvram0_rd8, memvram0_rd8, memvram0_rd8, // a0 |
memtram_rd8, memvram0_rd8, memvram0_rd8, memvram0_rd8, // a0 |
| memems_rd8, memems_rd8, memmain_rd8, memmain_rd8, // c0 |
memems_rd8, memems_rd8, memmain_rd8, memmain_rd8, // c0 |
| memvram0_rd8, memmain_rd8, memmain_rd8, memf800_rd8}, // e0 |
memvram0_rd8, memmain_rd8, memmain_rd8, memf800_rd8, // e0 |
| |
memmain_rd8, memmain_rd8}, |
| |
|
| {memmain_wr8, memmain_wr8, memmain_wr8, memmain_wr8, // 00 |
{memmain_wr8, memmain_wr8, memmain_wr8, memmain_wr8, // 00 |
| memmain_wr8, memmain_wr8, memmain_wr8, memmain_wr8, // 20 |
memmain_wr8, memmain_wr8, memmain_wr8, memmain_wr8, // 20 |
|
Line 124 static MEMFN0 memfn0 = {
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Line 125 static MEMFN0 memfn0 = {
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| memmain_wr8, memmain_wr8, memmain_wr8, memmain_wr8, // 80 |
memmain_wr8, memmain_wr8, memmain_wr8, memmain_wr8, // 80 |
| memtram_wr8, memvram0_wr8, memvram0_wr8, memvram0_wr8, // a0 |
memtram_wr8, memvram0_wr8, memvram0_wr8, memvram0_wr8, // a0 |
| memems_wr8, memems_wr8, memd000_wr8, memd000_wr8, // c0 |
memems_wr8, memems_wr8, memd000_wr8, memd000_wr8, // c0 |
| memvram0_wr8, memnc_wr8, memnc_wr8, memnc_wr8}, // e0 |
memvram0_wr8, memnc_wr8, memnc_wr8, memnc_wr8, // e0 |
| |
memmain_wr8, memmain_wr8}, |
| |
|
| {memmain_rd16, memmain_rd16, memmain_rd16, memmain_rd16, // 00 |
{memmain_rd16, memmain_rd16, memmain_rd16, memmain_rd16, // 00 |
| memmain_rd16, memmain_rd16, memmain_rd16, memmain_rd16, // 20 |
memmain_rd16, memmain_rd16, memmain_rd16, memmain_rd16, // 20 |
|
Line 133 static MEMFN0 memfn0 = {
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Line 135 static MEMFN0 memfn0 = {
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| memmain_rd16, memmain_rd16, memmain_rd16, memmain_rd16, // 80 |
memmain_rd16, memmain_rd16, memmain_rd16, memmain_rd16, // 80 |
| memtram_rd16, memvram0_rd16, memvram0_rd16, memvram0_rd16, // a0 |
memtram_rd16, memvram0_rd16, memvram0_rd16, memvram0_rd16, // a0 |
| memems_rd16, memems_rd16, memmain_rd16, memmain_rd16, // c0 |
memems_rd16, memems_rd16, memmain_rd16, memmain_rd16, // c0 |
| memvram0_rd16, memmain_rd16, memmain_rd16, memf800_rd16}, // e0 |
memvram0_rd16, memmain_rd16, memmain_rd16, memf800_rd16, // e0 |
| |
memmain_rd16, memmain_rd16}, |
| |
|
| {memmain_wr16, memmain_wr16, memmain_wr16, memmain_wr16, // 00 |
{memmain_wr16, memmain_wr16, memmain_wr16, memmain_wr16, // 00 |
| memmain_wr16, memmain_wr16, memmain_wr16, memmain_wr16, // 20 |
memmain_wr16, memmain_wr16, memmain_wr16, memmain_wr16, // 20 |
|
Line 142 static MEMFN0 memfn0 = {
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Line 145 static MEMFN0 memfn0 = {
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| memmain_wr16, memmain_wr16, memmain_wr16, memmain_wr16, // 80 |
memmain_wr16, memmain_wr16, memmain_wr16, memmain_wr16, // 80 |
| memtram_wr16, memvram0_wr16, memvram0_wr16, memvram0_wr16, // a0 |
memtram_wr16, memvram0_wr16, memvram0_wr16, memvram0_wr16, // a0 |
| memems_wr16, memems_wr16, memd000_wr16, memd000_wr16, // c0 |
memems_wr16, memems_wr16, memd000_wr16, memd000_wr16, // c0 |
| memvram0_wr16, memnc_wr16, memnc_wr16, memnc_wr16}}; // e0 |
memvram0_wr16, memnc_wr16, memnc_wr16, memnc_wr16, // e0 |
| |
memmain_wr16, memmain_wr16}}; |
| |
|
| static const MMAPTBL mmaptbl[2] = { |
static const MMAPTBL mmaptbl[2] = { |
| {memmain_rd8, memf800_rd8, memnc_wr8, |
{memmain_rd8, memf800_rd8, memnc_wr8, |
|
Line 228 const VACCTBL *vacc;
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Line 232 const VACCTBL *vacc;
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| } |
} |
| else { |
else { |
| memfn0.rd8[0xa8000 >> 15] = memvga0_rd8; |
memfn0.rd8[0xa8000 >> 15] = memvga0_rd8; |
| memfn0.rd8[0xb0000 >> 15] = memvga0_rd8; |
memfn0.rd8[0xb0000 >> 15] = memvga1_rd8; |
| memfn0.rd8[0xb8000 >> 15] = memnc_rd8; |
memfn0.rd8[0xb8000 >> 15] = memnc_rd8; |
| memfn0.rd8[0xe0000 >> 15] = memvgaio_rd8; |
memfn0.rd8[0xe0000 >> 15] = memvgaio_rd8; |
| |
|
| memfn0.wr8[0xa8000 >> 15] = memvga0_wr8; |
memfn0.wr8[0xa8000 >> 15] = memvga0_wr8; |
| memfn0.wr8[0xb0000 >> 15] = memvga0_wr8; |
memfn0.wr8[0xb0000 >> 15] = memvga1_wr8; |
| memfn0.wr8[0xb8000 >> 15] = memnc_wr8; |
memfn0.wr8[0xb8000 >> 15] = memnc_wr8; |
| memfn0.wr8[0xe0000 >> 15] = memvgaio_wr8; |
memfn0.wr8[0xe0000 >> 15] = memvgaio_wr8; |
| |
|
| memfn0.rd16[0xa8000 >> 15] = memvga0_rd16; |
memfn0.rd16[0xa8000 >> 15] = memvga0_rd16; |
| memfn0.rd16[0xb0000 >> 15] = memvga0_rd16; |
memfn0.rd16[0xb0000 >> 15] = memvga1_rd16; |
| memfn0.rd16[0xb8000 >> 15] = memnc_rd16; |
memfn0.rd16[0xb8000 >> 15] = memnc_rd16; |
| memfn0.rd16[0xe0000 >> 15] = memvgaio_rd16; |
memfn0.rd16[0xe0000 >> 15] = memvgaio_rd16; |
| |
|
| memfn0.wr16[0xa8000 >> 15] = memvga0_wr16; |
memfn0.wr16[0xa8000 >> 15] = memvga0_wr16; |
| memfn0.wr16[0xb0000 >> 15] = memvga0_wr16; |
memfn0.wr16[0xb0000 >> 15] = memvga1_wr16; |
| memfn0.wr16[0xb8000 >> 15] = memnc_wr16; |
memfn0.wr16[0xb8000 >> 15] = memnc_wr16; |
| memfn0.wr16[0xe0000 >> 15] = memvgaio_wr16; |
memfn0.wr16[0xe0000 >> 15] = memvgaio_wr16; |
| } |
} |
|
Line 264 typedef struct {
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Line 268 typedef struct {
|
| static REG8 MEMCALL memsys_rd8(UINT32 address) { |
static REG8 MEMCALL memsys_rd8(UINT32 address) { |
| |
|
| address -= 0xf00000; |
address -= 0xf00000; |
| return(memfn0.rd8[(address >> 15) & 0x1f](address)); |
return(memfn0.rd8[address >> 15](address)); |
| } |
} |
| |
|
| static REG16 MEMCALL memsys_rd16(UINT32 address) { |
static REG16 MEMCALL memsys_rd16(UINT32 address) { |
| |
|
| address -= 0xf00000; |
address -= 0xf00000; |
| return(memfn0.rd16[(address >> 15) & 0x1f](address)); |
return(memfn0.rd16[address >> 15](address)); |
| } |
} |
| |
|
| static void MEMCALL memsys_wr8(UINT32 address, REG8 value) { |
static void MEMCALL memsys_wr8(UINT32 address, REG8 value) { |
| |
|
| address -= 0xf00000; |
address -= 0xf00000; |
| memfn0.wr8[(address >> 15) & 0x1f](address, value); |
memfn0.wr8[address >> 15](address, value); |
| } |
} |
| |
|
| static void MEMCALL memsys_wr16(UINT32 address, REG16 value) { |
static void MEMCALL memsys_wr16(UINT32 address, REG16 value) { |
| |
|
| address -= 0xf00000; |
address -= 0xf00000; |
| memfn0.wr16[(address >> 15) & 0x1f](address, value); |
memfn0.wr16[address >> 15](address, value); |
| } |
} |
| |
|
| #if defined(SUPPORT_PC9821) |
#if defined(SUPPORT_PC9821) |
|
Line 320 REG8 MEMCALL i286_memoryread(UINT32 addr
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Line 324 REG8 MEMCALL i286_memoryread(UINT32 addr
|
| else { |
else { |
| addr = addr & CPU_ADRSMASK; |
addr = addr & CPU_ADRSMASK; |
| if (addr < USE_HIMEM) { |
if (addr < USE_HIMEM) { |
| return(memfn0.rd8[(addr >> 15) & 0x1f](addr)); |
return(memfn0.rd8[addr >> 15](addr)); |
| } |
} |
| else if (addr < CPU_EXTLIMIT16) { |
else if (addr < CPU_EXTLIMIT16) { |
| return(CPU_EXTMEMBASE[addr]); |
return(CPU_EXTMEMBASE[addr]); |
|
Line 356 REG16 MEMCALL i286_memoryread_w(UINT32 a
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Line 360 REG16 MEMCALL i286_memoryread_w(UINT32 a
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| else if ((addr + 1) & 0x7fff) { // non 32kb boundary |
else if ((addr + 1) & 0x7fff) { // non 32kb boundary |
| addr = addr & CPU_ADRSMASK; |
addr = addr & CPU_ADRSMASK; |
| if (addr < USE_HIMEM) { |
if (addr < USE_HIMEM) { |
| return(memfn0.rd16[(addr >> 15) & 0x1f](addr)); |
return(memfn0.rd16[addr >> 15](addr)); |
| } |
} |
| else if (addr < CPU_EXTLIMIT16) { |
else if (addr < CPU_EXTLIMIT16) { |
| return(LOADINTELWORD(CPU_EXTMEMBASE + addr)); |
return(LOADINTELWORD(CPU_EXTMEMBASE + addr)); |
|
Line 396 UINT32 MEMCALL i286_memoryread_d(UINT32
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Line 400 UINT32 MEMCALL i286_memoryread_d(UINT32
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| return(LOADINTELDWORD(mem + addr)); |
return(LOADINTELDWORD(mem + addr)); |
| } |
} |
| else if (addr >= USE_HIMEM) { |
else if (addr >= USE_HIMEM) { |
| pos = (addr & CPU_ADRSMASK) - 0x100000; |
pos = addr & CPU_ADRSMASK; |
| if ((pos + 3) < CPU_EXTMEMSIZE) { |
if ((pos >= USE_HIMEM) && ((pos + 3) < CPU_EXTLIMIT16)) { |
| return(LOADINTELDWORD(CPU_EXTMEM + pos)); |
return(LOADINTELDWORD(CPU_EXTMEMBASE + pos)); |
| } |
} |
| } |
} |
| if (!(addr & 1)) { |
if (!(addr & 1)) { |
|
Line 421 void MEMCALL i286_memorywrite(UINT32 add
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Line 425 void MEMCALL i286_memorywrite(UINT32 add
|
| else { |
else { |
| addr = addr & CPU_ADRSMASK; |
addr = addr & CPU_ADRSMASK; |
| if (addr < USE_HIMEM) { |
if (addr < USE_HIMEM) { |
| memfn0.wr8[(addr >> 15) & 0x1f](addr, value); |
memfn0.wr8[addr >> 15](addr, value); |
| } |
} |
| else if (addr < CPU_EXTLIMIT16) { |
else if (addr < CPU_EXTLIMIT16) { |
| CPU_EXTMEMBASE[addr] = (UINT8)value; |
CPU_EXTMEMBASE[addr] = (UINT8)value; |
|
Line 453 void MEMCALL i286_memorywrite_w(UINT32 a
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Line 457 void MEMCALL i286_memorywrite_w(UINT32 a
|
| else if ((addr + 1) & 0x7fff) { // non 32kb boundary |
else if ((addr + 1) & 0x7fff) { // non 32kb boundary |
| addr = addr & CPU_ADRSMASK; |
addr = addr & CPU_ADRSMASK; |
| if (addr < USE_HIMEM) { |
if (addr < USE_HIMEM) { |
| memfn0.wr16[(addr >> 15) & 0x1f](addr, value); |
memfn0.wr16[addr >> 15](addr, value); |
| } |
} |
| else if (addr < CPU_EXTLIMIT16) { |
else if (addr < CPU_EXTLIMIT16) { |
| STOREINTELWORD(CPU_EXTMEMBASE + addr, value); |
STOREINTELWORD(CPU_EXTMEMBASE + addr, value); |
|
Line 490 void MEMCALL i286_memorywrite_d(UINT32 a
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Line 494 void MEMCALL i286_memorywrite_d(UINT32 a
|
| return; |
return; |
| } |
} |
| else if (addr >= USE_HIMEM) { |
else if (addr >= USE_HIMEM) { |
| pos = (addr & CPU_ADRSMASK) - 0x100000; |
pos = addr & CPU_ADRSMASK; |
| if ((pos + 3) < CPU_EXTMEMSIZE) { |
if ((pos >= USE_HIMEM) && ((pos + 3) < CPU_EXTLIMIT16)) { |
| STOREINTELDWORD(CPU_EXTMEM + pos, value); |
STOREINTELDWORD(CPU_EXTMEMBASE + pos, value); |
| return; |
return; |
| } |
} |
| } |
} |
|
Line 510 void MEMCALL i286_memorywrite_d(UINT32 a
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Line 514 void MEMCALL i286_memorywrite_d(UINT32 a
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| void MEMCALL memp_read(UINT32 address, void *dat, UINT leng) { |
void MEMCALL memp_read(UINT32 address, void *dat, UINT leng) { |
| |
|
| UINT8 *out = (UINT8 *)dat; |
UINT8 *out = (UINT8 *)dat; |
| UINT pos; |
|
| UINT diff; |
UINT diff; |
| |
|
| /* fast memory access */ |
/* fast memory access */ |
| if (address + leng < I286_MEMREADMAX) { |
if ((address + leng) < I286_MEMREADMAX) { |
| CopyMemory(dat, mem + address, leng); |
CopyMemory(dat, mem + address, leng); |
| return; |
return; |
| } else if (address >= USE_HIMEM) { |
} |
| pos = (address & CPU_ADRSMASK) - 0x100000; |
address = address & CPU_ADRSMASK; |
| if (pos + leng < CPU_EXTMEMSIZE) { |
if ((address >= USE_HIMEM) && (address < CPU_EXTLIMIT16)) { |
| CopyMemory(dat, CPU_EXTMEM + pos, leng); |
diff = CPU_EXTLIMIT16 - address; |
| |
if (diff >= leng) { |
| |
CopyMemory(dat, CPU_EXTMEMBASE + address, leng); |
| return; |
return; |
| } |
} |
| if (pos < CPU_EXTMEMSIZE) { |
CopyMemory(dat, CPU_EXTMEMBASE + address, diff); |
| diff = CPU_EXTMEMSIZE - pos; |
out += diff; |
| CopyMemory(out, CPU_EXTMEM + pos, diff); |
leng -= diff; |
| out += diff; |
address += diff; |
| leng -= diff; |
|
| address += diff; |
|
| } |
|
| } |
} |
| |
|
| /* slow memory access */ |
/* slow memory access */ |
|
Line 541 void MEMCALL memp_read(UINT32 address, v
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Line 543 void MEMCALL memp_read(UINT32 address, v
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| void MEMCALL memp_write(UINT32 address, const void *dat, UINT leng) { |
void MEMCALL memp_write(UINT32 address, const void *dat, UINT leng) { |
| |
|
| const UINT8 *out = (UINT8 *)dat; |
const UINT8 *out = (UINT8 *)dat; |
| UINT pos; |
|
| UINT diff; |
UINT diff; |
| |
|
| /* fast memory access */ |
/* fast memory access */ |
| if (address + leng < I286_MEMREADMAX) { |
if ((address + leng) < I286_MEMREADMAX) { |
| CopyMemory(mem + address, dat, leng); |
CopyMemory(mem + address, dat, leng); |
| return; |
return; |
| } else if (address >= USE_HIMEM) { |
} |
| pos = (address & CPU_ADRSMASK) - 0x100000; |
address = address & CPU_ADRSMASK; |
| if (pos + leng < CPU_EXTMEMSIZE) { |
if ((address >= USE_HIMEM) && (address < CPU_EXTLIMIT16)) { |
| CopyMemory(CPU_EXTMEM + pos, dat, leng); |
diff = CPU_EXTLIMIT16 - address; |
| |
if (diff >= leng) { |
| |
CopyMemory(CPU_EXTMEMBASE + address, dat, leng); |
| return; |
return; |
| } |
} |
| if (pos < CPU_EXTMEMSIZE) { |
CopyMemory(CPU_EXTMEMBASE + address, dat, diff); |
| diff = CPU_EXTMEMSIZE - pos; |
out += diff; |
| CopyMemory(CPU_EXTMEM + pos, dat, diff); |
leng -= diff; |
| out += diff; |
address += diff; |
| leng -= diff; |
|
| address += diff; |
|
| } |
|
| } |
} |
| |
|
| /* slow memory access */ |
/* slow memory access */ |
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